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  • «The coronavirus pandemic was declared by the World Health Organization (WHO) in 2020, and a global genetic vaccination program has been rapidly implemented as a fundamental solution. However, many countries around the world have reported that so-called genetic vaccines, such as those using modified mRNA encoding the spike protein and lipid nanoparticles as the drug delivery system, have resulted in post-vaccination thrombosis and subsequent cardiovascular damage, as well as a wide variety of diseases involving all organs and systems, including the nervous system».

    Thus begins the summary of a new study published on Preprint.org which supports the alarm about the dangers of blood transfusions with the blood of vaccinated people already highlighted by an explosion of legal actions in Italyand by a bill in the USA.


    http://donshafi911.blogspot.com/2024/04/governments-worldwide-are-struggling-to_4.html
    «The coronavirus pandemic was declared by the World Health Organization (WHO) in 2020, and a global genetic vaccination program has been rapidly implemented as a fundamental solution. However, many countries around the world have reported that so-called genetic vaccines, such as those using modified mRNA encoding the spike protein and lipid nanoparticles as the drug delivery system, have resulted in post-vaccination thrombosis and subsequent cardiovascular damage, as well as a wide variety of diseases involving all organs and systems, including the nervous system». Thus begins the summary of a new study published on Preprint.org which supports the alarm about the dangers of blood transfusions with the blood of vaccinated people already highlighted by an explosion of legal actions in Italyand by a bill in the USA. http://donshafi911.blogspot.com/2024/04/governments-worldwide-are-struggling-to_4.html
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  • Pfizer partnering with Ido Bachelet on DNA nanorobots
    OUTRAGED HUMAN
    “No, no it’s not science fiction; it’s already happening,” said Ido Bachelet to a somewhat incredulous audience member








    https://www.youtube.com/watch?v=MzLTWU2EqP4 Ido Bachelet - Moonshot Thinking


    ... when they cause too much damage by mistake...

    or intentionally...


    5:12

    study your biology and activate targeted medication when necessary.


    5:36

    We also know how to remote-control these robots, using magnetic fields.

    5:40

    Furthermore, we can control them, as you saw in the clip, with a joystick,

    5:43

    directing them to a specific part of the body,

    5:46

    and then activating them with the push of a button.

    5:49

    We have also connected this joystick to the internet.

    5:51

    Our robots have a IP address,

    5:54

    so you can connect with them from afar and activate them online.



    6:01

    Imagine that in a couple of years,

    6:03

    your doctor will be able to sit at home with his smartphone,

    6:05

    and instead of playing "Candy Crush"

    6:08

    he will connect with the robots inside of you,

    6:11

    activate a certain medication and possibly even save you, just in time.

    AND IMAGINE THAT YOU WOULDN'T EVEN KNOW IT, YOU WOULDN'T BE TOLD ABOUT IT.

    AND THAT IN ORDER TO IMPLANT/INJECT IT, YOU WOULD BE TOLD THAT THERE IS A DREADFUL PANDEMIC, AND AT EVERY STEP YOU WOULD BE FORCED TO TAKE IT AS A NECESSARY "VACCINATION." AND A “PCR TEST”.

    BY YOUR GOVERNMENT, THE AIRLINES, THE EMPLOYER, THE WAITER AT THE RESTAURANT, THE FDA, THE EMA, THE WORLD HEALTH ORGANIZATION...

    AND YET IMAGINE THAT MANY PEOPLE WOULD DIE FROM IT, AND THEY WOULD BE YOUR RELATIVES AND FRIENDS.

    BUT YOU WOULD BE THE ONE WHO WOULD HAVE TO PROVE THAT IT WAS BECAUSE OF IT.

    IMAGINE BEING SURROUNDED BY CENSORSHIP, BEING RIDICULED, HAVING YOUR RIGHTS TO DO YOUR JOB, MOVE AROUND, OR EVEN SPEAK THE TRUTH AT ALL TAKEN AWAY FROM YOU....

    ISN’T THIS A BRIGHT FURTURE AND A FANTASTIC REALITY?

    ARE YOU AGAINST SCIENCE? AGAINST PROGRESS? AGAINST PREVENTING DISEASES?



    https://www.nextbigfuture.com/2015/05/pfizer-partnering-with-ido-bachelet-on.html

    Pfizer is cooperating with the DNA robot laboratory managed by Prof. Ido Bachelet at Bar-Ilan University. Bachelet has developed a method of producing innovative DNA molecules with characteristics that can be used to "program" them to reach specific locations in the body and carry out pre-programmed operations there in response to stimulation from the body. This cooperation was revealed in a lecture by Pfizer president of worldwide research and development (WRD), portfolio strategy and investment committee chairman, and executive VP Mikael Dolstein at the IATI Biomed Conference in Tel Aviv being concluded today.

    Research will focus on the possibility that the robots will deliver the medical proteins to designated tissue.

    Bachelet came to Bar-Ilan from the Massachusetts Institute of Technology (MIT) several years ago. At a Tedmed event held two years ago, he explained, "In order to make a nanometric robot, we first of all create a selected DNA sequence, and then fold it using a process called DNA origami. With this method, a person can give a command to a computer, which folds the DNA molecule as needed.

    "The result is that a DNA sequence can be made in the form of a clam, for example, and containing a drug. The DNA molecule, however, contains a code activated upon encountering certain materials in the body. For example, the clam can be designed to change its shape and release the drug only when it meets a cancer cell or the right tissue.

    "In addition, the molecules can receive signals from each other, and can theoretically change their shape according to signals from the body, and can be pre-programmed to attach themselves to one another. In the future, it will be possible to combine each such molecule with a miniature antenna. When the antenna receives an external signal, it will make a small change in the molecule that will make it open or close, and dissipate or connect itself to another molecule."



    In a brief talk, Bachelet said DNA nanobots will soon be tried in a critically ill leukemia patient. The patient, who has been given roughly six months to live, will receive an injection of DNA nanobots designed to interact with and destroy leukemia cells—while causing virtually zero collateral damage in healthy tissue.

    According to Bachelet, his team have successfully tested their method in cell cultures and animals and written two papers on the subject, one in Science and one in Nature.

    Contemporary cancer therapies involving invasive surgery and blasts of drugs can be as painful and damaging to the body as the disease itself. If Bachelet's approach proves successful in humans, and is backed by more research in the coming years, the team’s work could signal a transformational moment in cancer treatment.

    If this treatment works this will be a medical breakthrough and can be used for many other diseases by delivering drugs more effectively without causing side effects.

    2012 Video with answers from George Church, Ido Bachelet and Shawn Douglas on the medical DNA double helix clamshell nanobucket nanobot



    George Church indicates the smart DNA nanobot has applications beyond nanomedicine. Applications where there is any need for programmable and targeted release or interaction at the cellular or near molecular scale.

    2014 Geek Time Presentation from Ido Bachelet



    “AND THE LAST THING I AM GOING TO SCHOW YOU IS… PANDEMIC.

    SO, WE ARE REALLY CONCERNED ABOUT PANDEMICS… ESPECIALLY INFLUENZA PANDEMICS.

    SO THE BEST WAY TO AVOID PANDEMICS OR TO HANDLE PANDEMICS, IS SIMPLY TO KNOW WHERE THE VIRUS IS AND NOT TO BE THERE…

    IT SOUNDS STUPID, BUT IT IS ACTUALLY THE CASE…

    IF YOU COULD IDENTIFY WHERE THE VIRUS IS IN REAL TIME AND YOU CAN CONTAIN THAT AREA, YOU WOULD STOP THE PANDEMIC, YOU WOULD STOP THE DISEASE… OK?


    SO, WHAT WE DEVELOPED IS A SENSOR… COMPOSED OF CARBON NANOTUBES FUNCTIONALIZED WITH ALL KIND OF THINGS… THE SENSOR IS EXTREMELY SENSITIVE… WE’VE BUILT THIS APPLICATION… THEY SEND THEIR GPS COORDINATES TO OUR SERVER SO WE CAN SORT OF RECONSTRUCT A REAL MAP…

    I HOPE YOU ENJOYED THIS AND UNDESTOOND WHAT BIONICS IS ALL ABOUT…

    At the British Friends of Bar-Ilan University's event in Otto Uomo October 2014 Professor Ido Bachelet announced the beginning of the human treatment with nanomedicine. He indicates DNA nanobots can currently identify cells in humans with 12 different types of cancer tumors.

    A human patient with late stage leukemia will be given DNA nanobot treatment. Without the DNA nanobot treatment the patient would be expected to die in the summer of 2015. Based upon animal trials they expect to remove the cancer within one month.

    Within 1 or 2 years they hope to have spinal cord repair working in animals and then shortly thereafter in humans. This is working in tissue cultures.

    Previously Ido Bachelet and Shawn Douglas have published work on DNA nanobots in the journal Nature and other respected science publications.

    One Trillion 50 nanometer nanobots in a syringe will be injected into people to perform cellular surgery.

    The DNA nanobots have been tuned to not cause an immune response.
    They have been adjusted for different kinds of medical procedures. Procedures can be quick or ones that last many days.


    Medicine or treatment released based upon molecular sensing - Only targeted cells are treated

    Ido's daughter has a leg disease which requires frequent surgery. He is hoping his DNA nanobots will make the type of surgery she needs relatively trivial - a simple injection at a doctor's office.

    We can control powerful drugs that were already developed

    Effective drugs that were withdrawn from the market for excessive toxicity can be combined with DNA nanobots for effective delivery. The tiny molecular computers of the DNA nanobots can provide molecular selective control for powerful medicines that were already developed.

    Using DNA origami and molecular programming, they are reality. These nanobots can seek and kill cancer cells, mimic social insect behaviors, carry out logical operators like a computer in a living animal, and they can be controlled from an Xbox. Ido Bachelet from the bio-design lab at Bar Ilan University explains this technology and how it will change medicine in the near future.

    Ido Bachelet earned his Ph.D. from the Hebrew University in Jerusalem, and was a postdoctoral fellow at M.I.T. and Harvard University. He is currently an assistant professor in the Faculty of Life Sciences and the Nano-Center at Bar Ilan University, Israel, the founder of several biotech companies, and a composer of music for piano and molecules.


    Researchers have injected various kinds of DNA nanobots into cockroaches. Because the nanobots are labelled with fluorescent markers, the researchers can follow them and analyse how different robot combinations affect where substances are delivered. The team says the accuracy of delivery and control of the nanobots is equivalent to a computer system.

    This is the development of the vision of nanomedicine.
    This is the realization of the power of DNA nanotechnology.
    This is programmable dna nanotechnology.

    The DNA nanotechnology cannot perform atomically precise chemistry (yet), but having control of the DNA combined with advanced synthetic biology and control of proteins and nanoparticles is clearly developing into very interesting capabilities.

    "This is the first time that biological therapy has been able to match how a computer processor works," says co-author Ido Bachelet of the Institute of Nanotechnology and Advanced Materials at Bar Ilan University.

    The team says it should be possible to scale up the computing power in the cockroach to that of an 8-bit computer, equivalent to a Commodore 64 or Atari 800 from the 1980s. Goni-Moreno agrees that this is feasible. "The mechanism seems easy to scale up so the complexity of the computations will soon become higher," he says.

    An obvious benefit of this technology would be cancer treatments, because these must be cell-specific and current treatments are not well-targeted. But a treatment like this in mammals must overcome the immune response triggered when a foreign object enters the body.

    Bachelet is confident that the team can enhance the robots' stability so that they can survive in mammals. "There is no reason why preliminary trials on humans can't start within five years," he says

    Biological systems are collections of discrete molecular objects that move around and collide with each other. Cells carry out elaborate processes by precisely controlling these collisions, but developing artificial machines that can interface with and control such interactions remains a significant challenge. DNA is a natural substrate for computing and has been used to implement a diverse set of mathematical problems, logic circuits and robotics. The molecule also interfaces naturally with living systems, and different forms of DNA-based biocomputing have already been demonstrated. Here, we show that DNA origami can be used to fabricate nanoscale robots that are capable of dynamically interacting with each other in a living animal. The interactions generate logical outputs, which are relayed to switch molecular payloads on or off. As a proof of principle, we use the system to create architectures that emulate various logic gates (AND, OR, XOR, NAND, NOT, CNOT and a half adder). Following an ex vivo prototyping phase, we successfully used the DNA origami robots in living cockroaches (Blaberus discoidalis) to control a molecule that targets their cells.

    Nature Nanotechnology - Universal computing by DNA origami robots in a living animal


    44 pages of supplemental information

    Ido Bachelet's moonshot to use nanorobotics for surgery has the potential to change lives globally. But who is the man behind the moonshot?

    Ido graduated from the Hebrew University of Jerusalem with a PhD in pharmacology and experimental therapeutics. Afterwards he did two postdocs; one in engineering at MIT and one in synthetic biology in the lab of George Church at the Wyss Institute at Harvard.

    Now, his group at Bar-Ilan University designs and studies diverse technologies inspired by nature.

    They will deliver enzymes that break down cells via programmable nanoparticles.
    Delivering insulin to tell cells to grow and regenerate tissue at the desired location.
    Surgery would be performed by putting the programmable nanoparticles into saline and injecting them into the body to seek out remove bad cells and grow new cells and perform other medical work.


    Research group website is here.












    SOLVE FOR DISEASE X?

    https://en.globes.co.il/en/article-pfizer-to-collaborate-on-bar-ilan-dna-robots-1001036703


    Pfizer is cooperating with the DNA robot laboratory managed by Prof. Ido Bachelet at Bar-Ilan University. Bachelet has developed a method of producing innovative DNA molecules with characteristics that can be used to "program" them to reach specific locations in the body and carry out pre-programmed operations there in response to stimulation from the body. This cooperation was revealed in a lecture by Pfizer president of worldwide research and development (WRD), portfolio strategy and investment committee chairman, and executive VP Mikael Dolstein at the IATI Biomed Conference in Tel Aviv being concluded today.

    Bar-Ilan Research & Development Co. CEO Orli Tori said, "This is Pfizer's first cooperative venture with someone in Israeli higher education. The technology is fairly new for a drug company, but Pfizer has agreed to take up the challenge and support this technology, in the hope that it will make a contribution to the company at the proper time.

    "As in all of our research agreements, the company coming from the industry has the right to negotiate the acquisition of the technology at the end of the process." The financial volume of the deal was not disclosed, but most such agreements amount to several hundred thousand dollars at most. The medical sector in which cooperation will take place was also not disclosed,

    but it appears that research will focus on the possibility that the robots will deliver the medical proteins to designated tissue.

    Bachelet came to Bar-Ilan from the Massachusetts Institute of Technology (MIT) several years ago. At a Tedmed event held two years ago, he explained, "In order to make a nanometric robot, we first of all create a selected DNA sequence, and then fold it using a process called DNA origami. With this method, a person can give a command to a computer, which folds the DNA molecule as needed.

    "The result is that a DNA sequence can be made in the form of a clam, for example, and containing a drug. The DNA molecule, however, contains a code activated upon encountering certain materials in the body. For example, the clam can be designed to change its shape and release the drug only when it meets a cancer cell or the right tissue.

    "In addition, the molecules can receive signals from each other, and can theoretically change their shape according to signals from the body, and can be pre-programmed to attach themselves to one another. In the future, it will be possible to combine each such molecule with a miniature antenna.

    When the antenna receives an external signal, it will make a small change in the molecule that will make it open or close, and dissipate or connect itself to another molecule."

    Tori adds, "What is special about the robots is that they open and close according to signals from the surroundings, and that makes it possible to manage the disease. The robot exposes the drug to the target site according to biological signs within the body. For example were we to develop a product for diabetes, although that is not the purpose of this cooperation, it would be possible to develop a robot that would release insulin only when it sensed a rise in the blood sugar level."

    Published by Globes [online], Israel business news - www.globes-online.com - on May 14, 2015

    https://www.nextbigfuture.com/2015/03/ido-bachelet-dna-nanobots-summary-with.html

    Disadvantages

    1. Designing of nanorobot is very costly and complicated

    2. Stray field might be created from electrical systems which can trigger bioelectric based molecular recognition system in biology

    3. Electrical nanorobots remain vulnerable to electrical interference from other sources like radiofrequency or electric fields, electromagnetic pulse and stray fields from other in-vivo electronic devices.

    4. Nanorobots are difficult to design, and customize

    5. These are capable of molecular level destruction of human body thus it can cause terrible effect in terrorism field. Terrorist may make usage of nanorobots as a tool for torturing opponent community

    6. Other possible threat associated with nanorobots is privacy issue.

    As it dealt with designing of miniature form of devices, there are risks for snooping than that exist already.

    [https://web.archive.org/web/20200718043030/https://pharmascope.org/ijrps/article/download/2523/5031]

    [https://web.archive.org/web/20150911233849/http://www.nanosafe.org/home/liblocal/docs/Nanosafe%202014/Session%201/PL1%20-%20Fran%C3%A7ois%20TARDIF.pdf]

    NANOROBOTS:

    SOCIETAL CONCERNS: INDIVIDUAL FREEDOM, TRANSHUMANISM!!!

    http://immortality-roadmap.com/nanorisk.pdf










    http://jddtonline.info/index.php/jddt/article/download/891/533

    There are several drawbacks with this technology like toxicity, contamination. Sometime human body generates strong immune response against them.

    https://web.archive.org/web/20051218111931/http://teknologiskfremsyn.dk:80/download/58.pdf


    “Nanotubes can be highly toxic”

    Fifteen percent of the rats treated with carbon nanotubes suffocated to death within twenty-four hours due to clumping of the nanotubes that obstructed the bronchial passageways.








    Toxicity- the issue of toxicity of nanoparticles was raised as an area in which more research is needed, particularly in terms of whether the regulatory system is sufficient.






    And it's injected into people, soldiers, children, even infants…

    Thank you Zz for this link.



    Pfizer partnering with Ido Bachelet on DNA nano robots.

    “No, no it’s not science fiction; it’s already happening,” said Ido Bachelet to a somewhat incredulous audience member, displaying a test tube in which he says just one drop contains approximately 1,000 billiard robots.

    https://outraged.substack.com/p/pfizer-partnering-with-ido-bachelet?utm_source=cross-post&publication_id=1087020&post_id=143153580&utm_campaign=956088&isFreemail=true&r=1sq9d8&triedRedirect=true&utm_medium=email

    Follow @zeeemedia
    Website | X | Instagram | Rumble

    https://telegra.ph/Pfizer-partnering-with-Ido-Bachelet-on-DNA-nanorobots-04-03
    Pfizer partnering with Ido Bachelet on DNA nanorobots OUTRAGED HUMAN “No, no it’s not science fiction; it’s already happening,” said Ido Bachelet to a somewhat incredulous audience member https://www.youtube.com/watch?v=MzLTWU2EqP4 Ido Bachelet - Moonshot Thinking ... when they cause too much damage by mistake... or intentionally... 5:12 study your biology and activate targeted medication when necessary. 5:36 We also know how to remote-control these robots, using magnetic fields. 5:40 Furthermore, we can control them, as you saw in the clip, with a joystick, 5:43 directing them to a specific part of the body, 5:46 and then activating them with the push of a button. 5:49 We have also connected this joystick to the internet. 5:51 Our robots have a IP address, 5:54 so you can connect with them from afar and activate them online. 6:01 Imagine that in a couple of years, 6:03 your doctor will be able to sit at home with his smartphone, 6:05 and instead of playing "Candy Crush" 6:08 he will connect with the robots inside of you, 6:11 activate a certain medication and possibly even save you, just in time. AND IMAGINE THAT YOU WOULDN'T EVEN KNOW IT, YOU WOULDN'T BE TOLD ABOUT IT. AND THAT IN ORDER TO IMPLANT/INJECT IT, YOU WOULD BE TOLD THAT THERE IS A DREADFUL PANDEMIC, AND AT EVERY STEP YOU WOULD BE FORCED TO TAKE IT AS A NECESSARY "VACCINATION." AND A “PCR TEST”. BY YOUR GOVERNMENT, THE AIRLINES, THE EMPLOYER, THE WAITER AT THE RESTAURANT, THE FDA, THE EMA, THE WORLD HEALTH ORGANIZATION... AND YET IMAGINE THAT MANY PEOPLE WOULD DIE FROM IT, AND THEY WOULD BE YOUR RELATIVES AND FRIENDS. BUT YOU WOULD BE THE ONE WHO WOULD HAVE TO PROVE THAT IT WAS BECAUSE OF IT. IMAGINE BEING SURROUNDED BY CENSORSHIP, BEING RIDICULED, HAVING YOUR RIGHTS TO DO YOUR JOB, MOVE AROUND, OR EVEN SPEAK THE TRUTH AT ALL TAKEN AWAY FROM YOU.... ISN’T THIS A BRIGHT FURTURE AND A FANTASTIC REALITY? ARE YOU AGAINST SCIENCE? AGAINST PROGRESS? AGAINST PREVENTING DISEASES? https://www.nextbigfuture.com/2015/05/pfizer-partnering-with-ido-bachelet-on.html Pfizer is cooperating with the DNA robot laboratory managed by Prof. Ido Bachelet at Bar-Ilan University. Bachelet has developed a method of producing innovative DNA molecules with characteristics that can be used to "program" them to reach specific locations in the body and carry out pre-programmed operations there in response to stimulation from the body. This cooperation was revealed in a lecture by Pfizer president of worldwide research and development (WRD), portfolio strategy and investment committee chairman, and executive VP Mikael Dolstein at the IATI Biomed Conference in Tel Aviv being concluded today. Research will focus on the possibility that the robots will deliver the medical proteins to designated tissue. Bachelet came to Bar-Ilan from the Massachusetts Institute of Technology (MIT) several years ago. At a Tedmed event held two years ago, he explained, "In order to make a nanometric robot, we first of all create a selected DNA sequence, and then fold it using a process called DNA origami. With this method, a person can give a command to a computer, which folds the DNA molecule as needed. "The result is that a DNA sequence can be made in the form of a clam, for example, and containing a drug. The DNA molecule, however, contains a code activated upon encountering certain materials in the body. For example, the clam can be designed to change its shape and release the drug only when it meets a cancer cell or the right tissue. "In addition, the molecules can receive signals from each other, and can theoretically change their shape according to signals from the body, and can be pre-programmed to attach themselves to one another. In the future, it will be possible to combine each such molecule with a miniature antenna. When the antenna receives an external signal, it will make a small change in the molecule that will make it open or close, and dissipate or connect itself to another molecule." In a brief talk, Bachelet said DNA nanobots will soon be tried in a critically ill leukemia patient. The patient, who has been given roughly six months to live, will receive an injection of DNA nanobots designed to interact with and destroy leukemia cells—while causing virtually zero collateral damage in healthy tissue. According to Bachelet, his team have successfully tested their method in cell cultures and animals and written two papers on the subject, one in Science and one in Nature. Contemporary cancer therapies involving invasive surgery and blasts of drugs can be as painful and damaging to the body as the disease itself. If Bachelet's approach proves successful in humans, and is backed by more research in the coming years, the team’s work could signal a transformational moment in cancer treatment. If this treatment works this will be a medical breakthrough and can be used for many other diseases by delivering drugs more effectively without causing side effects. 2012 Video with answers from George Church, Ido Bachelet and Shawn Douglas on the medical DNA double helix clamshell nanobucket nanobot George Church indicates the smart DNA nanobot has applications beyond nanomedicine. Applications where there is any need for programmable and targeted release or interaction at the cellular or near molecular scale. 2014 Geek Time Presentation from Ido Bachelet “AND THE LAST THING I AM GOING TO SCHOW YOU IS… PANDEMIC. SO, WE ARE REALLY CONCERNED ABOUT PANDEMICS… ESPECIALLY INFLUENZA PANDEMICS. SO THE BEST WAY TO AVOID PANDEMICS OR TO HANDLE PANDEMICS, IS SIMPLY TO KNOW WHERE THE VIRUS IS AND NOT TO BE THERE… IT SOUNDS STUPID, BUT IT IS ACTUALLY THE CASE… IF YOU COULD IDENTIFY WHERE THE VIRUS IS IN REAL TIME AND YOU CAN CONTAIN THAT AREA, YOU WOULD STOP THE PANDEMIC, YOU WOULD STOP THE DISEASE… OK? SO, WHAT WE DEVELOPED IS A SENSOR… COMPOSED OF CARBON NANOTUBES FUNCTIONALIZED WITH ALL KIND OF THINGS… THE SENSOR IS EXTREMELY SENSITIVE… WE’VE BUILT THIS APPLICATION… THEY SEND THEIR GPS COORDINATES TO OUR SERVER SO WE CAN SORT OF RECONSTRUCT A REAL MAP… I HOPE YOU ENJOYED THIS AND UNDESTOOND WHAT BIONICS IS ALL ABOUT… At the British Friends of Bar-Ilan University's event in Otto Uomo October 2014 Professor Ido Bachelet announced the beginning of the human treatment with nanomedicine. He indicates DNA nanobots can currently identify cells in humans with 12 different types of cancer tumors. A human patient with late stage leukemia will be given DNA nanobot treatment. Without the DNA nanobot treatment the patient would be expected to die in the summer of 2015. Based upon animal trials they expect to remove the cancer within one month. Within 1 or 2 years they hope to have spinal cord repair working in animals and then shortly thereafter in humans. This is working in tissue cultures. Previously Ido Bachelet and Shawn Douglas have published work on DNA nanobots in the journal Nature and other respected science publications. One Trillion 50 nanometer nanobots in a syringe will be injected into people to perform cellular surgery. The DNA nanobots have been tuned to not cause an immune response. They have been adjusted for different kinds of medical procedures. Procedures can be quick or ones that last many days. Medicine or treatment released based upon molecular sensing - Only targeted cells are treated Ido's daughter has a leg disease which requires frequent surgery. He is hoping his DNA nanobots will make the type of surgery she needs relatively trivial - a simple injection at a doctor's office. We can control powerful drugs that were already developed Effective drugs that were withdrawn from the market for excessive toxicity can be combined with DNA nanobots for effective delivery. The tiny molecular computers of the DNA nanobots can provide molecular selective control for powerful medicines that were already developed. Using DNA origami and molecular programming, they are reality. These nanobots can seek and kill cancer cells, mimic social insect behaviors, carry out logical operators like a computer in a living animal, and they can be controlled from an Xbox. Ido Bachelet from the bio-design lab at Bar Ilan University explains this technology and how it will change medicine in the near future. Ido Bachelet earned his Ph.D. from the Hebrew University in Jerusalem, and was a postdoctoral fellow at M.I.T. and Harvard University. He is currently an assistant professor in the Faculty of Life Sciences and the Nano-Center at Bar Ilan University, Israel, the founder of several biotech companies, and a composer of music for piano and molecules. Researchers have injected various kinds of DNA nanobots into cockroaches. Because the nanobots are labelled with fluorescent markers, the researchers can follow them and analyse how different robot combinations affect where substances are delivered. The team says the accuracy of delivery and control of the nanobots is equivalent to a computer system. This is the development of the vision of nanomedicine. This is the realization of the power of DNA nanotechnology. This is programmable dna nanotechnology. The DNA nanotechnology cannot perform atomically precise chemistry (yet), but having control of the DNA combined with advanced synthetic biology and control of proteins and nanoparticles is clearly developing into very interesting capabilities. "This is the first time that biological therapy has been able to match how a computer processor works," says co-author Ido Bachelet of the Institute of Nanotechnology and Advanced Materials at Bar Ilan University. The team says it should be possible to scale up the computing power in the cockroach to that of an 8-bit computer, equivalent to a Commodore 64 or Atari 800 from the 1980s. Goni-Moreno agrees that this is feasible. "The mechanism seems easy to scale up so the complexity of the computations will soon become higher," he says. An obvious benefit of this technology would be cancer treatments, because these must be cell-specific and current treatments are not well-targeted. But a treatment like this in mammals must overcome the immune response triggered when a foreign object enters the body. Bachelet is confident that the team can enhance the robots' stability so that they can survive in mammals. "There is no reason why preliminary trials on humans can't start within five years," he says Biological systems are collections of discrete molecular objects that move around and collide with each other. Cells carry out elaborate processes by precisely controlling these collisions, but developing artificial machines that can interface with and control such interactions remains a significant challenge. DNA is a natural substrate for computing and has been used to implement a diverse set of mathematical problems, logic circuits and robotics. The molecule also interfaces naturally with living systems, and different forms of DNA-based biocomputing have already been demonstrated. Here, we show that DNA origami can be used to fabricate nanoscale robots that are capable of dynamically interacting with each other in a living animal. The interactions generate logical outputs, which are relayed to switch molecular payloads on or off. As a proof of principle, we use the system to create architectures that emulate various logic gates (AND, OR, XOR, NAND, NOT, CNOT and a half adder). Following an ex vivo prototyping phase, we successfully used the DNA origami robots in living cockroaches (Blaberus discoidalis) to control a molecule that targets their cells. Nature Nanotechnology - Universal computing by DNA origami robots in a living animal 44 pages of supplemental information Ido Bachelet's moonshot to use nanorobotics for surgery has the potential to change lives globally. But who is the man behind the moonshot? Ido graduated from the Hebrew University of Jerusalem with a PhD in pharmacology and experimental therapeutics. Afterwards he did two postdocs; one in engineering at MIT and one in synthetic biology in the lab of George Church at the Wyss Institute at Harvard. Now, his group at Bar-Ilan University designs and studies diverse technologies inspired by nature. They will deliver enzymes that break down cells via programmable nanoparticles. Delivering insulin to tell cells to grow and regenerate tissue at the desired location. Surgery would be performed by putting the programmable nanoparticles into saline and injecting them into the body to seek out remove bad cells and grow new cells and perform other medical work. Research group website is here. SOLVE FOR DISEASE X? https://en.globes.co.il/en/article-pfizer-to-collaborate-on-bar-ilan-dna-robots-1001036703 Pfizer is cooperating with the DNA robot laboratory managed by Prof. Ido Bachelet at Bar-Ilan University. Bachelet has developed a method of producing innovative DNA molecules with characteristics that can be used to "program" them to reach specific locations in the body and carry out pre-programmed operations there in response to stimulation from the body. This cooperation was revealed in a lecture by Pfizer president of worldwide research and development (WRD), portfolio strategy and investment committee chairman, and executive VP Mikael Dolstein at the IATI Biomed Conference in Tel Aviv being concluded today. Bar-Ilan Research & Development Co. CEO Orli Tori said, "This is Pfizer's first cooperative venture with someone in Israeli higher education. The technology is fairly new for a drug company, but Pfizer has agreed to take up the challenge and support this technology, in the hope that it will make a contribution to the company at the proper time. "As in all of our research agreements, the company coming from the industry has the right to negotiate the acquisition of the technology at the end of the process." The financial volume of the deal was not disclosed, but most such agreements amount to several hundred thousand dollars at most. The medical sector in which cooperation will take place was also not disclosed, but it appears that research will focus on the possibility that the robots will deliver the medical proteins to designated tissue. Bachelet came to Bar-Ilan from the Massachusetts Institute of Technology (MIT) several years ago. At a Tedmed event held two years ago, he explained, "In order to make a nanometric robot, we first of all create a selected DNA sequence, and then fold it using a process called DNA origami. With this method, a person can give a command to a computer, which folds the DNA molecule as needed. "The result is that a DNA sequence can be made in the form of a clam, for example, and containing a drug. The DNA molecule, however, contains a code activated upon encountering certain materials in the body. For example, the clam can be designed to change its shape and release the drug only when it meets a cancer cell or the right tissue. "In addition, the molecules can receive signals from each other, and can theoretically change their shape according to signals from the body, and can be pre-programmed to attach themselves to one another. In the future, it will be possible to combine each such molecule with a miniature antenna. When the antenna receives an external signal, it will make a small change in the molecule that will make it open or close, and dissipate or connect itself to another molecule." Tori adds, "What is special about the robots is that they open and close according to signals from the surroundings, and that makes it possible to manage the disease. The robot exposes the drug to the target site according to biological signs within the body. For example were we to develop a product for diabetes, although that is not the purpose of this cooperation, it would be possible to develop a robot that would release insulin only when it sensed a rise in the blood sugar level." Published by Globes [online], Israel business news - www.globes-online.com - on May 14, 2015 https://www.nextbigfuture.com/2015/03/ido-bachelet-dna-nanobots-summary-with.html Disadvantages 1. Designing of nanorobot is very costly and complicated 2. Stray field might be created from electrical systems which can trigger bioelectric based molecular recognition system in biology 3. Electrical nanorobots remain vulnerable to electrical interference from other sources like radiofrequency or electric fields, electromagnetic pulse and stray fields from other in-vivo electronic devices. 4. Nanorobots are difficult to design, and customize 5. These are capable of molecular level destruction of human body thus it can cause terrible effect in terrorism field. Terrorist may make usage of nanorobots as a tool for torturing opponent community 6. Other possible threat associated with nanorobots is privacy issue. As it dealt with designing of miniature form of devices, there are risks for snooping than that exist already. [https://web.archive.org/web/20200718043030/https://pharmascope.org/ijrps/article/download/2523/5031] [https://web.archive.org/web/20150911233849/http://www.nanosafe.org/home/liblocal/docs/Nanosafe%202014/Session%201/PL1%20-%20Fran%C3%A7ois%20TARDIF.pdf] NANOROBOTS: SOCIETAL CONCERNS: INDIVIDUAL FREEDOM, TRANSHUMANISM!!! http://immortality-roadmap.com/nanorisk.pdf http://jddtonline.info/index.php/jddt/article/download/891/533 There are several drawbacks with this technology like toxicity, contamination. Sometime human body generates strong immune response against them. https://web.archive.org/web/20051218111931/http://teknologiskfremsyn.dk:80/download/58.pdf “Nanotubes can be highly toxic” Fifteen percent of the rats treated with carbon nanotubes suffocated to death within twenty-four hours due to clumping of the nanotubes that obstructed the bronchial passageways. Toxicity- the issue of toxicity of nanoparticles was raised as an area in which more research is needed, particularly in terms of whether the regulatory system is sufficient. … And it's injected into people, soldiers, children, even infants… Thank you Zz for this link. Pfizer partnering with Ido Bachelet on DNA nano robots. “No, no it’s not science fiction; it’s already happening,” said Ido Bachelet to a somewhat incredulous audience member, displaying a test tube in which he says just one drop contains approximately 1,000 billiard robots. https://outraged.substack.com/p/pfizer-partnering-with-ido-bachelet?utm_source=cross-post&publication_id=1087020&post_id=143153580&utm_campaign=956088&isFreemail=true&r=1sq9d8&triedRedirect=true&utm_medium=email Follow @zeeemedia Website | X | Instagram | Rumble https://telegra.ph/Pfizer-partnering-with-Ido-Bachelet-on-DNA-nanorobots-04-03
    OUTRAGED.SUBSTACK.COM
    Pfizer partnering with Ido Bachelet on DNA nanorobots
    “No, no it’s not science fiction; it’s already happening,” said Ido Bachelet to a somewhat incredulous audience member Thanks for reading OUTRAGED’s Newsletter! Subscribe for free to receive new posts and support my work. https://www.youtube.com/watch?v=MzLTWU2EqP4
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  • The emergence of nanobot society
    OUTRAGED HUMAN













    So, they injected it into the military, police, emergency services.... Now everyone is injected with a device with a "real IP ADDRESS"....






    0:00

    Thank you very much. So one word of notice before we begin,

    0:03

    all the technologies that you are going to see here now are real.

    0:06

    And with that said

    0:07

    I'd like to first tell you the story about

    0:10

    this uh... little girl named Dana

    0:12

    she's very special for me because she's my daugther

    0:14

    and Dana was born with a leg condition requiring frequent surgeries like this one

    0:19

    uh... she had when we were in Boston

    0:21

    and um... I remember taking her to that particular surgery

    0:25

    and uh...

    0:26

    I rembember her being admitted and she was excited at first

    0:31

    and then just before they got into her the OR

    0:33

    I looked at her and she was... afraid, she was little worried and

    0:38

    who wouldn't be? Because surgeries today are complicated

    0:41

    and they're often very risky.

    0:42

    Now let's imagine a few years into the future, into the near future hopefully,

    0:47

    Dana will arrive to hospital for her ??? surgery

    0:50

    and instead of being prepped for anesthesia for the OR

    0:54

    the surgeon will just take a syringe and inside the syringe

    0:58

    there are millions of tiny robots, of tiny machines

    1:02

    that will be injected into Dana's bloodstream.

    1:04

    They will autonomously locate the place they need to be in,

    1:08

    they will excite out the injured tissue,

    1:11

    then will remove dead cells,

    1:13

    then they will...

    1:14

    stimulate and guide the regrowth of healthy cells across those tissue gaps,

    1:18

    they will release drugs that relief pain and reduce inflammation

    1:23

    and all the while Dana will be sitting on the chair

    1:25

    eating a sandwich, reading a book, might be the next

    1:28

    twilight saga book which she'll be able to read because she will be 16 by then

    1:32

    And...(giggles)

    1:33

    uh... when these robots

    1:35

    have completed their job they'll simply disintegrate

    1:39

    and disappear from her bloodstream the next day.

    1:42

    So these nanobots have been envisioned in the past 30 years

    1:45

    by people like Eric Drexler, Robert Freitas and Ray Kuzweil.

    1:49

    Today I'm going to show you that these robots exist

    1:51

    here in Israel.

    1:54

    I'll show you this syringe

    1:56

    which I've brought from my lab.

    1:58

    So this syringe has inside it a thousand billion robots.

    2:03

    So these robots are each fifty nanometers

    2:06

    long as you can see in this slide under the microscope.

    2:11

    Fifty nanometers is about 2000 times thinner than the thickness of your hair

    2:16

    OK? And... umm... These robots were born actually 3 years ago

    2:20

    in a research I did with Shawn Douglas, now a UCSF Professor.

    2:24

    But over the past year and a half

    2:25

    in my group at Bar-Ilan University

    2:27

    We've been developing and testing robots for a variety of

    2:31

    medical and therapeutic tasks.

    2:33

    We've invented ways of making them safe for use

    2:37

    and non-inmunogenic

    2:38

    and we learned how to tune their stability in our bloodstream

    2:41

    to fit either short-term or long-term

    2:44

    even days long medical procedures.

    2:47

    So to carry out medical and therapeutic procedures in our body

    2:50

    with the upmost precision,

    2:51

    we need to be able to control molecules

    2:53

    Controlling molecules is a very simple challenge

    2:56

    in modern scientific knowledge.

    2:58

    OK? Let's speak for example about the class of molecules we know as drugs

    3:02

    So despite...

    3:04

    amazing progress made in the past four decades

    3:06

    the way we think about drugs and we the way we use drugs

    3:09

    has been essentially unchanged

    3:11

    and it's similar as two hundred years ago

    3:14

    right? You hear about about big pharmaceutical companies

    3:17

    spending huge amounts of money

    3:19

    searching for better, safer drugs.

    3:22

    Attempts that usually fail.

    3:24

    OK? but,

    3:25

    searching for let's say a safer cancer drug,

    3:28

    half it is a concept that has a flaw in it.

    3:30

    Because searching for a safer cancer drug

    3:32

    is basically like searching for a gun that kills only bad people

    3:36

    We don't search for such guns,

    3:37

    what we do is training soldiers to use that gun properly

    3:42

    Of course in drugs we can't do this because it seems very hard

    3:45

    But there are things we can do with drugs

    3:47

    for example, we can put the drugs

    3:49

    in particles from which they difuse slowly.

    3:51

    We can attach a drug to a carrier

    3:54

    which takes someplace but, this is not real control.

    3:57

    When we were thinking about control we're thinking about

    4:00

    processes is the real world around us

    4:02

    and what happens when we want to control a process

    4:06

    that's beyond our capabilities as humans

    4:08

    we just connect this process to a computer

    4:10

    and let the computer control this process for us.

    4:13

    OK? So that's what we do.

    4:15

    But obviously this cannot be done with drugs because

    4:19

    the drugs are so much smaller than the computers as we know them

    4:23

    The computer is in fact so much bigger

    4:25

    it's about a hundred million times bigger that any drug molecule.

    4:28

    Our nanobots which were in the syringe

    4:31

    solve this problem because they are in fact

    4:34

    computers the size of molecules.

    4:36

    and they can interact with molecules

    4:38

    and they can control molecules directly,

    4:40

    so just think about all those

    4:42

    drugs that have been withdrawn from the market

    4:45

    for excessive toxicity

    4:46

    right?

    4:47

    It doesn't mean that they are not effective,

    4:49

    they were amazingly effective,

    4:51

    they were just guns shooting in all directions

    4:53

    but in the hands of a well-trained soldier

    4:56

    or a well-programed nanobot

    4:58

    using all the existing drugs

    5:01

    we could hypothetically kill almost any disease.

    5:05

    So we might not need even new drugs.

    5:07

    We have amazing drugs already,

    5:09

    we just don't know how to control them, this is the problem

    5:11

    and our nanobots...

    5:13

    hopefully solve this problem and I'll show you how.

    5:15

    So there is an interesting question "how do we build

    5:19

    a robot or a machine the size of a molecule?"

    5:21

    so the simple answer would be: we can use molecules

    5:25

    to build this machine.

    5:26

    So we're using molecules, but we're not using just any molecule.

    5:30

    We're using the perfect, most beautiful molecule on earth, at least in my opinion,

    5:34

    which is DNA.

    5:36

    And in fact every part of the robot,

    5:38

    every part of out nanorobots:

    5:40

    Moving parts, axis, locks, chasis, software,

    5:44

    everything is made from DNA molecules.

    5:46

    And the techonology that enables us to do this

    5:49

    originated thirty years ago when the pioneering works of Nadrian Seeman,

    5:52

    culminating 7 years ago in the works of Paul Rothemund from Caltech,

    5:56

    which was also featured in TED,

    5:58

    and it's called DNA origami.

    5:59

    Now in DNA origami we do not use a piece of paper,

    6:02

    we use a single long strand of DNA

    6:05

    and we fold it into virtually any shape we want.

    6:08

    For example these shapes, so these are actual microscopic images

    6:12

    of shapes the size of molecules that were folded from DNA.

    6:16

    so the smiley you see here in the center of the screen for example

    6:19

    are a hundred nanometers in size

    6:21

    and we make billions of them in few... in a single reaction.

    6:24

    Now since 2006 several researchers, really talented ones,

    6:28

    have been expanding the limits of the technically feasible in DNA origami

    6:32

    and now we have an astonishig array of shapes and objects which we can build

    6:35

    using this technique.

    6:36

    And these researchers also gave us computer-aided design tools

    6:41

    that enable everyone

    6:43

    very very simply to design objects from DNA

    6:46

    So these CAD tools amazingly

    6:49

    enable us to focus o n the shape we want

    6:52

    forgetting the fact that these structures are in fact assemblies of molecules.

    6:57

    so this is for example a shape the computer can actually turn into DNA molecules.

    7:02

    and the output of this CAD software, as you can see,

    7:05

    is a spreadsheet with fragments of DNA

    7:08

    which you can attach to a message and send to a company

    7:11

    one of two dozen companies that make DNA by order and you'll get those DNA's

    7:16

    several days later to your doorstep

    7:18

    and when you get them all you need to do is just mix them in a certain way

    7:23

    and these molecular bricks will self-assemble into

    7:26

    millions of copies of the very structure that you designed using that CAD software

    7:30

    which is free by the way, you can download it for free.

    7:34

    So, let's have a look at our nanorobots.

    7:38

    So, this is how the nanorobots look like, it's built from DNA as you can see

    7:42

    And it resembles a clam shell in which you can put cargo

    7:45

    You can load anything you want starting from small molecules, drugs,

    7:49

    proteines, enzymes, even nano-particles. Virtually any function

    7:54

    that molecules can carry out, can be loaded into the nanobot

    7:57

    and the nanobot can be programmed to turn on and off

    8:01

    these functions at certain places and at certain times

    8:05

    this is how we control those molecules

    8:07

    and so this particular nanorobot is in an off state, it's closed,it's securely

    8:12

    sequestres anything, any payload you put inside

    8:16

    so it's not accessible to the outside of the robot,

    8:18

    for example, it cannot engage target cells or target tissues

    8:22

    But we can program the nanobot to switch to an on state

    8:26

    based on molecular cues it finds from the environment

    8:30

    so programming the robot is virtually like assemblying a combination lock

    8:34

    using disks that recognize digits,

    8:37

    but of course instead of digits we are assemblying disks that recognize molecules.

    8:42

    So these robots can turn from off to on and when they do

    8:47

    any cargo inside is now accessible,

    8:49

    it can attack target cells or target tissues

    8:52

    or other robots which you'll see later on.

    8:54

    And so we have robots that can switch from off to on

    8:58

    and off again, we can control their kinetics of transition.

    9:02

    We can control which payload becomes accessible at which time point

    9:05

    Let's see an example how these robots for example control a cancer drug

    9:12

    So what you can do is you can take nanobots,

    9:14

    you can put the nastiest cancer drug you may find

    9:17

    into the robots, even a cancer drug

    9:19

    that's been withdrawn because of excessive toxicity

    9:23

    Ok? When the robot is locked

    9:25

    and you put them in your mixture of healthy cells and tumor cells

    9:29

    nothing happens, no cell is affected, because the robot

    9:32

    safely sequesters those drugs inside.

    9:35

    When we unlock the robots

    9:37

    all cells die because the cargo inside the [robot] attacks anything on sight.

    9:42

    So all cells eventually die. In this case this is a fluorescent molecule

    9:46

    to help us see better the output.

    9:48

    But when we program the nanobots to search for tumor cells particulary,

    9:53

    so only the tumor cells

    9:56

    uh... only the tumor cells die because

    9:59

    the robot doesn't care about the bystander cells, about the healthy cells.

    10:04

    So it does not harm them at all.

    10:06

    And we have nanorobots in our lab that can target

    10:09

    about ten types of cancer already and other cell targets

    10:12

    and my team keeps expanding this range monthly.

    10:17

    So these are nanorobots and to another topic

    10:22

    organisms in nature, like bacteria and animals

    10:26

    have learned very early in evolution that working in a coordinated group

    10:29

    conveys advantage

    10:31

    and capabilities beyond those of the individual

    10:34

    and since we are interested in

    10:36

    very complex medical procedures, very complex therapeutic settings,

    10:40

    we're wondering what we could do

    10:42

    if we could engineer artificial swarm behaviors

    10:46

    into our nanobots as well so we could have extraordinarily large groups of nanobots

    10:51

    Can we teach them to behave like animals, like insects

    10:55

    and how do you do this? So the question is interesting.

    10:58

    So you could think one way to do it would be

    11:01

    to look at a natural swarm like this one of fish

    11:04

    and simulate the dynamics of the entire swarm and then try to write the codes

    11:09

    in molecules of course

    11:10

    that mimic the same behaviour

    11:12

    this is virtually impossible, it's impractical

    11:15

    what we do is we take the single fish or a single nanobot in our case

    11:20

    and you design a very basic set of interaction rules

    11:23

    and then you take this one, this nanobot, you make a billion copies of it

    11:27

    and you let the behaviours emerge from that group

    11:31

    let me show you some examples of the things we can already do

    11:35

    for example, just as ants

    11:38

    can shake hands and form physical bridges between two trees

    11:42

    or two remote parts of the same tree,

    11:44

    we already have nanorobots that can reach out for each other

    11:47

    touch each other and shake hands in such a way

    11:49

    they form physical bridges.

    11:51

    Then you can imagine these robots

    11:53

    extending, making bridges extending from one-half

    11:56

    to the other half of an injured tissue,

    11:58

    an injured spinal cord for example

    12:00

    or an injured leg in the case of Dana, my daughter

    12:03

    and once they stretched over that tissue gap

    12:06

    they can apply growth factors, as payloads, and those growth factors

    12:10

    stimulate the re-growth and guide re-growth of cells across the gap.

    12:14

    So we already did that and...

    12:17

    we have robots that can cross regulate each other just like animals do in groups

    12:21

    and this is amazing because as you can see here

    12:24

    you can have two types of robots, Type-A and Type-B

    12:28

    they can cross regulate each other, such that "A" is active

    12:32

    while "B" is not and viceversa.

    12:34

    So this is good for combination therapy

    12:36

    with combination therapy we take multiple drugs, right?

    12:39

    and sometimes two or more of these drugs

    12:41

    can collide and generate side effects,

    12:43

    but here you can put one drug here, one drug here

    12:46

    and the robots will time the activities so that

    12:49

    one drug is active, the other is not and then they can switch

    12:52

    and so two or more drugs can operate at the same time without actually colliding.

    12:57

    Another example that we did is the quorum sensing.

    13:00

    Now quorum sensing is great, it's a bacterial inspired behaviour

    13:05

    It means nanorobots can count themselves

    13:08

    and they can switch to "on" only when reaching a certain population size

    13:12

    this is a mechanism invented by bacteria in evolution

    13:15

    and they regulate amazing behaviours based on just their population density

    13:18

    for example, bioluminescence, this one of the well-studied examples

    13:23

    so our robots can count themselves and switch to on

    13:26

    only when reaching a certain population size which we can program.

    13:29

    This is great because this is a mechanism of programming a drug

    13:33

    to become active only when reaching a certain dose

    13:36

    around the target, regardless of its inherent dose-response curve.

    13:41

    One last I'm gonna show to you is computing,

    13:43

    so this nanobots can do computing.

    13:45

    How's so? If you think about your computer at home,

    13:48

    the processor of the computer is in fact a gigantic swarm of transistors

    13:53

    In an i7 core for example you have 800 million transistors approximately

    13:58

    and they're set to interact in certain ways to produce logic gates

    14:02

    and these logic gates are set to interact to produce computations

    14:05

    so we can also produce computation by setting interactions between nanorobots

    14:10

    to emulate logic gates like you see here

    14:13

    and they form chains and they form pairs

    14:15

    and my team in Bar-Ilan University [has] already developed several architectures

    14:19

    of computing based on interacting nanorobots

    14:22

    and to prototype these

    14:24

    we are using animals, very interesting animals

    14:27

    these are cockroaches,

    14:28

    they are very easy to work with, the're very sweet,

    14:30

    they're actually from South America

    14:32

    and I'm a Soutamerican myself so I fell kinda related

    14:35

    [Laughter]

    14:36

    And hum... so what we do is we inject those robots into the cockroach

    14:40

    and to do that we of course had to put the cockroaches to sleep

    14:43

    have you ever tried putting cockroach to sleep?

    14:46

    We put in the freezer for seven minutes

    14:48

    in they fall asleep

    14:49

    and we can inject these nanorobots inside

    14:52

    and after 20 minutes they start running around, they're happy.

    14:55

    And those robots

    14:57

    while they're doing this, the robots read molecules

    14:59

    from the cockroaches' inputs

    15:01

    and they write their outputs in the form of drugs

    15:04

    activated on those cockroaches' cells

    15:06

    so we can do, we can see that and we already have, as you can see,

    15:09

    architectures of interecting nanorobots that can emulate logical operators

    15:14

    and you can use these as modular parts to build any type universal computer you want

    15:19

    [....]

    15:21

    that can control multiple drugs simultaneously

    15:25

    as a result of biocomputing, this is real universal computing in a living animal.

    15:30

    Now we already have systems that have [the] computing capacity

    15:33

    of an 8-bit computer like Commodore 64.

    15:36

    To make sure we don't lose control over the nanobots after they're injected

    15:40

    my team [has] developed nanorobots that carry antennae

    15:44

    these antennae are made from metal nano-particles.

    15:47

    Now, the antennae enable the nanobots

    15:49

    to respond to externally applied electromagnetic fields

    15:52

    so these nanorobots, this version of nanobots

    15:55

    can actually be activated with a press of a button on a joystick

    15:58

    or for example using a controller

    16:01

    such as the Xbox or Wii if you ever had the chance of playing with those

    16:05

    and you can see one of my students in the lab configuring an Xbox app

    16:09

    to control nanobots.

    16:11

    For example you can imagine nanorobots being injected

    16:14

    to Dana, my daughter for example,

    16:16

    and the doctor can guide those robots

    16:19

    into the site, into the leg and just activate them with a hand gesture.

    16:23

    And you can already see an example where we actually took

    16:26

    cancer cells and loaded robots with cancer drugs

    16:29

    and activated the drug by a hand gesture.

    16:31

    and we can actually kill cancer cells just by doing this,

    16:34

    as you can see here.

    16:36

    And the interesting thing is that

    16:39

    because the controller like the Xbox is connected to the internet,

    16:44

    the controller actually links those nanobots to the network

    16:47

    so they have an actual IP address

    16:49

    and they can be accessed from a remote device sitting on the same network,

    16:53

    for example, my doctor's smartphone

    16:55

    So, OK?, just like controlling a controller, this can be done.

    17:00

    The last thing I'm gonna show is, if you look at our body

    17:04

    you'll see that every cell type, every organ, every tissue

    17:08

    has their own unique molecular signature

    17:11

    and this is equivalent to a physical IP address made of molecules

    17:15

    and if you know these molecules

    17:17

    you can use those nanobots to browse the Organism Wide Web, as we call it

    17:21

    and you can program them to look for bits,

    17:23

    this could be for example signally molecules between cells,

    17:26

    and either fetch them for diagnostics

    17:28

    or carry them to different addresses.

    17:30

    And we already have robots that can hijack

    17:33

    signals between cells

    17:34

    and manipulate an entire network of communications between cells

    17:37

    and this is great for controlling very complex diseases in which many cell types

    17:43

    communicate and orchestrate to perpetuate a disease.

    17:46

    So before I finish I'd just like to thank

    17:50

    my amazing team at Bar-Ilan University

    17:52

    and all the colleagues that took part in this extraordinary journey,

    17:55

    starting from the George Chuch's Lab in Harvard

    17:57

    and ending today in Bar-Ilan University in the new Faculty of Life Sciences,

    18:01

    and I really hope that

    18:03

    anywhere between a year and five years from now

    18:06

    we'll be able to use this in humans

    18:08

    and finally witness the emergence of nanobot society.

    18:11

    Thank you very much.


    https://www.digitaltrends.com/cool-tech/nanobots-live-cockroach-thought-control/





    https://www.digitaltrends.com/cool-tech/nanobots-live-cockroach-thought-control/

    https://www.timesofisrael.com/israeli-scientists-use-nanobots-and-thoughts-to-administer-drugs/


    Israeli scientists say they have come up with a way for brain power to control when drugs are released into the body, by using tiny robots made out of DNA to deliver the medication internally.

    Researchers at the Interdisciplinary Center in Herzliya and Bar-Ilan University in Ramat Gan have built the nanobots to which medication is attached and then are injected into the body. The nanobots have a “gate” that opens or closes — thereby controlling drug release — depending on brain activity.

    In order to achieve this, the New Scientist magazine said, the researchers developed a computer algorithm that could tell whether a person’s brain was resting or carrying out some form of mental activity, such as math problems. A fluorescent-tinted drug was then added to the nanobots, which were injected into a cockroach placed inside an electromagnetic coil.

    Israeli scientists say they have come up with a way for brain power to control when drugs are released into the body, by using tiny robots made out of DNA to deliver the medication internally.

    This coil was then connected to an EEG cap worn by a person asked to perform mental calculations. The computer recognized increased brain activity by the cap wearer, which triggered the “gate” on the nanobots inside the cockroach, releasing the fluorescent drug that was visible as it spread through the insect’s body.

    The idea is to use the delivery system for people with mental health issues, which are sometimes triggered before sufferers are aware they need medication.

    By monitoring brain activity, the nanobots could deliver the required preventative drugs automatically,

    for example before a violent episode of schizophrenia.

    https://www.newscientist.com/article/2102463-mind-controlled-nanobots-could-release-drugs-inside-your-brain/


    The group has built nanorobots out of DNA, forming shell-like shapes that drugs can be tethered to. The bots also have a gate, which has a lock made from iron oxide nanoparticles. The lock opens when heated using electromagnetic energy, exposing the drug to the environment. Because the drug remains tethered to the DNA parcel, a body’s exposure to the drug can be controlled by closing and opening the gate.

    By examining when fluorescence appeared inside different cockroaches, the team confirmed that this worked.

    The idea would be to automatically trigger the release of a drug when it is needed. For example, some people don’t always know when they need medication – before a violent episode of schizophrenia, for instance. If an EEG could detect it was coming, it could stimulate the release of a preventative drug.

    https://www.youtube.com/watch?v=BxJPceCV51g Nanobots Successfully Used on Living Animal for the First Time - IGN News

    0:38

    to treat human ailments or weaponized

    0:40

    hijacked by a snake themed terrorist

    0:42

    organization and then used to destroy

    0:43

    Paris but I suppose it's only a matter

    0:45

    of time


    “This syringe has inside it a thousand billion robots.”

    https://outraged.substack.com/p/the-emergence-of-nanobot-society?utm_source=cross-post&publication_id=1087020&post_id=143145132&utm_campaign=956088&isFreemail=true&r=1sq9d8&triedRedirect=true&utm_medium=email

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    https://donshafi911.blogspot.com/2024/04/the-emergence-of-nanobot-society.html
    The emergence of nanobot society OUTRAGED HUMAN So, they injected it into the military, police, emergency services.... Now everyone is injected with a device with a "real IP ADDRESS".... 0:00 Thank you very much. So one word of notice before we begin, 0:03 all the technologies that you are going to see here now are real. 0:06 And with that said 0:07 I'd like to first tell you the story about 0:10 this uh... little girl named Dana 0:12 she's very special for me because she's my daugther 0:14 and Dana was born with a leg condition requiring frequent surgeries like this one 0:19 uh... she had when we were in Boston 0:21 and um... I remember taking her to that particular surgery 0:25 and uh... 0:26 I rembember her being admitted and she was excited at first 0:31 and then just before they got into her the OR 0:33 I looked at her and she was... afraid, she was little worried and 0:38 who wouldn't be? Because surgeries today are complicated 0:41 and they're often very risky. 0:42 Now let's imagine a few years into the future, into the near future hopefully, 0:47 Dana will arrive to hospital for her ??? surgery 0:50 and instead of being prepped for anesthesia for the OR 0:54 the surgeon will just take a syringe and inside the syringe 0:58 there are millions of tiny robots, of tiny machines 1:02 that will be injected into Dana's bloodstream. 1:04 They will autonomously locate the place they need to be in, 1:08 they will excite out the injured tissue, 1:11 then will remove dead cells, 1:13 then they will... 1:14 stimulate and guide the regrowth of healthy cells across those tissue gaps, 1:18 they will release drugs that relief pain and reduce inflammation 1:23 and all the while Dana will be sitting on the chair 1:25 eating a sandwich, reading a book, might be the next 1:28 twilight saga book which she'll be able to read because she will be 16 by then 1:32 And...(giggles) 1:33 uh... when these robots 1:35 have completed their job they'll simply disintegrate 1:39 and disappear from her bloodstream the next day. 1:42 So these nanobots have been envisioned in the past 30 years 1:45 by people like Eric Drexler, Robert Freitas and Ray Kuzweil. 1:49 Today I'm going to show you that these robots exist 1:51 here in Israel. 1:54 I'll show you this syringe 1:56 which I've brought from my lab. 1:58 So this syringe has inside it a thousand billion robots. 2:03 So these robots are each fifty nanometers 2:06 long as you can see in this slide under the microscope. 2:11 Fifty nanometers is about 2000 times thinner than the thickness of your hair 2:16 OK? And... umm... These robots were born actually 3 years ago 2:20 in a research I did with Shawn Douglas, now a UCSF Professor. 2:24 But over the past year and a half 2:25 in my group at Bar-Ilan University 2:27 We've been developing and testing robots for a variety of 2:31 medical and therapeutic tasks. 2:33 We've invented ways of making them safe for use 2:37 and non-inmunogenic 2:38 and we learned how to tune their stability in our bloodstream 2:41 to fit either short-term or long-term 2:44 even days long medical procedures. 2:47 So to carry out medical and therapeutic procedures in our body 2:50 with the upmost precision, 2:51 we need to be able to control molecules 2:53 Controlling molecules is a very simple challenge 2:56 in modern scientific knowledge. 2:58 OK? Let's speak for example about the class of molecules we know as drugs 3:02 So despite... 3:04 amazing progress made in the past four decades 3:06 the way we think about drugs and we the way we use drugs 3:09 has been essentially unchanged 3:11 and it's similar as two hundred years ago 3:14 right? You hear about about big pharmaceutical companies 3:17 spending huge amounts of money 3:19 searching for better, safer drugs. 3:22 Attempts that usually fail. 3:24 OK? but, 3:25 searching for let's say a safer cancer drug, 3:28 half it is a concept that has a flaw in it. 3:30 Because searching for a safer cancer drug 3:32 is basically like searching for a gun that kills only bad people 3:36 We don't search for such guns, 3:37 what we do is training soldiers to use that gun properly 3:42 Of course in drugs we can't do this because it seems very hard 3:45 But there are things we can do with drugs 3:47 for example, we can put the drugs 3:49 in particles from which they difuse slowly. 3:51 We can attach a drug to a carrier 3:54 which takes someplace but, this is not real control. 3:57 When we were thinking about control we're thinking about 4:00 processes is the real world around us 4:02 and what happens when we want to control a process 4:06 that's beyond our capabilities as humans 4:08 we just connect this process to a computer 4:10 and let the computer control this process for us. 4:13 OK? So that's what we do. 4:15 But obviously this cannot be done with drugs because 4:19 the drugs are so much smaller than the computers as we know them 4:23 The computer is in fact so much bigger 4:25 it's about a hundred million times bigger that any drug molecule. 4:28 Our nanobots which were in the syringe 4:31 solve this problem because they are in fact 4:34 computers the size of molecules. 4:36 and they can interact with molecules 4:38 and they can control molecules directly, 4:40 so just think about all those 4:42 drugs that have been withdrawn from the market 4:45 for excessive toxicity 4:46 right? 4:47 It doesn't mean that they are not effective, 4:49 they were amazingly effective, 4:51 they were just guns shooting in all directions 4:53 but in the hands of a well-trained soldier 4:56 or a well-programed nanobot 4:58 using all the existing drugs 5:01 we could hypothetically kill almost any disease. 5:05 So we might not need even new drugs. 5:07 We have amazing drugs already, 5:09 we just don't know how to control them, this is the problem 5:11 and our nanobots... 5:13 hopefully solve this problem and I'll show you how. 5:15 So there is an interesting question "how do we build 5:19 a robot or a machine the size of a molecule?" 5:21 so the simple answer would be: we can use molecules 5:25 to build this machine. 5:26 So we're using molecules, but we're not using just any molecule. 5:30 We're using the perfect, most beautiful molecule on earth, at least in my opinion, 5:34 which is DNA. 5:36 And in fact every part of the robot, 5:38 every part of out nanorobots: 5:40 Moving parts, axis, locks, chasis, software, 5:44 everything is made from DNA molecules. 5:46 And the techonology that enables us to do this 5:49 originated thirty years ago when the pioneering works of Nadrian Seeman, 5:52 culminating 7 years ago in the works of Paul Rothemund from Caltech, 5:56 which was also featured in TED, 5:58 and it's called DNA origami. 5:59 Now in DNA origami we do not use a piece of paper, 6:02 we use a single long strand of DNA 6:05 and we fold it into virtually any shape we want. 6:08 For example these shapes, so these are actual microscopic images 6:12 of shapes the size of molecules that were folded from DNA. 6:16 so the smiley you see here in the center of the screen for example 6:19 are a hundred nanometers in size 6:21 and we make billions of them in few... in a single reaction. 6:24 Now since 2006 several researchers, really talented ones, 6:28 have been expanding the limits of the technically feasible in DNA origami 6:32 and now we have an astonishig array of shapes and objects which we can build 6:35 using this technique. 6:36 And these researchers also gave us computer-aided design tools 6:41 that enable everyone 6:43 very very simply to design objects from DNA 6:46 So these CAD tools amazingly 6:49 enable us to focus o n the shape we want 6:52 forgetting the fact that these structures are in fact assemblies of molecules. 6:57 so this is for example a shape the computer can actually turn into DNA molecules. 7:02 and the output of this CAD software, as you can see, 7:05 is a spreadsheet with fragments of DNA 7:08 which you can attach to a message and send to a company 7:11 one of two dozen companies that make DNA by order and you'll get those DNA's 7:16 several days later to your doorstep 7:18 and when you get them all you need to do is just mix them in a certain way 7:23 and these molecular bricks will self-assemble into 7:26 millions of copies of the very structure that you designed using that CAD software 7:30 which is free by the way, you can download it for free. 7:34 So, let's have a look at our nanorobots. 7:38 So, this is how the nanorobots look like, it's built from DNA as you can see 7:42 And it resembles a clam shell in which you can put cargo 7:45 You can load anything you want starting from small molecules, drugs, 7:49 proteines, enzymes, even nano-particles. Virtually any function 7:54 that molecules can carry out, can be loaded into the nanobot 7:57 and the nanobot can be programmed to turn on and off 8:01 these functions at certain places and at certain times 8:05 this is how we control those molecules 8:07 and so this particular nanorobot is in an off state, it's closed,it's securely 8:12 sequestres anything, any payload you put inside 8:16 so it's not accessible to the outside of the robot, 8:18 for example, it cannot engage target cells or target tissues 8:22 But we can program the nanobot to switch to an on state 8:26 based on molecular cues it finds from the environment 8:30 so programming the robot is virtually like assemblying a combination lock 8:34 using disks that recognize digits, 8:37 but of course instead of digits we are assemblying disks that recognize molecules. 8:42 So these robots can turn from off to on and when they do 8:47 any cargo inside is now accessible, 8:49 it can attack target cells or target tissues 8:52 or other robots which you'll see later on. 8:54 And so we have robots that can switch from off to on 8:58 and off again, we can control their kinetics of transition. 9:02 We can control which payload becomes accessible at which time point 9:05 Let's see an example how these robots for example control a cancer drug 9:12 So what you can do is you can take nanobots, 9:14 you can put the nastiest cancer drug you may find 9:17 into the robots, even a cancer drug 9:19 that's been withdrawn because of excessive toxicity 9:23 Ok? When the robot is locked 9:25 and you put them in your mixture of healthy cells and tumor cells 9:29 nothing happens, no cell is affected, because the robot 9:32 safely sequesters those drugs inside. 9:35 When we unlock the robots 9:37 all cells die because the cargo inside the [robot] attacks anything on sight. 9:42 So all cells eventually die. In this case this is a fluorescent molecule 9:46 to help us see better the output. 9:48 But when we program the nanobots to search for tumor cells particulary, 9:53 so only the tumor cells 9:56 uh... only the tumor cells die because 9:59 the robot doesn't care about the bystander cells, about the healthy cells. 10:04 So it does not harm them at all. 10:06 And we have nanorobots in our lab that can target 10:09 about ten types of cancer already and other cell targets 10:12 and my team keeps expanding this range monthly. 10:17 So these are nanorobots and to another topic 10:22 organisms in nature, like bacteria and animals 10:26 have learned very early in evolution that working in a coordinated group 10:29 conveys advantage 10:31 and capabilities beyond those of the individual 10:34 and since we are interested in 10:36 very complex medical procedures, very complex therapeutic settings, 10:40 we're wondering what we could do 10:42 if we could engineer artificial swarm behaviors 10:46 into our nanobots as well so we could have extraordinarily large groups of nanobots 10:51 Can we teach them to behave like animals, like insects 10:55 and how do you do this? So the question is interesting. 10:58 So you could think one way to do it would be 11:01 to look at a natural swarm like this one of fish 11:04 and simulate the dynamics of the entire swarm and then try to write the codes 11:09 in molecules of course 11:10 that mimic the same behaviour 11:12 this is virtually impossible, it's impractical 11:15 what we do is we take the single fish or a single nanobot in our case 11:20 and you design a very basic set of interaction rules 11:23 and then you take this one, this nanobot, you make a billion copies of it 11:27 and you let the behaviours emerge from that group 11:31 let me show you some examples of the things we can already do 11:35 for example, just as ants 11:38 can shake hands and form physical bridges between two trees 11:42 or two remote parts of the same tree, 11:44 we already have nanorobots that can reach out for each other 11:47 touch each other and shake hands in such a way 11:49 they form physical bridges. 11:51 Then you can imagine these robots 11:53 extending, making bridges extending from one-half 11:56 to the other half of an injured tissue, 11:58 an injured spinal cord for example 12:00 or an injured leg in the case of Dana, my daughter 12:03 and once they stretched over that tissue gap 12:06 they can apply growth factors, as payloads, and those growth factors 12:10 stimulate the re-growth and guide re-growth of cells across the gap. 12:14 So we already did that and... 12:17 we have robots that can cross regulate each other just like animals do in groups 12:21 and this is amazing because as you can see here 12:24 you can have two types of robots, Type-A and Type-B 12:28 they can cross regulate each other, such that "A" is active 12:32 while "B" is not and viceversa. 12:34 So this is good for combination therapy 12:36 with combination therapy we take multiple drugs, right? 12:39 and sometimes two or more of these drugs 12:41 can collide and generate side effects, 12:43 but here you can put one drug here, one drug here 12:46 and the robots will time the activities so that 12:49 one drug is active, the other is not and then they can switch 12:52 and so two or more drugs can operate at the same time without actually colliding. 12:57 Another example that we did is the quorum sensing. 13:00 Now quorum sensing is great, it's a bacterial inspired behaviour 13:05 It means nanorobots can count themselves 13:08 and they can switch to "on" only when reaching a certain population size 13:12 this is a mechanism invented by bacteria in evolution 13:15 and they regulate amazing behaviours based on just their population density 13:18 for example, bioluminescence, this one of the well-studied examples 13:23 so our robots can count themselves and switch to on 13:26 only when reaching a certain population size which we can program. 13:29 This is great because this is a mechanism of programming a drug 13:33 to become active only when reaching a certain dose 13:36 around the target, regardless of its inherent dose-response curve. 13:41 One last I'm gonna show to you is computing, 13:43 so this nanobots can do computing. 13:45 How's so? If you think about your computer at home, 13:48 the processor of the computer is in fact a gigantic swarm of transistors 13:53 In an i7 core for example you have 800 million transistors approximately 13:58 and they're set to interact in certain ways to produce logic gates 14:02 and these logic gates are set to interact to produce computations 14:05 so we can also produce computation by setting interactions between nanorobots 14:10 to emulate logic gates like you see here 14:13 and they form chains and they form pairs 14:15 and my team in Bar-Ilan University [has] already developed several architectures 14:19 of computing based on interacting nanorobots 14:22 and to prototype these 14:24 we are using animals, very interesting animals 14:27 these are cockroaches, 14:28 they are very easy to work with, the're very sweet, 14:30 they're actually from South America 14:32 and I'm a Soutamerican myself so I fell kinda related 14:35 [Laughter] 14:36 And hum... so what we do is we inject those robots into the cockroach 14:40 and to do that we of course had to put the cockroaches to sleep 14:43 have you ever tried putting cockroach to sleep? 14:46 We put in the freezer for seven minutes 14:48 in they fall asleep 14:49 and we can inject these nanorobots inside 14:52 and after 20 minutes they start running around, they're happy. 14:55 And those robots 14:57 while they're doing this, the robots read molecules 14:59 from the cockroaches' inputs 15:01 and they write their outputs in the form of drugs 15:04 activated on those cockroaches' cells 15:06 so we can do, we can see that and we already have, as you can see, 15:09 architectures of interecting nanorobots that can emulate logical operators 15:14 and you can use these as modular parts to build any type universal computer you want 15:19 [....] 15:21 that can control multiple drugs simultaneously 15:25 as a result of biocomputing, this is real universal computing in a living animal. 15:30 Now we already have systems that have [the] computing capacity 15:33 of an 8-bit computer like Commodore 64. 15:36 To make sure we don't lose control over the nanobots after they're injected 15:40 my team [has] developed nanorobots that carry antennae 15:44 these antennae are made from metal nano-particles. 15:47 Now, the antennae enable the nanobots 15:49 to respond to externally applied electromagnetic fields 15:52 so these nanorobots, this version of nanobots 15:55 can actually be activated with a press of a button on a joystick 15:58 or for example using a controller 16:01 such as the Xbox or Wii if you ever had the chance of playing with those 16:05 and you can see one of my students in the lab configuring an Xbox app 16:09 to control nanobots. 16:11 For example you can imagine nanorobots being injected 16:14 to Dana, my daughter for example, 16:16 and the doctor can guide those robots 16:19 into the site, into the leg and just activate them with a hand gesture. 16:23 And you can already see an example where we actually took 16:26 cancer cells and loaded robots with cancer drugs 16:29 and activated the drug by a hand gesture. 16:31 and we can actually kill cancer cells just by doing this, 16:34 as you can see here. 16:36 And the interesting thing is that 16:39 because the controller like the Xbox is connected to the internet, 16:44 the controller actually links those nanobots to the network 16:47 so they have an actual IP address 16:49 and they can be accessed from a remote device sitting on the same network, 16:53 for example, my doctor's smartphone 16:55 So, OK?, just like controlling a controller, this can be done. 17:00 The last thing I'm gonna show is, if you look at our body 17:04 you'll see that every cell type, every organ, every tissue 17:08 has their own unique molecular signature 17:11 and this is equivalent to a physical IP address made of molecules 17:15 and if you know these molecules 17:17 you can use those nanobots to browse the Organism Wide Web, as we call it 17:21 and you can program them to look for bits, 17:23 this could be for example signally molecules between cells, 17:26 and either fetch them for diagnostics 17:28 or carry them to different addresses. 17:30 And we already have robots that can hijack 17:33 signals between cells 17:34 and manipulate an entire network of communications between cells 17:37 and this is great for controlling very complex diseases in which many cell types 17:43 communicate and orchestrate to perpetuate a disease. 17:46 So before I finish I'd just like to thank 17:50 my amazing team at Bar-Ilan University 17:52 and all the colleagues that took part in this extraordinary journey, 17:55 starting from the George Chuch's Lab in Harvard 17:57 and ending today in Bar-Ilan University in the new Faculty of Life Sciences, 18:01 and I really hope that 18:03 anywhere between a year and five years from now 18:06 we'll be able to use this in humans 18:08 and finally witness the emergence of nanobot society. 18:11 Thank you very much. https://www.digitaltrends.com/cool-tech/nanobots-live-cockroach-thought-control/ https://www.digitaltrends.com/cool-tech/nanobots-live-cockroach-thought-control/ https://www.timesofisrael.com/israeli-scientists-use-nanobots-and-thoughts-to-administer-drugs/ Israeli scientists say they have come up with a way for brain power to control when drugs are released into the body, by using tiny robots made out of DNA to deliver the medication internally. Researchers at the Interdisciplinary Center in Herzliya and Bar-Ilan University in Ramat Gan have built the nanobots to which medication is attached and then are injected into the body. The nanobots have a “gate” that opens or closes — thereby controlling drug release — depending on brain activity. In order to achieve this, the New Scientist magazine said, the researchers developed a computer algorithm that could tell whether a person’s brain was resting or carrying out some form of mental activity, such as math problems. A fluorescent-tinted drug was then added to the nanobots, which were injected into a cockroach placed inside an electromagnetic coil. Israeli scientists say they have come up with a way for brain power to control when drugs are released into the body, by using tiny robots made out of DNA to deliver the medication internally. This coil was then connected to an EEG cap worn by a person asked to perform mental calculations. The computer recognized increased brain activity by the cap wearer, which triggered the “gate” on the nanobots inside the cockroach, releasing the fluorescent drug that was visible as it spread through the insect’s body. The idea is to use the delivery system for people with mental health issues, which are sometimes triggered before sufferers are aware they need medication. By monitoring brain activity, the nanobots could deliver the required preventative drugs automatically, for example before a violent episode of schizophrenia. https://www.newscientist.com/article/2102463-mind-controlled-nanobots-could-release-drugs-inside-your-brain/ The group has built nanorobots out of DNA, forming shell-like shapes that drugs can be tethered to. The bots also have a gate, which has a lock made from iron oxide nanoparticles. The lock opens when heated using electromagnetic energy, exposing the drug to the environment. Because the drug remains tethered to the DNA parcel, a body’s exposure to the drug can be controlled by closing and opening the gate. By examining when fluorescence appeared inside different cockroaches, the team confirmed that this worked. The idea would be to automatically trigger the release of a drug when it is needed. For example, some people don’t always know when they need medication – before a violent episode of schizophrenia, for instance. If an EEG could detect it was coming, it could stimulate the release of a preventative drug. https://www.youtube.com/watch?v=BxJPceCV51g Nanobots Successfully Used on Living Animal for the First Time - IGN News 0:38 to treat human ailments or weaponized 0:40 hijacked by a snake themed terrorist 0:42 organization and then used to destroy 0:43 Paris but I suppose it's only a matter 0:45 of time “This syringe has inside it a thousand billion robots.” https://outraged.substack.com/p/the-emergence-of-nanobot-society?utm_source=cross-post&publication_id=1087020&post_id=143145132&utm_campaign=956088&isFreemail=true&r=1sq9d8&triedRedirect=true&utm_medium=email Follow @zeeemedia Website | X | Instagram | Rumble https://donshafi911.blogspot.com/2024/04/the-emergence-of-nanobot-society.html
    OUTRAGED.SUBSTACK.COM
    The emergence of nanobot society
    So, they injected it into the military, police, emergency services.... Now everyone is injected with a device with a "real IP ADDRESS".... Thanks for reading OUTRAGED’s Newsletter! Subscribe for free to receive new posts and support my work. 0:00 Thank you very much. So one word of notice before we begin,
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  • The power of silence
    Validation. Empty space. Selkie, creator of Forest of the Fallen, flew up from Tasmania to tell the ASF Conference how it has grown to 131 powerful displays nation-wide

    Alison Bevege
    The stories sway in the wind, each one a person killed or injured by the covid gene-vaccines.

    The Forest of the Fallen is the exact opposite of a protest.

    When Tasmanian mother-of-three Selkie started the Forest in 2021, she didn’t anticipate the surprising power of acknowledgement.


    Loraine from Adelaide with Selkie (right) who started the displays, at the ASF conference in November. Pic: Alison Bevege
    “A co-ordinator from Tin Can Bay in Queensland is a narrative therapist and we spoke of the healing impacts the Forest was having on so many lives,” she said.

    For people who were injured, or lost their jobs, or lost a loved one, or suffered division in their families, this simple acknowledgement can bring a tremendous sense of relief just by recognising the suffering.


    “Having a sense of their story being validated by a tactile, optical display - this alone is so healing for them as many have had no recognition at all,” she said.

    “Some are completely left alone.”

    It’s a silent vigil open to any passer-by to wander in and quietly find out what has happened.

    “There are some out there who’ve experienced the loss of a loved one or are injured by the vaccines. They also set up the forests now and this gives them a sense of purpose, knowing that they are far from alone and can at least help to stop the perpetuation of deaths and injuries.”

    Speaking at the Australians for Science and Freedom conference at University of NSW on November 18, Selkie explained the magic of Forest of the Fallen which has now grown to 131 pop-up displays across Australia with more than 550 stories.

    It’s the magic of an empty space.

    Holding a space for sometimes angry people and a confused country that is still in denial

    Selkie said she found that taking herself out of the memorial was the most effective way to allow people to discover for themselves, quietly, what happened, and to process it.

    “All along I’ve stressed the importance on making sure the display is not affiliated with any other group, movement, religion or political party, keeping it open to all sets of eyes with no exclusion and no bias,” she said.


    This beautiful soul bought us chocolates and helped. Pic: Alison Bevege
    It’s free from politics, it doesn’t try to change people’s minds. It only has one message: stop looking away.

    “By taking away the mutual judgements and not disturbing the onlooker’s process, it’s allowing them the time to grasp what it is they are standing right in front of.

    “Taking away all other propaganda and signage was important as I saw this, too, deterred onlookers from reading the stories.”


    FoTF, High Cross Park, Randwick, November 18. Pic: Alison Bevege
    Selkie said when she first started Forest of the Fallen in 2021, about 95 percent of onlookers were disapproving and outright rude.

    “Today the tables have completely turned and now 95 percent of onlookers are supportive,” Selkie said, and even police have become helpful, sometimes stepping in to protect displays from the rare “angry noodles”.

    “I’m now writing a memoir as it has been a truly profound, incredible journey for me.”

    Selkie, who compiles the PDF master list to print, and coaches all the volunteer co-ordinators, found herself working seven days a week to make the Forests run smoothly, while homeschooling her youngest child.

    The stories used in Forest of the Fallen have been widely reported in corporate media or documented and checked by Jab Injuries Australia, and are willingly shared.

    Share

    Letters From Australia helped set up a Forest of the Fallen, and I witnessed the relief: it’s like rain in the desert.

    On November 18 at High Cross Park, Randwick, we set up a forest with the help of Phil Schultz whose brother Barry died 18 days after the Pfizer shot, Bridget from Coogee Stand in the Park, and Loraine from Adelaide.

    Many passers-by had stories of their own.

    A bright young Russian with sparkling blue eyes told of how his wife died not long after the gene-vaccine, but he was sure it was not related. Then he ran to the shops and bought us chocolates, and promised to help us next time.

    A man on a bike immediately started helping put up the stakes. He refused the jab after the first injected man at his office ended up in ICU. He wasn’t getting it after that, but saw his colleagues lining up. They were afraid for their jobs.


    “Bike man” had his own story to tell. Picture: Alison Bevege
    Two Texan tourists said nobody dares tread on their freedom, yet when the gene-vaccines came out people just rolled over.

    “I couldn’t undestand it,” said one.

    Phil himself had a chance to meet Loraine, with whom he is unexpectedly connected by his late brother Barry.

    When Adelaide doctor Barry Schultz’s story went into Forest of the Fallen for the first time, his widow Diane went to see the display, which Loraine was setting up.


    (left) Diane with Barry’s story in Adelaide. Pic: Loraine. (right) Barry’s brother Phil with Loraine in Sydney. Pic: Bevege
    Loraine told the volunteers that Barry was a new addition, and that he had delivered about 1500 babies in his career before he took the Pfizer shot which killed him 18 days later.

    Just as Loraine was explaining, Diane came up behind her - “That’s my husband,” she said.

    It was a wonderful moment for both of them. A lovely acknowledgement.

    This is the healing that Australia needs.

    Don’t look away.

    Thanks to Kevin Nguyen, the talented filmmaker who compiled a magnificent video of the Randwick FoTF above.

    You can do this, too

    REPORT your gene-vaccine injury to the TGA here.

    TELL your story to Jab Injuries Australia here.

    VISIT the Forest of the Fallen here.

    CONTACT Forest of the Fallen here: You can do this, too.

    SEE the Forest on Instagram here.

    WATCH the Forest of the Fallen videos on Odysee here.

    JOIN the class action for vaccine injured and bereaved here.

    CONNECT with jab injured resources at Coverse here.

    Updates: 27 November, added Diane’s pic from Loraine in Adelaide, corrected spelling. 28 November: more spelling corrections plus Barry delivered about 1500 babies, more than 1000.


    https://open.substack.com/pub/lettersfromaustralia/p/the-power-of-silence?utm_campaign=post&utm_medium=web

    https://telegra.ph/The-power-of-silence-04-03
    The power of silence Validation. Empty space. Selkie, creator of Forest of the Fallen, flew up from Tasmania to tell the ASF Conference how it has grown to 131 powerful displays nation-wide Alison Bevege The stories sway in the wind, each one a person killed or injured by the covid gene-vaccines. The Forest of the Fallen is the exact opposite of a protest. When Tasmanian mother-of-three Selkie started the Forest in 2021, she didn’t anticipate the surprising power of acknowledgement. Loraine from Adelaide with Selkie (right) who started the displays, at the ASF conference in November. Pic: Alison Bevege “A co-ordinator from Tin Can Bay in Queensland is a narrative therapist and we spoke of the healing impacts the Forest was having on so many lives,” she said. For people who were injured, or lost their jobs, or lost a loved one, or suffered division in their families, this simple acknowledgement can bring a tremendous sense of relief just by recognising the suffering. “Having a sense of their story being validated by a tactile, optical display - this alone is so healing for them as many have had no recognition at all,” she said. “Some are completely left alone.” It’s a silent vigil open to any passer-by to wander in and quietly find out what has happened. “There are some out there who’ve experienced the loss of a loved one or are injured by the vaccines. They also set up the forests now and this gives them a sense of purpose, knowing that they are far from alone and can at least help to stop the perpetuation of deaths and injuries.” Speaking at the Australians for Science and Freedom conference at University of NSW on November 18, Selkie explained the magic of Forest of the Fallen which has now grown to 131 pop-up displays across Australia with more than 550 stories. It’s the magic of an empty space. Holding a space for sometimes angry people and a confused country that is still in denial Selkie said she found that taking herself out of the memorial was the most effective way to allow people to discover for themselves, quietly, what happened, and to process it. “All along I’ve stressed the importance on making sure the display is not affiliated with any other group, movement, religion or political party, keeping it open to all sets of eyes with no exclusion and no bias,” she said. This beautiful soul bought us chocolates and helped. Pic: Alison Bevege It’s free from politics, it doesn’t try to change people’s minds. It only has one message: stop looking away. “By taking away the mutual judgements and not disturbing the onlooker’s process, it’s allowing them the time to grasp what it is they are standing right in front of. “Taking away all other propaganda and signage was important as I saw this, too, deterred onlookers from reading the stories.” FoTF, High Cross Park, Randwick, November 18. Pic: Alison Bevege Selkie said when she first started Forest of the Fallen in 2021, about 95 percent of onlookers were disapproving and outright rude. “Today the tables have completely turned and now 95 percent of onlookers are supportive,” Selkie said, and even police have become helpful, sometimes stepping in to protect displays from the rare “angry noodles”. “I’m now writing a memoir as it has been a truly profound, incredible journey for me.” Selkie, who compiles the PDF master list to print, and coaches all the volunteer co-ordinators, found herself working seven days a week to make the Forests run smoothly, while homeschooling her youngest child. The stories used in Forest of the Fallen have been widely reported in corporate media or documented and checked by Jab Injuries Australia, and are willingly shared. Share Letters From Australia helped set up a Forest of the Fallen, and I witnessed the relief: it’s like rain in the desert. On November 18 at High Cross Park, Randwick, we set up a forest with the help of Phil Schultz whose brother Barry died 18 days after the Pfizer shot, Bridget from Coogee Stand in the Park, and Loraine from Adelaide. Many passers-by had stories of their own. A bright young Russian with sparkling blue eyes told of how his wife died not long after the gene-vaccine, but he was sure it was not related. Then he ran to the shops and bought us chocolates, and promised to help us next time. A man on a bike immediately started helping put up the stakes. He refused the jab after the first injected man at his office ended up in ICU. He wasn’t getting it after that, but saw his colleagues lining up. They were afraid for their jobs. “Bike man” had his own story to tell. Picture: Alison Bevege Two Texan tourists said nobody dares tread on their freedom, yet when the gene-vaccines came out people just rolled over. “I couldn’t undestand it,” said one. Phil himself had a chance to meet Loraine, with whom he is unexpectedly connected by his late brother Barry. When Adelaide doctor Barry Schultz’s story went into Forest of the Fallen for the first time, his widow Diane went to see the display, which Loraine was setting up. (left) Diane with Barry’s story in Adelaide. Pic: Loraine. (right) Barry’s brother Phil with Loraine in Sydney. Pic: Bevege Loraine told the volunteers that Barry was a new addition, and that he had delivered about 1500 babies in his career before he took the Pfizer shot which killed him 18 days later. Just as Loraine was explaining, Diane came up behind her - “That’s my husband,” she said. It was a wonderful moment for both of them. A lovely acknowledgement. This is the healing that Australia needs. Don’t look away. Thanks to Kevin Nguyen, the talented filmmaker who compiled a magnificent video of the Randwick FoTF above. You can do this, too REPORT your gene-vaccine injury to the TGA here. TELL your story to Jab Injuries Australia here. VISIT the Forest of the Fallen here. CONTACT Forest of the Fallen here: You can do this, too. SEE the Forest on Instagram here. WATCH the Forest of the Fallen videos on Odysee here. JOIN the class action for vaccine injured and bereaved here. CONNECT with jab injured resources at Coverse here. Updates: 27 November, added Diane’s pic from Loraine in Adelaide, corrected spelling. 28 November: more spelling corrections plus Barry delivered about 1500 babies, more than 1000. https://open.substack.com/pub/lettersfromaustralia/p/the-power-of-silence?utm_campaign=post&utm_medium=web https://telegra.ph/The-power-of-silence-04-03
    OPEN.SUBSTACK.COM
    The power of silence
    Validation. Empty space. Selkie, creator of Forest of the Fallen, flew up from Tasmania to tell the ASF Conference how it has grown to 131 powerful displays nation-wide
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  • ‘Operation Al-Aqsa Flood’ Day 179: Israel kills 7 international aid workers in central Gaza, passes law banning Al Jazeera
    The World Central Kitchen called the attack that killed seven of its aid workers “unforgivable” as Israeli forces killed 71 people across the Gaza Strip. Meanwhile, the Israeli government voted to approve a bill banning Al Jazeera.

    Qassam MuaddiApril 2, 2024
    Palestinians inspect the heavily damaged vehicle after the Israeli attack targeting the international and local officials with the World Central Kitchen, Deir al-Balah, central Gaza, April 2, 2024. (Photo: Omar Ashtawy/APA Images)
    Palestinians inspect the heavily damaged vehicle after the Israeli attack targeting the international and local officials with the World Central Kitchen, Deir al-Balah, central Gaza, April 2, 2024. (Photo: Omar Ashtawy/APA Images)
    Casualties

    32,916+ killed* and at least 75,494 wounded in the Gaza Strip.
    451+ Palestinians killed in the occupied West Bank and East Jerusalem.**
    Israel revises its estimated October 7 death toll down from 1,400 to 1,139.
    600 Israeli soldiers have been killed since October 7, and at least 3,302 injured.***
    *Gaza’s Ministry of Health confirmed this figure on its Telegram channel. Some rights groups estimate the death toll to be much higher when accounting for those presumed dead.

    ** The death toll in the West Bank and Jerusalem is not updated regularly. According to the PA’s Ministry of Health on March 17, this is the latest figure.

    *** This figure is released by the Israeli military, showing the soldiers whose names “were allowed to be published.”

    Key Developments

    Israel kills 71 Palestinians and wounds 102 in the Gaza Strip in 7 different massacres, according to the Palestinian health ministry.
    Israeli army kills seven aid workers of British, Polish, and Australian nationalities belonging to the World Central Kitchen (WCK) in Deir al-Balah. WCK announces halt of operations in light of attack.
    Israeli government votes on a bill to ban Al Jazeera and other media outlets, Netanyahu accuses Al Jazeera of incitement against Israel.
    Gaza’s health ministry calls upon Palestinians to evacuate hospitals unless they are patients or wounded.
    In the West Bank, one Palestinian dies of wounds sustained during Israeli army raid in Jenin.
    Israeli army raids Qalandia refugee camp north of Jerusalem, arresting seven people.
    Israeli forces kill 71 Palestinians, wound 102 across Gaza

    The Palestinian health ministry in Gaza said in a statement Tuesday that Israeli forces committed seven massacres against families in the Gaza Strip since Monday, killing 71 Palestinians and wounding 102, bringing the death toll of Israel’s assault on the Gaza Strip since October 7 to 32,916.

    The ministry pointed out that medical teams haven’t been able to recover many more bodies buried under the rubble.

    In Gaza City, Israel’s withdrawal from al-Shifa Hospital revealed the total destruction of the medical complex and its facilities. Accounts from residents in the area describe dead bodies with tied hands, indicating potential cases of execution.

    In a statement, Gaza’s Government Media Office said that at least 400 Palestinians were killed and 900 were wounded during the two-week-long Israeli raid on Gaza’s largest hospital.

    In the central Gaza Strip, Israeli forces bombed the al-Bashir mosque, killing one child and wounding 20 more people. Israeli artillery also bombed the village of al-Mighraqa north of the Nuseirat refugee camp.

    In the southern Gaza Strip, two separate Israeli bombings killed 12 Palestinians in Rafah, including six people, in a bombing of the Zuurub family home. Meanwhile, Israeli artillery continued bombing the western neighborhoods of Khan Younis.

    Israeli strike kills seven international aid workers in Deir al-Balah

    Seven international aid workers were killed by an Israeli strike in Deir al-Balah, in the central Gaza Strip on Monday. The aid workers belonged to the U.S.-based international humanitarian organization, the World Central Kitchen.

    The victims were of British, Canadian, Polish, and Australian, nationalities, and some had dual U.S. and Palestinian citizenship.

    Passports of the international volunteers with the World Central Kitchen killed in a targeted Israeli airstrike, Deir al-Balah, central Gaza. (Photo: Omar Ashtawy/APA Images)
    Passports of the international volunteers with the World Central Kitchen killed in a targeted Israeli airstrike, Deir al-Balah, central Gaza. (Photo: Omar Ashtawy/APA Images)
    The World Central Kitchen said in a statement that its workers were leaving the organization’s warehouse in Deir al-Balah, moving through a “deconflicted zone” in three vehicles when the Israeli strike occurred, “despite coordinating movements” with the Israeli army.

    “This is an attack on humanitarian organizations showing up in the most dire of situations where food is being used as a weapon of war, this is unforgivable,” said the WCK statement. The organization also announced the suspension of its operations in the Gaza Strip.

    The World Central Kitchen had been engaged in delivering meals to Palestinians in the besieged Gaza strip, where the UN has warned of famine induced by Israel’s blocking of humanitarian aid from entering the Strip. At least 31 people have died of starvation.

    Australian Prime Minister Anthony Albanese confirmed the death of a 44-year-old Australian citizen among the team, calling the killing “completely unacceptable.” Albanese also said that his cabinet will call in Israel’s ambassador.

    Israeli media quoted the Israeli army as saying that it will open an investigation into the incident.

    Since October 7, Israeli strikes killed at least 170 international humanitarian workers in the Gaza Strip, according to Human Rights Watch.

    Israeli government votes bill into law banning Al Jazeera

    Israeli Prime Minister Benjamin Netanyahu vowed Monday to shut down the Qatari media network Al Jazeera’s operations in Palestine soon.

    The law, dubbed the “Al Jazeera law,” was introduced after the Israeli army claimed it found one Al Jazeera worker to be a member of Hamas, without providing more details.

    The law sets the ground for the Israeli war cabinet to put a ban on the Qatari media network into effect. However, according to the Israeli daily newspaper Israel Hayom, Netanyahu and his cabinet “are not in a rush” to ban Al Jazeera from broadcasting, given Qatar’s role in mediating negotiations with Hamas.

    On Monday, Netanyahu accused Al Jazeera of incitement against Israel and “actively taking part in the October 7 attack.”

    Since October 7, Israeli strikes have killed 139 journalists in the Gaza Strip, including Al Jazeera cameraman Samer Abu Daqa. Back in December, only two months into Israel’s assault on Gaza, the Committee for the Protection of Journalists said that the Strip was the most dangerous place for journalists in the world.

    One Palestinian killed in Jenin as Israel continues raids across the West Bank

    A Palestinian was pronounced dead in Jenin on Tuesday after succumbing to his wounds caused earlier by Israeli forces during a military raid on the town of Qabatiya, south of Jenin.

    The martyr was identified as 20-year-old Rabea Faisal Zakarna, who was wounded on Saturday by Israeli forces that raided his town.

    Meanwhile, Israeli forces raided the Qalandia refugee camp north of Jerusalem late on Monday, where they were confronted by local youth throwing stones as well as armed clashes with Palestinian fighters. The Palestinian Red Crescent Society reported several injuries in Qalandia by Israeli fire.

    Across the West Bank, Israeli forces raided several towns in the Nablus, Hebron, and Jericho governorates, arresting at least 40 Palestinians, according to the Palestinian Prisoners’ Club.

    Since October 7, Israel has arrested more than 7,600 Palestinians. Currently, Israel continues to hold 9,100 Palestinians in its jails, including 50 women, 200 children, and at least 3,500 detainees without charge or trial as part of its policy of administrative detention.

    With the death of Rabea Zakarneh, the number of Palestinians killed by Israeli forces in the West Bank rose to 456 since October 7 and 139 since the beginning of the year.

    https://mondoweiss.net/2024/04/operation-al-aqsa-flood-day-179-israel-kills-7-international-aid-workers-in-central-gaza-passes-law-banning-al-jazeera/
    ‘Operation Al-Aqsa Flood’ Day 179: Israel kills 7 international aid workers in central Gaza, passes law banning Al Jazeera The World Central Kitchen called the attack that killed seven of its aid workers “unforgivable” as Israeli forces killed 71 people across the Gaza Strip. Meanwhile, the Israeli government voted to approve a bill banning Al Jazeera. Qassam MuaddiApril 2, 2024 Palestinians inspect the heavily damaged vehicle after the Israeli attack targeting the international and local officials with the World Central Kitchen, Deir al-Balah, central Gaza, April 2, 2024. (Photo: Omar Ashtawy/APA Images) Palestinians inspect the heavily damaged vehicle after the Israeli attack targeting the international and local officials with the World Central Kitchen, Deir al-Balah, central Gaza, April 2, 2024. (Photo: Omar Ashtawy/APA Images) Casualties 32,916+ killed* and at least 75,494 wounded in the Gaza Strip. 451+ Palestinians killed in the occupied West Bank and East Jerusalem.** Israel revises its estimated October 7 death toll down from 1,400 to 1,139. 600 Israeli soldiers have been killed since October 7, and at least 3,302 injured.*** *Gaza’s Ministry of Health confirmed this figure on its Telegram channel. Some rights groups estimate the death toll to be much higher when accounting for those presumed dead. ** The death toll in the West Bank and Jerusalem is not updated regularly. According to the PA’s Ministry of Health on March 17, this is the latest figure. *** This figure is released by the Israeli military, showing the soldiers whose names “were allowed to be published.” Key Developments Israel kills 71 Palestinians and wounds 102 in the Gaza Strip in 7 different massacres, according to the Palestinian health ministry. Israeli army kills seven aid workers of British, Polish, and Australian nationalities belonging to the World Central Kitchen (WCK) in Deir al-Balah. WCK announces halt of operations in light of attack. Israeli government votes on a bill to ban Al Jazeera and other media outlets, Netanyahu accuses Al Jazeera of incitement against Israel. Gaza’s health ministry calls upon Palestinians to evacuate hospitals unless they are patients or wounded. In the West Bank, one Palestinian dies of wounds sustained during Israeli army raid in Jenin. Israeli army raids Qalandia refugee camp north of Jerusalem, arresting seven people. Israeli forces kill 71 Palestinians, wound 102 across Gaza The Palestinian health ministry in Gaza said in a statement Tuesday that Israeli forces committed seven massacres against families in the Gaza Strip since Monday, killing 71 Palestinians and wounding 102, bringing the death toll of Israel’s assault on the Gaza Strip since October 7 to 32,916. The ministry pointed out that medical teams haven’t been able to recover many more bodies buried under the rubble. In Gaza City, Israel’s withdrawal from al-Shifa Hospital revealed the total destruction of the medical complex and its facilities. Accounts from residents in the area describe dead bodies with tied hands, indicating potential cases of execution. In a statement, Gaza’s Government Media Office said that at least 400 Palestinians were killed and 900 were wounded during the two-week-long Israeli raid on Gaza’s largest hospital. In the central Gaza Strip, Israeli forces bombed the al-Bashir mosque, killing one child and wounding 20 more people. Israeli artillery also bombed the village of al-Mighraqa north of the Nuseirat refugee camp. In the southern Gaza Strip, two separate Israeli bombings killed 12 Palestinians in Rafah, including six people, in a bombing of the Zuurub family home. Meanwhile, Israeli artillery continued bombing the western neighborhoods of Khan Younis. Israeli strike kills seven international aid workers in Deir al-Balah Seven international aid workers were killed by an Israeli strike in Deir al-Balah, in the central Gaza Strip on Monday. The aid workers belonged to the U.S.-based international humanitarian organization, the World Central Kitchen. The victims were of British, Canadian, Polish, and Australian, nationalities, and some had dual U.S. and Palestinian citizenship. Passports of the international volunteers with the World Central Kitchen killed in a targeted Israeli airstrike, Deir al-Balah, central Gaza. (Photo: Omar Ashtawy/APA Images) Passports of the international volunteers with the World Central Kitchen killed in a targeted Israeli airstrike, Deir al-Balah, central Gaza. (Photo: Omar Ashtawy/APA Images) The World Central Kitchen said in a statement that its workers were leaving the organization’s warehouse in Deir al-Balah, moving through a “deconflicted zone” in three vehicles when the Israeli strike occurred, “despite coordinating movements” with the Israeli army. “This is an attack on humanitarian organizations showing up in the most dire of situations where food is being used as a weapon of war, this is unforgivable,” said the WCK statement. The organization also announced the suspension of its operations in the Gaza Strip. The World Central Kitchen had been engaged in delivering meals to Palestinians in the besieged Gaza strip, where the UN has warned of famine induced by Israel’s blocking of humanitarian aid from entering the Strip. At least 31 people have died of starvation. Australian Prime Minister Anthony Albanese confirmed the death of a 44-year-old Australian citizen among the team, calling the killing “completely unacceptable.” Albanese also said that his cabinet will call in Israel’s ambassador. Israeli media quoted the Israeli army as saying that it will open an investigation into the incident. Since October 7, Israeli strikes killed at least 170 international humanitarian workers in the Gaza Strip, according to Human Rights Watch. Israeli government votes bill into law banning Al Jazeera Israeli Prime Minister Benjamin Netanyahu vowed Monday to shut down the Qatari media network Al Jazeera’s operations in Palestine soon. The law, dubbed the “Al Jazeera law,” was introduced after the Israeli army claimed it found one Al Jazeera worker to be a member of Hamas, without providing more details. The law sets the ground for the Israeli war cabinet to put a ban on the Qatari media network into effect. However, according to the Israeli daily newspaper Israel Hayom, Netanyahu and his cabinet “are not in a rush” to ban Al Jazeera from broadcasting, given Qatar’s role in mediating negotiations with Hamas. On Monday, Netanyahu accused Al Jazeera of incitement against Israel and “actively taking part in the October 7 attack.” Since October 7, Israeli strikes have killed 139 journalists in the Gaza Strip, including Al Jazeera cameraman Samer Abu Daqa. Back in December, only two months into Israel’s assault on Gaza, the Committee for the Protection of Journalists said that the Strip was the most dangerous place for journalists in the world. One Palestinian killed in Jenin as Israel continues raids across the West Bank A Palestinian was pronounced dead in Jenin on Tuesday after succumbing to his wounds caused earlier by Israeli forces during a military raid on the town of Qabatiya, south of Jenin. The martyr was identified as 20-year-old Rabea Faisal Zakarna, who was wounded on Saturday by Israeli forces that raided his town. Meanwhile, Israeli forces raided the Qalandia refugee camp north of Jerusalem late on Monday, where they were confronted by local youth throwing stones as well as armed clashes with Palestinian fighters. The Palestinian Red Crescent Society reported several injuries in Qalandia by Israeli fire. Across the West Bank, Israeli forces raided several towns in the Nablus, Hebron, and Jericho governorates, arresting at least 40 Palestinians, according to the Palestinian Prisoners’ Club. Since October 7, Israel has arrested more than 7,600 Palestinians. Currently, Israel continues to hold 9,100 Palestinians in its jails, including 50 women, 200 children, and at least 3,500 detainees without charge or trial as part of its policy of administrative detention. With the death of Rabea Zakarneh, the number of Palestinians killed by Israeli forces in the West Bank rose to 456 since October 7 and 139 since the beginning of the year. https://mondoweiss.net/2024/04/operation-al-aqsa-flood-day-179-israel-kills-7-international-aid-workers-in-central-gaza-passes-law-banning-al-jazeera/
    MONDOWEISS.NET
    ‘Operation Al-Aqsa Flood’ Day 179: Israel kills 7 international aid workers in central Gaza, passes law banning Al Jazeera
    The World Central Kitchen called the attack that killed seven of its aid workers “unforgivable” as Israeli forces killed 71 people across the Gaza Strip. Meanwhile, the Israeli government voted to approve a bill banning Al Jazeera.
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