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

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https://telegra.ph/Pfizer-partnering-with-Ido-Bachelet-on-DNA-nanorobots-04-03

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

‘Operation Al-Aqsa Flood’ Day 166: Israel kills Gaza officials handling food delivery to the north; Canada votes to halt arms sales to Israel
Mustafa Abu SneinehMarch 20, 2024
Palestinians embrace in a bombed out building that was attacked by Israeli airstrikes in the Nuseirat refugee camp in central Gaza, killing 27 members of the same family (Photo: APA Images)
A view from the damaged buildings after Israeli airstrikes on Nuseirat in central Gaza killed 27 members of the same family on March 20, 2024. As a result of the attack, many buildings were destroyed and surrounding buildings were damaged. Palestinians in the area carried out search and rescue operations in the rubble of buildings destroyed in the attack. (Omar Ashtawy/apaimages)
Casualties

31,923 + killed* and at least 74,096 wounded in the Gaza Strip.
435+ Palestinians killed in the occupied West Bank and East Jerusalem.**
Israel revises its estimated October 7 death toll down from 1,400 to 1,147.
594 Israeli soldiers killed since October 7, and at least 3,221 injured.***
*Gaza’s Ministry of Health confirmed this figure on Telegram channel. Some rights groups put the death toll number at more than 40,000 when accounting for those presumed dead.

** The death toll in West Bank and Jerusalem is not updated regularly. According to 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.”

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Key Developments

Israel bombs members of Palestinian clans and officers of Gaza’s emergency committee who handled aid supplies and delivery in north Gaza.
Among people Israel killed on Tuesday evening is Amjad Hathat, director of Gaza’s emergency committee. On Monday, Israel assassinated Faiq Mabhouh, head of police operations in Gaza, who handled delivery of food in north Gaza.
Hamas accuses Israel of spreading chaos in north Gaza in bid to create “administrative vacuum” by targeting members of emergency committee.
In north Gaza, every 25 individuals share one kilogram of flour, or 20 loaves of bread, over one or two days. However, thousands of others cannot get a single loaf.
Doctor who visited Gaza tells UN that “infections are getting worse and worse,” with whole families suffering from explosive injuries and burns.
Israeli airstrikes on houses in Nuseirat refugee camp kill at least 27 Palestinians from the Habbash family.
Israel’s Finance Minister says expanding settlements is “holistic Zionist response to [EU] declaration” of planned sanctions on Israeli settlers in the West Bank.
Israeli forces and settlers kill two Palestinians in the West Bank in separate incidents.
Canada to halt arms sales to Israel after non-binding vote in parliament.
Agreement made between White House and U.S. Congress bars U.S. funds to UNRWA until March 2025, according to a Reuters report.
Italian Prime Minister Giorgia Meloni says, “We will reiterate our opposition to military action on the ground by Israel in Rafah that could have even more catastrophic consequences for the civilians crowded in that area.”
Israel bombs north Gaza’s Kuwait roundabout, targeting authorities tasked with aid delivery

Israeli forces bombed a gathering point of dozens of Palestinians near the Kuwait roundabout in Gaza City, killing at least 23 people and injuring dozens on Tuesday evening.

Most of them were members of Palestinian clans and officers of Gaza’s emergency committee who handled aid supplies and deliveries to starving people in north Gaza.

Since Saturday, they had successfully ensured the arrival of 35 aid trucks at the Kuwait and Nabulsi roundabouts, unloading the deliveries in shelters and centers of the UN agency for Palestinian refugees (UNRWA) in Gaza’s Al-Tuffah neighborhood and Jabalia refugee camp.

Such a mission could not have been successful without Gaza Police directing Palestinians not to gather around aid trucks on Al-Rashid and Sala El-Din streets in north Gaza and allowing the emergency committee to do its job of unloading and distributing food.

The missions between local police, the heads of clans in Gaza, and UNRWA were coordinated in an effort to protect civilians in the north after numerous attacks in recent weeks in which Israeli forces shot and killed hundreds of Palestinians as crowds attempted to get food and flour from trucks in Gaza since late February; a number of the dead were also reportedly killed in the crowd crush.

In the past few days, Palestinians lined up to get their rations of flour inside the premises of the humanitarian centers in Jabalia and Gaza. Among the people Israel killed on Tuesday evening is Amjad Hathat, the director of Gaza’s emergency committee.

Hamas says Israel is ‘spreading chaos’ in north Gaza

In response to the targeting of the local officials in north Gaza, Hamas accused Israel of “spreading chaos” in a bid to create an “administrative vacuum” by targeting the emergency committee. Ismail Al-Thawabteh, a media government spokesperson, told Al-Jazeera Arabic that Israel allows aid trucks to enter north Gaza and then bombs people approaching it.

On Monday evening, Israel assassinated Faiq Al-Mabhouh, the head of police operations in Gaza, who handled the entry of food trucks and managed to deliver 13 of them to north Gaza. Israel said Mabhouh was “the head of Operations Directorate of the Internal Security Service of Hamas.”

Tel Aviv is trying to create an authority in the Gaza Strip in place of Hamas, and it views the successful coordination between local clans, Gaza Police and UN agencies to deliver aid as a sign of Hamas’s ability to administer in Gaza.

Israel is still trying to use food and medical deliveries as a tool to strengthen and push some clan leaders to the front seat and put them in charge of handling the aid, coordinating with Israel and the international agencies.

However, several Palestinian clans in the Gaza Strip refused to be “an alternative political regime” in the Gaza Strip and coordinate humanitarian missions with Israel.

One kilogram of flour for every 25 people

Although dozens of aid trucks reached north Gaza in the past days, where thousands of Palestinians are at risk of famine and starvation, the loads remain short to meet people’s needs.

Al-Akhbar reported that a flour truck arrived at Abu Bakr al-Razi shelter center in Gaza’s Al-Tuffah neighborhood on Monday, where 8,000 people currently live, and contained 1,000 bags of flour, each weighing 25 kilograms.

“We give each family what is sufficient for one or two days only. We have no other choice,” a member of the emergency committee told Al-Akhbar’s correspondent.

“Every 25 individuals share one kilogram of flour. Knowing that a kilogram is enough to make 20 loaves, it means that a large number of people… won’t get even a single loaf of bread,” in Gaza, he added.

Children in Gaza face grave injuries, malnutrition as hospitals struggle to operate

A few trucks were also loaded with medical supplies and delivered to the UNRWA clinic in Jabalia, to Al-Awda and Kamal Adwan hospitals in north Gaza, which are depleted and partially operating. Hospitals in the Gaza Strip are still short of fuel, medicine and medical machines, while other hospitals like Al-Shifa in Gaza City have been under Israeli attack since Sunday.

The World Health Organization (WHO) has long warned that Israel is generating a famine in north Gaza, and that “over a million people are expected to face catastrophic hunger unless significantly more food is allowed to enter Gaza.”

Children have already started dying of malnutrition in Gaza, which has long-term effects, such as “low consumption of nutrient-rich foods, repeated infections, and [the] lack of hygiene and sanitation services slow children’s overall growth,” the WHO added.

Israel has killed more than 13,000 children in bombing Gaza since October 7, according to the United Nations Children’s Fund (UNICEF).

Four doctors from France, the U.S. and the U.K., who visited the Gaza Strip, said during a UN event in New York that the healthcare system in the enclave is collapsing and that they treated children severely burned by Israel’s bombs.

Nick Maynard, a cancer surgeon with British charity Medical Aid for Palestinians, saw a Palestinian girl so badly burned in an Israeli bombardment that he could see her facial bones.

“We knew there was no chance of her surviving that but there was no morphine to give her,” Maynard said. “So not only was she inevitably going to die but she would die in agony.”

Maynar said that an Israeli ground invasion of Rafah “will be apocalyptic, the number of deaths we’re going to see.”

Amber Alayyan, a pediatrician doctor, said hospitals in Gaza are operating on patients and the injured amid lack of supplies and in dire conditions.

“The infections are getting worse and worse,” she said.

“We have seen patients who traveled, who were victims of explosive injuries, a family of 11, for example, a whole family that arrived at our hospital in the south from the north,” Alayyan told the UN.

“They’ve been moving for three months looking for hospital care. They were victims of explosions. Eleven members of the family were burnt,” she added.

Israeli attack on Nuseirat refugee camp kills 27 family members

In the past 24 hours, Israeli forces committed 10 massacres in various areas of the Gaza Strip, according to the Gaza Ministry of Health on Telegram, killing at least 104 people and injuring 162. Thousands remain under the rubble of bombed buildings, and nearly 32,000 Palestinians were killed and 74,000 injured.

Israeli air strikes on houses in Nuseirat refugee camp, in central Gaza, killed at least 27 Palestinians from the Habbash family and injured dozens, Wafa news agency reported.

In north Gaza, Israel bombed Al-Rimal and Al-Daraj neighborhoods. Palestinian rescue team recovered the bodies of 20 people in Gaza City following an Israeli bombardment.

In Beit Lahia and Deir Al-Balah, Israeli artillery bombed several areas, while in Bureij refugee camp, six Palestinians were recovered from under the rubble of a bombed house.

Italian PM opposes Rafah Invasion, Canada votes to stop arms transfers to Israel

The Israeli government has vowed to press on with its planned invasion of the crowded city of Rafah in southern Gaza, despite warnings from international leaders and humanitarian groups. Italy’s Prime Minister Giorgia Meloni has joined the chorus, saying that her country opposes the planned offensive.

“We will reiterate our opposition to military action on the ground by Israel in Rafah that could have even more catastrophic consequences for the civilians crowded in that area,” Meloni told lawmakers in the Senate.

Ursula von der Leyen, the president of the European Commission, said during a meeting with Egypt’s President Abdel Fattah al-Sisi this week, that she is “concerned about the risks a full-scale offensive in Rafah would have on the most vulnerable civilian population. This needs to be avoided at all costs.”

An Israeli invasion of Rafah, the southernmost town in the Gaza Strip where 1.2 million Palestinians are sheltering, could spike tensions with Egypt which watches the western side of the border.

Some Israeli officials and ministers said their wish is to evacuate Palestinians from the Gaza Strip to Egypt. However, Egypt is closing its borders firmly, and is not allowing mass flux of Palestinians to its territories.

Meanwhile, Canada’s House of Commons voted on Tuesday to halt arms sales to Israel, with Canadian foreign affairs minister, Mélanie Joly, reaffirming the vote, saying her government would halt future arms shipments to Israel, saying “it is a real thing.”

Smotrich calls settlements ‘holistic’ response to sanctions

Israel’s Finance Minister and far-right settler Bezalel Smotrich, suggested that expanding settlement was the “holistic” response to an agreement by the EU on Monday to sanction Israeli settlers, who assaulted Palestinians in the occupied West Bank.

“There is one holistic Zionist response to this [EU] declaration, strengthening and entrenching settlement in all parts of the Land of Israel,” Smotrich said on Tuesday.

He claimed that the Israeli justice system could deal with incidents of settlers’ violence on Palestinians. Israeli authorities systematically fail to investigate and prosecute ideological crimes against Palestinians in the occupied West Bank, and are often documented joining the settlers in their attacks on Palestinian communities.

The far-right minister is a vocal opponent of the establishment of Palestinian state, and is a supporter of annexing the West Bank into Israel. In January, he said Israel should “encourage the migration of Gaza residents as a solution to the humanitarian crisis”.

The U.S. has recently sanctioned several Israeli settlers involved in attacks against Palestinians, including two entire outposts for the first time.

Israeli forces and settlers kill two Palestinians in West Bank

Two Palestinian were killed in separate incidents in the West Bank on Tuesday afternoon.

Ziad Farhan Diab Hamran, 31, from the Al-Hashimiyah village in Jenin, was shot by Israeli forces near the entrance of Beit Fajjar village and the settlement of Gush Etzion, near Bethlehem. His body remains in Israel’s custody.

Israel said that Hamran shot two intelligence officers from the Shin Bet, who were injured in the attack. Hamran succumbed to his wounds on Tuesday evening.

In Nablus, Israeli settlers killed Fakher Bassem Bani Jaber, 43, from Aqraba village, south of Nablus.

Wafa reported that Jaber was taken to Rafidiya Hospital where he died. Settlers attacked Khirbet al-Tawil area, near Aqraba village, which prompted Palestinians to defend their lands.In occupied Jerusalem, only 20,000 Palestinians performed Ramadan’s Al-Tarawih prayer on the tenth night as Israeli authorities kept restricting the numbers of Palestinians who could enter Jerusalem from the West Bank. It was also rainy and cold in Jerusalem on Tuesday night, Wafa reported.

BEFORE YOU GO – At Mondoweiss, we understand the power of telling Palestinian stories. For 17 years, we have pushed back when the mainstream media published lies or echoed politicians’ hateful rhetoric. Now, Palestinian voices are more important than ever.

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https://mondoweiss.net/2024/03/operation-al-aqsa-flood-day-166-israel-kills-gaza-officials-handling-food-delivery-to-the-north-canada-votes-to-halt-arms-sales-to-israel/


https://telegra.ph/Operation-Al-Aqsa-Flood-Day-166-Israel-kills-Gaza-officials-handling-food-delivery-to-the-north-Canada-votes-to-halt-arms-sales--03-20

Babylon Bee - Mankind Lands On Moon For First Time Since Wallace And Gromit In 1989:

https://babylonbee.com/news/mankind-lands-on-moon-for-first-time-since-wallace-and-gromit-in-1989

#MoonLanding #Moon #IntuitiveMachines #IM1 #Odysseus #LunarLander #SolarSystemScience #Astronomy

Paul Serran - Nova-C Lunar Mission Takes off in Florida, on Its Way to the First American Moon Landing in More Than Half a Century:

https://www.thegatewaypundit.com/2024/02/space-odissey-nova-c-lunar-mission-takes-florida/

#Odysseus #LunarLander #NovaC #IntuitiveMachines #IM1 #NASA #MalapertA #SolarSystemScience #Astronomy

Hydrogels in COVID Vaccine as Programmable Human Interface

From Ana Maria Mihalcea’s "Hydrogel Platform Enables Versatile Data Encryption And Decryption"

Greg ReeseFeb 16
The following report is from Doctor Ana Maria Mihalcea’s recent article entitled, "Hydrogel Platform Enables Versatile Data Encryption And Decryption"

The building blocks of Hydrogels are being found in the COVID vaccine, and Hydrogels are being found in the blood of both the vaccinated and the unvaccinated. They are the so-called blood clots that are being found around the world. And these Hydrogels can now be programmed, encrypted and decrypted. According to Mihalcea, they are the substrate of the brain computer interface and the primary method of fusing humans with machines as she described by referencing MIT research in the article, “Hydrogel Interfaces for Merging Humans and Machines”

Elements which Mihalcea and Clifford Carnicom found with Near Infrared spectroscopy in the blood of the unvaccinated exposed to shedding and environmental contamination include hydrogel plastics such as polyenes, vinyl, nylon, kevlar, and spider silk proteins. As well as other nanotechnology signatures such as silicone and sulfur. This technology hijacks methyl groups, which are needed to detoxify and create Glutathione in the body. Hydrogels used for the encrypted programmable technology include polyvinyl alcohol and polycaprolacton. Both of these Hydrogels are listed as stealth nanoparticles in the Moderna patent for lipid nanoparticle composition. This suggests that not only those who received the shot have this hydrogel encryption technology in their bodies, but also those who have experienced shedding and environmental contamination. Which is just about everyone.

These hydrogels are known to be programmable and encrypted. This technology can behave as brain storage. It can store memories and visual information in an individual’s brain. And it can be chemical-induced to be securely encrypted and decrypted allowing for the secure recording and storage of confidential visual information. This provides a platform for secure financial transactions, which is a requirement for a digital ID.

MIT researchers have discussed how this very same technology can be used to fuse humans with machines. And while they’ve had problems working it out in the past, a recent paper has announced they’ve found success using the very same elements found in both the blood of the vaccinated and unvaccinated by Mihalcea and Carnicom.

In a lecture by Professor Sakhrat Khizroev at the University of Miami, it is discussed how advanced materials can be used for interfacing machines and the human brain. He references a research project funded by DARPA wherein magnetic nanoparticles are key to this technology. Mihalcea has published research that shows how the COVID shots alter torsion fields in the body and produce magnetism. A review by the Rand Corporation, “Brain Computer Interfaces: US Military Applications and Implications” discusses the convergence of human with machine.

In an interview with Big Pharma whistleblower, Karen Kingston, Kingston discusses this self assembly nanotechnology and how the spike protein is an engineered device, triggered by electromagnetic frequency, and how the Quantum Dots are gene editing technology. This nanotechnology appears to be distributed via Chemtrails, the food and water supply, medications, and in all of the scheduled vaccines for children. It has been found by multiple scientists in the blood of both the vaccinated and the unvaccinated. And the fact that this widespread technology is being ignored while the topic of mRNA is being pushed into the mainstream, is of great concern.

Mihalcea has shown that the new protocols being sold to the public as a way of reversing the negative effects of the COVID shots, have no effect on these Hydrogels. And it would seem that well over a billion people are infected with them.

While many are talking about an archaic implanted computer chip, it seems that the latest breakthrough technology has already been deployed without anyone’s consent.

The situation almost seems hopeless, but where there is a will there is a way. And now is not the time to hide our head in the sand. The human body is miraculous and our potential is endless. The more people addressing this dire situation, the better chances we have of finding a remedy.

https://rumble.com/v4dqd6t-hydrogels-in-covid-vaccine-as-programmable-human-interface.html

Vaccines Could Affect Mortality and Risks of Other Diseases: Study
A recent review found non-live vaccines tend to increase a person’s risks of all-cause mortality, as well.

Vaccines Could Affect Mortality and Risks of Other Diseases: Study
(OSORIOartist/Shutterstock)
Apart from potentially preventing a particular disease, vaccines may cause persistent nonspecific effects that can affect a person’s lifetime survival.

In a review published on Dec. 26, 2023, in Vaccine, researchers found that non-live vaccines such as influenza, COVID-19, hepatitis B, and diphtheria-tetanus-pertussis (DTaP) tend to cause adverse nonspecific effects (NSE), increasing a person’s risks of all-cause mortality and infections from other diseases.
A live vaccine contains a weakened form of the pathogen, which is less virulent but capable of replicating in the body, thus mimicking the actual disease progression. Non-live vaccines use inactivated viruses, fragments, or genes of the pathogen to trigger an immune response without pathogen replication.

Live vaccines elicit a much stronger immune defense, typically requiring only one shot, while non-live vaccines result in a weaker response, often necessitating multiple shots.

So far, research has identified several non-live vaccines that cause adverse NSEs, namely DTaP and Tdap, influenza H1N1, malaria, hepatitis B, inactivated polio, and COVID-19 mRNA vaccines.

The Vaccine study singled out DTaP, influenza, malaria, hepatitis B, and COVID-19 mRNA vaccines.

On the other hand, live vaccines such as the oral live polio vaccine, the Bacillus Calmette-Guérin (BCG) vaccine for tuberculosis, and the smallpox vaccines all have beneficial NSEs, according to the study.

“Live vaccines ... elicit epigenetic alterations that train the innate immune system and increase immunity to unrelated infections. In opposition, non‐live vaccines may promote ‘tolerance’ that increases susceptibility to unrelated illnesses,” the authors suggested.

The study was primarily based on decades of work from Danish researchers Dr. Christine Stabell Benn and Peter Aaby.

“Our work is a tribute to their great scientific work that has not been recognized,” biologist Alberto Rubio-Casillas, one of the study’s authors, told The Epoch Times.
Non-Live Vaccines Are Like ‘Ill-Prepared’ Army

“Historically, we’ve thought about the innate immune system as the first line of defense,” Dr. Benn told The Epoch Times.

It was thought that innate immunity couldn’t store memory. To use war as an analogy, the innate immune system’s “army” couldn’t learn from previous battles with pathogens. Adaptive immunity, on the other hand, could learn and be trained, forming antibodies to fight against the infection.

Therefore, for a long time, vaccines were evaluated based on their effects on the adaptive immune system, and antibodies were measured following vaccination.

However, researchers in the Netherlands have since shown that the innate immune system can be trained. After vaccinating people with the BCG vaccines and harvesting some of the patients’ innate immune cells, researchers found that after vaccination, the innate cells exhibited a more robust immune response and demonstrated improved clearance of tuberculosis, as well as other bacteria and fungi, when compared to patients’ prevaccination status.
However, the opposite was shown for non-live vaccines.
Thus, the innate immune system actually does learn something from its previous battles. This is called trained innate immunity.

Live vaccines, which mimic an actual disease, enhance the effectiveness of the innate immune system in defending against infections. Non-live vaccines, on the other hand, weaken the immune system’s ability to fend off infections.

In a TED talk, Dr. Benn compared infections to a competitive tennis match and live vaccines to a tennis coach. The tennis coach may change tactics and strategies, training the body to have “a wide variety of tricks” against the pathogen. Non-live vaccines, however, are like tennis ball machines that shoot out balls at a specific speed and spot. If a person only trains with a tennis ball machine, he or she will be less prepared for an actual match.

“So you may be ill-prepared and even worse off when a real opponent enters the court, and the balls start coming and hitting elsewhere than what you trained for,” Dr. Benn said.
Nonspecific Effects

Some vaccines result in positive NSEs, but others may result in overall adverse NSEs. The order in which vaccines are administered also factors in.

While non-live vaccines cause negative NSEs, administering a live vaccine after a non-live one neutralizes negative NSEs, Dr. Benn said.

This has been shown in studies evaluating the safety of measles vaccines, which are often given at about the same time as DTP, a non-live vaccine. Studies have found that if the measles vaccine is given after the DTP vaccine, there is an overall positive effect, whereas if this order is reversed, then there is a negative effect.

“It seems that effects are strongest as long as the vaccine is the most recent vaccine,” Dr. Benn said.

Dr. Benn added that the BCG vaccine has long-term beneficial NSEs “in spite of other vaccines being given afterward.”

The DTaP vaccine has arguably the most evidence of adverse NSEs. Girls who took the DTaP vaccine had a 50 percent higher risk of dying than boys who took it. Compared to girls who were DTaP-unvaccinated, vaccinated girls’ risk of dying was more than 2.5 times higher.
Dr. Benn’s studies have generally shown that girls are at a greater risk of developing adverse NSEs after being administered non-live vaccines.
Live Vaccines Replaced With Non-Live Vaccines

Non-live vaccines are increasingly replacing live vaccines. For example, live oral polio vaccines are no longer available on the U.S. market, and a non-live version is administered instead.

This substitution of live vaccines with non-live can pose potential health risks to the general immunity of the population, as the immune systems become less trained and potentially “lazy,” Dr. Benn said.

However, the main reason non-live vaccines are preferred over live vaccines is that they’re believed to be safer for people with depleted immune systems.

Since a live vaccine causes mild disease in the body, people with acquired immunodeficiency syndrome can develop a disease from the injection and may die since their bodies are unable to clear infections. Conversely, non-live vaccines comprise only disease components, so they can’t induce disease.

In this aspect, the “risk of getting the real disease with the live vaccines has been seen as a bigger threat than I think it deserves,” Dr. Benn said.

Research suggests that people with weaker immune constitutions because of age or chronic disease may sometimes benefit from having their immune systems trained using live vaccines.

In one study involving hospitalized older patients randomized to get the BCG vaccine or a placebo, the incidence of disease among those who took the BCG vaccine was about half the incidence of disease in the placebo group.
Health Authorities Still Skeptical

Despite the evidence suggesting the potential superiority of live vaccines, Dr. Benn’s research has been largely unacknowledged by the mainstays of academia.
“In my interpretation, whereas most researchers now acknowledge nonspecific effects, the major health organizations are reluctant to accept our findings because [the findings] imply the possibility that some vaccines may sometimes be harmful. So it is easier just to dismiss the whole thing,” she said.

“The vaccine skeptics, on the other side, may find that our observations on non-live vaccines confirm their worst fears—vaccines can be harmful—but they may be more reluctant to accept the beneficial effects. And their focus on the negative effects may make the vaccine supporters take an even more rigid stance.”

Immunologists now largely agree that some vaccines cause NSEs, but how these effects should be quantified remains controversial.

This is because the NSEs of vaccines are dependent on context, whereas a vaccine’s specific effects are generally considered context-independent. For example, females may make more antibodies than males, and younger people more than older, but most people still get some form of immunity.

“In contrast, because the nonspecific effects act on the broader innate and general immune system, they are dependent on other factors going on in the immune system ... like other health interventions that can alter and modify the nonspecific effects,” Dr. Benn said, noting that not everybody will have the same benefit.

Additionally, pharmaceutical companies may be more reluctant to produce live vaccines because they’re harder to culture and manufacture.

“If you have ever tried to bake with sourdough, it’s a little bit like live vaccines; they are very dependent on the temperature of the room, the water used to culture it, and so on,” Dr. Benn said.

“But basically, all the live vaccines I’m talking about—they have no patents anymore, they’re super cheap to produce, and it’s some of the cheapest vaccines we have to make.”
Vaccine Safety: NSEs Versus Adverse Events

Though live vaccines tend to cause positive NSEs, that isn’t to say they can’t potentially cause adverse events. NSEs are considered a separate entity from adverse events, Dr. Benn said. According to her, in rare cases, live vaccines may induce the actual disease in some recipients, such as people born with gross defects in their immune systems or who have severe immunodeficiencies, such as fulminant AIDS.

In the case of COVID-19 vaccines, live vaccines were likely not considered due to concerns about the formation of recombinant viruses when a vaccinated person comes into contact with the circulating viral strain.
However, despite their potential beneficial NSEs, the COVID-19 vaccines may still be associated with adverse events because of the presence of highly toxic spike proteins, which studies now link to long COVID and vaccine injuries.
In the medical textbook “The Immune Response,” the authors wrote that in isolated cases, live viral strains administered to individuals can regain virulence, causing disease in recipients. There’s also a risk of contamination with other viral strains during manufacturing.

https://www.theepochtimes.com/health/vaccines-can-impact-long-term-survival-from-other-diseases-study-5559895

Niall McCrae: The Shocking Testimony of the COVID-19 Nurses
"Overton observed that covid was killing only people in hospital, not at home nor among the homeless. The treatment regime was devised to end lives efficiently."

Lioness of Judah Ministry
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By Niall McCrae January 25, 2024

Most people seem to have moved on from Covid-19. They may occasionally refer to the ‘pandemic’, but they’d rather put it in the back of their minds. So it’s important that we critical thinkers don’t let the truth be buried by an official narrative that a deadly disease struck, radical interventions were necessary and then a miraculous vaccine saved millions of lives.

I know a nurse who worked throughout covid at the local intensive care unit. She believes that while the disease was exaggerated, it was distinct from the usual respiratory infections. Positively-tested patients admitted to her unit frequently suffered from asthmatic attacks. But such symptoms probably resulted from the terror induced in society by the government. And these patients were right to be terrified, because they faced being hooked on to a ventilator, totally dependent on overworked clinical staff, with no visitors allowed. As Roger Watson and I explained on TCW, many never took another natural breath.

The book What the Nurses Saw by Ken McCarthy features interviews with nurses who worked in the killing fields of US hospitals. An army veteran, Erin Marie Olszewski qualified and practised as a nurse in Florida. When New York became the American epicentre of Covid-19, she answered the urgent call for nurses from the city authorities. On arrival Olszewski was surprised to be boarded in a luxury hotel, having no work assigned but paid $10,000 weekly by the Federal Emergency Management Agency (FEMA). Clearly the crisis was not as bad as portrayed on the news.

Eventually Olszeswki was posted to a large public hospital, to find doctors and nurses following extraordinary and harmful protocols. Rather than a last resort, intubation to breathing machines was primary treatment. Andrew Cuomo, governor of New York, acted as medical dictator, ordering 30,000 ventilators. As paycheck employees following administrative policy, doctors abandoned their Hippocratic Oath, mistreating patients who walked into hospital but left via the morgue. Consent, so fundamental to healthcare, was reduced to doctors telling patients that their only chance of survival was mechanical ventilation.

According to Olszewski the throughput was like a factory production line, manufacturing the desired mortality data. Nurses, normally reticent in challenging decisions made by doctors in a rigid hierarchical culture, failed to put their patients first. They were complicit in state-sanctioned murder. This was particularly awful in the public hospitals of New York, where the majority of patients were poor and funded by Medicare, the federal system that incentivised use of ventilators, paying hospitals $39,000 per case. As patients were expected to perish, little care was given and they lay unwashed on their faeces. As soon as a corpse was carried out, the apparatus was used for the next admission.

Another whistle-blower, Nicole Sirotek, observed that institutional power was rarely needed to ensure nurses’ compliance with the covid regime. The nursing staff policed themselves, making clear that any dissident would be ostracised, imperilling their professional career.

According to Kimberley Overton, a nurse in Nashville, nurses were told not to spend time near patients’ beds to reduce spread of the virus, despite their full exposure in wards dedicated to covid cases. This was unnecessary cruelty. Patients were deliberately isolated, deprived of nutrition and water (drips were regarded as sufficient fluid intake), and communication was impossible with nurses covered head-to-toe in PPE.

Wards should have had a warning at the entrance to abandon hope, all ye who enter here. Overton observed that covid was killing only people in hospital, not at home nor among the homeless. The treatment regime was devised to end lives efficiently. Ventilators were key to this, as Overton described:

‘In all my career, I had never seen the PEEP (positive end-expiratory pressure) settings set so high. Typically we see it at about five, and we were seeing that pressure at fifteen. We were blowing people’s lungs out.’

To sedate intubated patients, high doses of fentanyl were administered. It was standard practice to conduct a breathing test on patients after a day on the ventilator. They almost always failed, because of the respiratory suppressant effect of fentanyl. But the most dubious intervention was remdesivir, declared by Anthony Fauci as the ‘drug of choice’ for covid sufferers. This antiviral was originally tested on Ebola cases, but over half died in the trial. For covid a rushed and incomplete trial was claimed as evidence of its efficacy, but the drug often caused kidney failure.

British readers will be particularly interested in the account of Kevin Corbett. I spoke alongside Corbett at Trafalgar Square in September 2020, when he warned the mass audience of the ‘Nazification’ of the NHS. Covid-19 was not panic by the authorities, but a deliberate and planned takeover of the healthcare system. Individual care, to which taxpaying citizens believe they are entitled, was replaced by Nazi-style viral hygiene. Petty dictators in matrons’ uniform had never enjoyed so much power: no mask, no shift. The rationale for covid rules was never therapeutic, but exertion of totalitarian authority.

The NHS was bad, but American hospitals were much worse. The profit incentive was irresistible to unscrupulous administrators, with incredibly high payments for concluded cases (i.e. deaths). Another factor is that senior managers and clinicians of Democrat leanings were dealing with patients of lower socio-economic status and populist Trump proclivities. Vaccination rates in the US confirmed this political divide.

The motto, should another pandemic be declared (Disease X, as the media are priming), is ‘stay out of hospital’. That’s a terrible indictment on doctors and nurses, so many of whom broke their code of conduct to participate in crimes against humanity.

What the Nurses Saw should be required reading for politicians, administrators and clinicians who uncritically accepted and applied the Covid-19 orthodoxy. McCarthy’s compendium of bedside experiences shows what happens when all professional and moral standards are abandoned in favour of a globally enforced problem-reaction-solution contrivance. As Bill Gates excitedly foresees, there will be a ‘next time’, and if as a society we do not learn the lessons from the pseudopandemic and confront the evil-doers, we deserve whatever follows.

Source: conservativewoman.co.uk

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https://lionessofjudah.substack.com/p/niall-mccrae-the-shocking-testimony


https://donshafi911.blogspot.com/2024/01/niall-mccrae-shocking-testimony-of.html

The crimes of Winston Churchill
Crimes of Britain
Churchill was a genocidal maniac. He is fawned over in Britain and held up as a hero of the nation — voted ‘Greatest Briton’ of all time. Below is the real history of Churchill. The history of a white supremacist whose hatred for Indians led to four million starving to death. The man who loathed Irish people so much he conceived different ways to terrorise them. A racist thug who waged war on black people across Africa and in Britain. This is the trial of Winston Churchill, the enemy of all humanity.


Afghanistan:

Churchill found his love for war during the time he spent in Afghanistan. While there he said “all who resist will be killed without quarter” because the Pashtuns need “recognise the superiority of race”. He believed the Pashtuns needed to be dealt with, he would reminisce in his writings about how he partook in the burning villages and peoples homes.

“We proceeded systematically, village by village, and we destroyed the houses, filled up the wells, blew down the towers, cut down the great shady trees, burned the crops and broke the reservoirs in punitive devastation.” — Churchill on how the British carried on in Afghanistan, and he was only too happy to be part of it.

Churchill would also write of how “every tribesman caught was speared or cut down at once”. Proud of the terror he helped inflict on the people of Afghanistan Churchill was well on the road to becoming a genocidal maniac.

Cuba:


Churchill wrote that he was concerned Cuba would turn in to “another black republic” in 1896. By “another” he was referring to Haiti which was the first nation in modern times to abolish slavery. Haiti has been punished for doing so ever since.

Egypt:


“Tell them that if we have any more of their cheek we will set the Jews on them and drive them into the gutter, from which they should never have emerged” — Winston Churchill on how to deal with Egypt in 1951.

Greece:


The British Army under the guidance of Churchill perpetrated a massacre on the streets of Athens in the month of December 1944. 28 protesters were shot dead, a further 128 injured. Who were they? Were they supporters of Nazism? No, they were in fact anti-Nazis.

The British demanded that all guerrilla groups should disarm on the 2nd December 1944. The following day 200,000 people took to the streets, and this is when the British Army on Churchill’s orders turned their guns on the people. Churchill regarded ELAS (Greek People’s Liberation Army) and EAM (National Liberation Front) as “miserable banditti” (these were the very people who ran the Nazis out). His actions in the month of December were purely out of his hatred and paranoia for communism.

The British backed the right-wing government in Greece returned from exile after the very same partisans of the resistance that Churchill ordered the murder of had driven out the Nazi occupiers. Soviet forces were well received in Greece. This deeply worried Churchill. He planned to restore the monarchy in Greece to combat any possible communist influence. The events in December were part of that strategy.

In 1945, Churchill sent Charles Wickham to Athens where he was put in charge of training the Greek security police. Wickham learned his tricks of the trade in British occupied Ireland between 1922–1945 where he was a commander of the colonial RUC which was responsible for countless terror.

In April 1945 Churchill said “the [Nazi] collaborators in Greece in many cases did the best they could to shelter the Greek population from German oppression” and went on to say “the Communists are the main foe”.

Guyana:


Churchill ordered the overthrowing of the democratically elected leader of ‘British Guiana’. He dispatched troops and warships and suspended their constitution all to put a stop to the governments nationalisation plan.

India:


“I’d rather see them have a good civil war”. — Churchill wishing partition on India

Very few in Britain know about the genocide in Bengal let alone how Churchill engineered it. Churchill’s hatred for Indians led to four million starving to death during the Bengal ‘famine’ of 1943. “I hate Indians. They are a beastly people with a beastly religion” he would say.

Bengal had a better than normal harvest during the British enforced famine. The British Army took millions of tons of rice from starving people to ship to the Middle East — where it wasn’t even needed. When the starving people of Bengal asked for food, Churchill said the ‘famine’ was their own fault “for breeding like rabbits”. The Viceroy of India said “Churchill’s attitude towards India and the famine is negligent, hostile and contemptuous”. Even the right wing imperialist Leo Amery who was the British Secretary of State in India said he “didn’t see much difference between his [Churchill] outlook and Hitler’s”. Churchill refused all of the offers to send aid to Bengal, Canada offered 10,000 tons of rice, the U.S 100,000. Churchill was still swilling champaign while he caused four million men, women and children to starve to death in Bengal.

Throughout WW2 India was forced to ‘lend’ Britain money. Churchill moaned about “Indian money lenders” the whole time.

The truth is Churchill never waged war against fascism. He went to war with Germany to defend the British Empire. He moaned “are we to incur hundreds of millions of debt for defending India only to be kicked out by the Indians afterwards”.

In 1945 Churchill said “the Hindus were race protected by their mere pullulation from the doom that is due”. The Bengal famine wasn’t enough for Churchill’s blood lust, he wished his favourite war criminal Arthur Harris could have bombed them.

When India was partitioned in 1947 millions of people died and millions more were displaced. Churchill said that the creation of Pakistan, which has been an imperialist outpost for the British and Americans since its inception, was Britain’s “bit of India”.

Iran:


“A prize from fairyland beyond our wildest dreams” — Churchill on Iran’s oil

When Britain seized Iran’s oil industry Churchill proclaimed it was “a prize from fairyland beyond our wildest dreams”. He meddled in Iranian affairs for decades doing his utmost to exclude Iranians from their natural resources. Encouraging the looting of the nation when most lived in severe poverty.

In June 1914 Churchill proposed a bill in the House of Commons that would see the British government become become the major shareholder of the Anglo-Iranian Oil Company. The company would go on to refrain from paying Iran its share of the dividends before paying tax to the British exchequer. Essentially the British were illegally taxing the Iranian government.

When the nationalist government of Mohammad Mosaddegh threatened British ‘interests’ in Iran, Churchill was there, ready to protect them at any cost. Even if that meant desecrating democracy. He helped organise a coup against Mosaddegh in August 1953. He told the CIA operations officer that helped carry out the plan “if i had been but a few years younger, I would have loved nothing better than to have served under your command in this great venture”.

Churchill arranged for the BBC to send coded messages to let the Shah of Iran know that they were overthrowing the democratically elected government. Instead of the BBC ending their Persian language news broadcast with “it is now midnight in London” they under Churchill’s orders said “it is now exactly midnight”.

Churchill went on to privately describe the coup as “the finest operation since the end of the war [WW2]”. Being a proud product of imperialism he had no issue ousting Mosaddegh so Britain could get back to sapping the riches of Iran.

Iraq:


“I am strongly in favour of using poisoned gas against the uncivilized tribes… it would spread a lively terror.” — Churchill on the use of gas in the Middle East and India

Churchill was appointed ‘Secretary of State for the Colonies’ in 1921. He formed the ‘Middle East Department’ which was responsible for Iraq. Determined to have his beloved empire on the cheap he decided air power could replace ground troops. A strategy of bombing any resistance to British rule was now employed.

Several times in the 1920s various groups in the region now known as Iraq rose up against the British. The air force was then put into action, indiscriminately bombing civilian areas so to subdue the population.

Churchill was also an advocate for the use of mustard and poison gases. Whilst ‘Secretary for War and Air’ he advised that “the provision of some kind of asphyxiating bombs” should be used “for use in preliminary operations against turbulent tribes” in order to take control of Iraq.

When Iraqi tribes stood up for themselves, under the direction of Churchill the British unleashed terror on mud, stone and reed villages.

Churchill’s bombing of civilians in ‘Mesopotamia’ (Kurdistan and Iraq) was summed up by war criminal ‘Bomber Harris’:

“The Arab and Kurd now know what real bombing means within 45 minutes a full-sized village can be practically wiped out, and a third of its inhabitants killed or injured, by four or five machines which offer them no real target, no opportunity for glory as warriors, no effective means of escape”. — Arthur ‘Bomber’ Harris.

Ireland:


“We have always found the Irish a bit odd. They refuse to be English” — Churchill

In 1904 Churchill said “I remain of the opinion that a separate parliament for Ireland would be dangerous and impractical”. Churchill’s ancestry is linked to loyalism to Britain. He is a direct descendent of the ‘Marquis of Londonderry’ who helped put down the 1798 United Irishmen rising. He would live up to his families reputation when it came to suppressing revolutionary forces in Ireland.

The Black and Tans were the brainchild of Churchill, he sent the thugs to Ireland to terrorise at will. Attacking civilians and civilian property they done Churchill proud. Rampaging across the country carrying out reprisals. He went on to describe them as “gallant and honourable officers”.

It was also Churchill who conceived the idea of forming the Auxiliaries who carried out the Croke Park massacre. They fired into the crowd at a Gaelic football match, killing 14. Of course this didn’t fulfill Churchill’s bloodlust to repress a people who he described as “odd” for their refusal “to be English”.

He went on to advocate the use of air power in Ireland against Sinn Fein members in 1920. He suggested to his war advisers that aeroplanes should be dispatched with orders to use “machine-gun fire or bombs” to “scatter and stampede them”.

Churchill was an early advocate for the partitioning of Ireland. During the treaty negotiations he insisted on retaining navy bases in Ireland. In 1938 those bases were handed back to Ireland. However in 1939 Churchill proposed capturing Berehaven base by force.

In 1941 Churchill supported a plan to introduce conscription in the North of Ireland.

Churchill went on to remark”the bloody Irish, what have they ever done for our wars”, reducing Ireland’s merit to what it might provide by way of resources (people) for their imperialist land grabs.

Kenya:


Britain declared a state of emergency in Kenya in 1952 to protect its system of institutionalised racism that they established throughout their colonies so to exploit the indigenous population. Churchill being your archetypical British supremacist believed that Kenya’s fertile highlands should be only for white colonial settlers. He approved the forcible removal of the local population, which he termed “blackamoors”.

At least 150,000 men, women and children were forced into concentration camps. Children’s schools were shut by the British who branded them “training grounds for rebellion”. Rape, castration, cigarettes, electric shocks and fire all used by the British to torture the Kenyan people on Churchill’s watch.

In 1954 during a British cabinet meeting Churchill and his men discussed the forced labour of Kenyan POWs and how to circumvent the constraints of two treaties they were breaching:

“This course [detention without trial and forced labour] had been recommended despite the fact that it was thought to involve a technical breach of the Forced Labour Convention of 1930 and the Convention on Human Rights adopted by the Council of Europe”

The Cowan Plan advocated the use of force and sometimes death against Kenyan POWs who refused to work. Churchill schemed to allow this to continue.

Caroline Elkins book gives a glimpse into the extent that the crimes in Kenya were known in both official and unofficial circles in Britain and how Churchill brushed off the terror the colonial British forces inflicted on the native population. He even ‘punished’ Edwina Mountbatten for mentioning it, “Edwina Mountbatten was conversing about the emergency with India’s prime minister, Jawaharlal Nehru, and the then colonial secretary, Oliver Lyttleton. When Lyttleton commented on the “terrible savagery” of Mau Mau… Churchill retaliated, refusing to allow Lord Mountbatten to take his wife with him on an official visit to Turkey”.

Palestine:


“I do not agree that the dog in a manger has the final right to the manger.”

In 2012 Churchill was honoured with a statue in Jerusalem for his assistance to Zionism.

He regarded the Arab population Palestine to be a “lower manifestation”. And that the “dog in a manger has the final right to the manger”, by this he meant the Arabs of Palestine.

In 1920 Churchill declared “if, as may well happen, there should be created in our own lifetime by the banks of the Jordan a Jewish State under the protection of the British Crown which might comprise three or four millions of Jews, an event will have occurred in the history of the world which would from every point of view be beneficial”.

A year later in Jerusalem he told Palestinian leaders that “it is manifestly right that the Jews, who are scattered all over the world, should have a national centre and a National Home where some of them may be reunited. And where else could that be but in this land of Palestine, with which for more than 3,000 years they have been intimately and profoundly associated?”.

At the Palestine Royal Commission (Peel) of 1937, Churchill stated that he believed in intention of the Balfour Declaration was to make Palestine an “overwhelmingly Jewish state”.

He went on to also express to the Peel Commission that he does “not admit for instance, that a great wrong has been done to the Red Indians of America or the black people of Australia. I do not admit that a wrong has been done to these people by the fact that a stronger race, a higher-grade race, a more worldly wise race to put it that way, has come in and taken their place”.

Four years later he wrote of his desire for a ‘Jewish state’to be established after the second war world. The establishment of the colonial settler state however was done by the British Labour Party under Attlee, who were always there to back their Tory counterparts when it came to British foreign policy.

Russia:


Churchill’s hatred and paranoia about communism saw him suggest that an atomic bomb should be dropped on the Kremlin. He believed this would “handle the balance of power”.

Saudi Arabia:


“My admiration for him [Ibn Saud] was deep, because of his unfailing loyalty to us.” — Churchill

Prior to 1922 the British were paying Ibn Saud a subsidy of £60,000 a year. Churchill, then Colonial Secretary, raised it to £100,000.

Churchill knew full well of the dangers of wahhabism. He gave a speech to the House of Commons in 1921 where he stated that Ibn Saud’s followers “hold it as an article of duty, as well as of faith, to kill all who do not share their opinions and to make slaves of their wives and children. Women have been put to death in Wahhabi villages for simply appearing in the streets… [they are] austere, intolerant, well-armed and bloodthirsty”. He was however content to use the House of Saud’s twisted ideology for the benefit of British imperialism.

Churchill went on to write that his “admiration for him [Ibn Saud] was deep, because of his unfailing loyalty to us”. He showered Ibn Saud with money and presents — gifting Ibn Saud a special Rolls-Royce in the mid 1940s.

South Africa:


Thousands were sent to British run concentration camps during the Boer wars. Churchill summed up his time in South Africa by saying “it was great fun galloping about”.

Churchill wrote that his only “irritation” during the Boer war was “that Kaffirs should be allowed to fire on white men”.

It was Churchill who planted the seed to strip voting rights from black people in South Africa. In June 1906, Churchill argued that Afrikaners should be allowed a self-rule which would mean black people would be excluded from voting.

He went on to state to Parliament that “we must be bound by the interpretation which the other party places on it and it is undoubted that the Boers would regard it as a breach of that treaty if the franchise were in the first instance extended to any persons who are not white”.

In conclusion:

There have been a number of attempts to rehabailtate the image of the British Empire in Britain in recent years. Particularly via the medium of cinema. The film Darkest Hour didn’t show you anything about Churchill’s crimes. On the contrary it presented him as a hero. Gary Oldham won an Oscar for his portrayal of one of the most evil, imperialists ever.

British Nationalist groups in Britain hold Churchill up as their posterboy. And so they should. He was a racist to the core. In response to migration from the Caribbean to Britain he said England should “be kept white”. Throughout worl war two his cabinet obsessed over British people viewing American Black GI’s favourably. They were concerned that they would fraternised with white English women. A true believer in white supremacy, Churchill blamed the Native American and Aboriginal Australian people for their genocides. He said he did “not admit that a great wrong has been done to the red Indians and the black people of Australia.”

Winner of the Noble Prize in Literature, Churchill actually plagiarised his most well known speech from an Irish Republican called Robert Emmet who was hanged and then beheaded by the British in 1803. Winston’s famous “we shall fight them on beaches” line was lifted from Emmet’s speech from the dock.

When it came to his own fellow Brits he was less than complimentary and displayed a deep hatred for the working classes. He suggested “100,000 degenerate Britons should be forcibly sterilised”. And that for “tramps and wastrels there ought to be proper labour colonies where they could be sent”.

It needs to be put once and for all that Churchill was despicable, racist, war criminal. Some will argue his “sins” are expiated for his actions during the second world war. It is nothing but nonsense to suggest Churchill went out to fight fascism. He lauded Mussolini as a “roman genius”, donated to Nazi war criminal Erich Von Manstien’s criminal defence and sought to desperatly cling on to the British Empire from which Hitler himself took inspiration for his Reich. What we have to remember is Churchill was not a uniquely villianous British Prime Minister. He was not out of ordinary but in fact a true representation of Britain.





https://medium.com/@write_12958/the-crimes-of-winston-churchill-c5e3ecb229b3

As of my last knowledge update in January 2022, several technology giants dominated the industry. Keep in mind that the status and rankings of companies may have changed since then. As of my last update, some of the prominent technology giants included:

Apple Inc. (AAPL): Known for its consumer electronics, software, and services, Apple is a major player with products like the iPhone, iPad, Mac, and various software services.

Microsoft Corporation (MSFT): A leader in software, hardware, and cloud services, Microsoft is well-known for products like Windows, Office Suite, Azure cloud services, and Xbox.

Alphabet Inc. (GOOGL): The parent company of Google, Alphabet is a major player in online search, advertising, and various technology ventures. Google is known for its search engine, Android operating system, and services like Gmail and Google Maps.

Amazon.com Inc. (AMZN): Beyond being the world's largest online retailer, Amazon is a major player in cloud computing (Amazon Web Services or AWS), streaming services (Amazon Prime Video), and various other technological areas.

Facebook, Inc. (now Meta Platforms, Inc.) (FB): The company behind the world's largest social media platform, Facebook. It also owns other popular platforms like Instagram and WhatsApp.

Tesla, Inc. (TSLA): Known for its electric vehicles, energy storage solutions, and solar products, Tesla is a key player in the automotive and clean energy industries.

Samsung Electronics Co., Ltd.: A South Korean conglomerate, Samsung is a major player in various technology sectors, including consumer electronics, semiconductors, and telecommunications.

Intel Corporation (INTC): A leading semiconductor company, Intel is known for manufacturing microprocessors and other semiconductor components.

IBM (International Business Machines Corporation): A pioneer in the computing industry, IBM is known for its hardware, software, and services, including mainframes, cloud computing, and artificial intelligence.

NVIDIA Corporation (NVDA): Renowned for its graphics processing units (GPUs), NVIDIA is a key player in the gaming industry and has expanded into areas like artificial intelligence and data centers.

Please note that the technology industry is dynamic, and the positions of companies can change due to various factors such as market trends, innovations, and business strategies. Additionally, new companies may have risen to prominence since my last update.

Artificial Intelligence (AI) refers to the simulation of human intelligence in machines that are programmed to think and learn like humans. The goal of AI is to create systems that can perform tasks that typically require human intelligence, such as visual perception, speech recognition, decision-making, and language translation.

There are two main types of AI: narrow or weak AI and general or strong AI.

Narrow or Weak AI: This type of AI is designed and trained for a particular task. It is limited to the specific function it was created for and does not possess the broad range of abilities that a human brain has. Examples include voice assistants, image recognition software, and recommendation systems.

General or Strong AI: This is a more advanced form of AI that can understand, learn, and apply knowledge across a wide range of tasks, similar to human intelligence. General AI has the ability to adapt and perform tasks in diverse domains, but as of now, it remains largely theoretical and has not been achieved.

AI can be further categorized into different approaches and techniques, including machine learning, natural language processing, computer vision, and robotics. Machine learning, in particular, is a subset of AI that focuses on developing algorithms that allow systems to learn and improve from experience without being explicitly programmed.

AI has numerous applications across various industries, including healthcare, finance, education, transportation, and more. As technology continues to advance, AI is expected to play an increasingly important role in shaping the future of automation and intelligent decision-making. However, ethical considerations and the responsible development of AI are crucial to ensure its positive impact on society.

Vaccine Micromachines Dr Ana Mihalcea on Live Blood Analysis, Nanotech & EDTA Chelation




https://rumble.com/v3yd69w-vaccine-micromachines-dr-ana-mihalcea-on-live-blood-analysis-nanotech-and-e.html

A supercomputer is an extremely powerful computing machine with the ability to process massive amounts of data and perform complex calculations at extremely high speeds. These machines are used for tasks that require immense computational power, such as weather modeling, nuclear simulations, molecular modeling, and other scientific and engineering applications.

Key characteristics of supercomputers include:

Processing Power: Supercomputers are designed to handle a huge number of calculations per second (measured in FLOPS - Floating Point Operations Per Second). This processing power allows them to tackle complex problems that would be impractical or impossible for traditional computers.

Parallel Processing: Supercomputers often use parallel processing, where multiple processors work simultaneously on different parts of a problem. This parallelism allows for faster computation and the ability to handle large datasets.

Specialized Architecture: Supercomputers may have a unique and specialized architecture tailored to the specific tasks they are designed to perform. This can include vector processing, custom hardware accelerators, or other optimizations.

High-Speed Interconnects: Communication between the individual processors in a supercomputer is crucial. High-speed interconnects allow for efficient data exchange and coordination among the different components.

Large Memory Capacity: Supercomputers typically have a significant amount of RAM (Random Access Memory) to support the processing of large datasets and complex algorithms.

Cooling Systems: The immense computational power of supercomputers generates a substantial amount of heat. Advanced cooling systems, such as liquid cooling or specialized air-cooling solutions, are essential to maintain optimal operating temperatures.

Supercomputers play a crucial role in advancing scientific research, solving complex problems, and simulating real-world scenarios. Organizations and research institutions around the world use supercomputers to tackle challenges in fields like climate modeling, astrophysics, drug discovery, and more. Examples of supercomputers include Summit, Fugaku, and Tianhe-2. The field of supercomputing is dynamic, with new and more powerful systems regularly being developed to push the boundaries of computational capability.

Computer types


There are various types of computers designed for different purposes, and they can be categorized based on their size, performance, and intended use. Here are some common types of computers:

Personal Computers (PCs):
Desktops: Traditional computers that consist of a separate monitor, keyboard, and processing unit.
Laptops: Portable computers with an integrated screen and keyboard, designed for on-the-go use.
Workstations: High-performance computers optimized for tasks such as graphic design, video editing, and scientific applications.

Servers:
File Servers: Manage and store files for a network of computers.
Web Servers: Host websites and web applications.
Database Servers: Handle database-related tasks for applications.

Mainframes:
Powerful, large-scale computers designed for handling complex computing tasks and serving multiple users simultaneously.

Supercomputers:
Extremely powerful computers used for scientific and engineering calculations, weather modeling, and other complex simulations.

Embedded Computers:
Integrated into other devices or systems, such as cars, appliances, industrial machines, and medical devices.

Smartphones and Tablets:
Mobile devices that combine computing power with communication capabilities.

Gaming Consoles:
Specialized computers designed for playing video games.

Wearable Computers:
Devices like smartwatches and fitness trackers that are worn on the body.

Quantum Computers:
Experimental computers that use the principles of quantum mechanics for processing information.

Single-Board Computers:
Compact computers with all components, including CPU, memory, and I/O, integrated onto a single circuit board (e.g., Raspberry Pi).

Microcontrollers:
Embedded computers with a microprocessor, memory, and input/output peripherals, commonly used in electronic devices and appliances.

Cloud Computers:
Virtualized computing resources accessed over the internet, providing scalable and on-demand services.

These are just a few examples, and advancements in technology may lead to the development of new types of computers in the future. Each type of computer serves specific purposes and is designed to meet the requirements of particular applications.

Neuromorphic Computers:
Designed to mimic the structure and function of the human brain, these computers aim to perform tasks related to artificial intelligence and machine learning more efficiently.

HPC (High-Performance Computing) Clusters:
Groups of interconnected computers that work together to solve complex computational problems, often used in scientific research and simulations.

Network Computers:
Computers optimized for network tasks, often used in data communication and network management.

Rugged Computers:
Built to withstand harsh environmental conditions, such as extreme temperatures, moisture, and vibrations. Commonly used in military applications and outdoor fieldwork.

Kiosks:
Computers designed for public use, often with specialized software for specific tasks like information retrieval, ticket purchasing, or self-checkout.

Thin Clients:
Lightweight computers that rely on a central server for processing and storage, commonly used in environments where centralized management is preferred.

Digital Signal Processors (DSPs):
Specialized microprocessors designed for efficient processing of signals in applications like audio and video processing.

AI Accelerators:
Hardware specifically designed to accelerate artificial intelligence workloads, often used in conjunction with traditional CPUs and GPUs.

Robotics Controllers:
Computers that control the operation of robots, providing the necessary computational power for tasks like sensing, decision-making, and motion control.

Bioinformatics Servers:
Computers used for processing and analyzing biological data, such as DNA sequences and protein structures.

POS (Point of Sale) Systems:
Computers used in retail environments for processing transactions, managing inventory, and tracking sales.

Educational Computers:
Computers designed for educational purposes, often with features tailored to support learning and skill development in students.

The field of computing is diverse, and specialized computers continue to be developed to meet the demands of specific industries and applications. Advances in technology often lead to the creation of new types of computers with improved capabilities and functionalities.