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  • Dr. Charles Morgan

Dr. Charles Morgan

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cybertortureinfo@proton.me
Tuesday, 13 May 2025 / Published in Media

Dr. Charles Morgan

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🧠 MK Ultra 2.0: Mind Hacking, Memory Control, and Remote Neurotech Are Here — Dr. Charles Morgan Confirms It

📍 Georgetown University Lecture by Dr. Charles Morgan, Former CIA & National Security Specialist


📚 Table of Contents

  1. 🔬 Who Is Dr. Charles Morgan?
  2. 🧠 Brain-to-Machine Interfaces (BMI)
  3. 🧍‍♂️➡️🧍‍♀️ Brain-to-Brain Communication
  4. 🧪 Synthetic Biology, CRISPR & Gene Slicing
  5. 🔐 DNA as Storage & Encryption
  6. 🧠🧼 Memory Erasure & False Memory Implantation
  7. 🦠 Biohacking, Night Vision & Enhanced Senses
  8. 🐀 Remote-Controlled Rats & Biological Drones
  9. 😴 Asleep But Interrogated: Subconscious Sampling
  10. 🧬 DARPA’s Deep Brain Implant Program
  11. 🛡️ Countermeasures & Final Thoughts
  12. 🔗 References & Resources

1. 🔬 Who Is Dr. Charles Morgan?

Dr. Morgan is a professor of national security studies at the University of New Haven, with extensive work for:

  • 🕵️‍♂️ CIA (Central Intelligence Agency)
  • 🧪 Intelligence Science Board
  • 🧠 U.S. Army’s SERE (Survival, Evasion, Resistance, Escape) School

His specialty? The “human domain” of intelligence — neuropsychology, deception, and mind manipulation.


2. 🧠 Brain-to-Machine Interfaces (BMI)

In 2008, labs enabled monkeys to control robotic arms with their thoughts. By 2012, humans with paralysis were doing the same. This wasn’t theoretical — it was live on camera:

🎯 Electrodes on the motor cortex ➡️ decode neural signals ➡️ move robotic arms
🧠 Mind over machine.

Keywords: BCI, neuroprosthetics, motor cortex mapping

✅ Confirmed applications:

  • Feeding oneself via robotic limbs
  • Brain-computer learning using video game feedback loops

🔗 University of Pittsburgh’s work


3. 🧍‍♂️➡️🧍‍♀️ Brain-to-Brain Communication (B2B)

Dr. Morgan described experiments where one person controlled another’s hand remotely via:

  • EEG from “sender”
  • Internet connection
  • Transcranial Magnetic Stimulation (TMS) on “receiver”

💥 Result: The receiver’s hand moves involuntarily.

This is non-invasive and scalable — brainwaves used to possess another person’s motor function.

🎯 Already shown at:

  • 🧠 University of Washington (Dr. Andrea Stocco)
  • 🧪 Published studies on EEG-to-TMS coupling

4. 🧬 Synthetic Biology, CRISPR & Gene Slicing

Dr. Morgan likens this to nuclear weapons-level technology:

  • 🧬 CRISPR enables editing of human DNA on the fly.
  • 🧫 Synthetic cells can produce any chemical, protein, or toxin.
  • 🧬 DNA slicing + programming = designer bio-weapons.

📌 Use-cases:

  • 🧠 Designer genetics to survive low-oxygen combat zones
  • 🐠 Prolonged underwater operation via custom biology
  • 🧫 Targeted assassination via genetically keyed toxins

🔗 J. Craig Venter Institute
🔗 NIH on CRISPR


5. 🔐 DNA as Storage & Encryption

Morgan reveals:

“You can encode entire movies into bacteria DNA. And they reproduce with the file intact.”

🧬 DNA is now a data storage medium — one gram holds 215 petabytes.

🕵️ Implications:

  • Hide data on the skin (spores/bacteria)
  • Pass secrets through customs undetected
  • Use DNA Steganography (China has already published this)

🔗 Harvard’s George Church encodes movie in DNA


6. 🧠🧼 Memory Erasure & False Memory Implantation

💊 Memory erasing chemicals like PKM-zeta inhibitors already delete short-term memory in mice.

🧠 Scientists now:

  • Induce false memories (e.g. “Lost in a mall” study)
  • Change witness identification under stress
  • Modify traumatic memory to eliminate PTSD

🧪 Human memory can be manipulated with phrasing, video, or chemicals. You won’t know it’s fake.

🔗 Beth Loftus research


7. 🦠 Biohacking, Night Vision & Enhanced Senses

👁️ Researchers used CE6 eye drops to give humans night vision for 160+ feet.

🐀 Rats have been granted a sixth sense — infrared detection — using:

  • Brain implants
  • Micro-electrode stimulation

🔥 Military uses include:

  • Seeing heartbeats through walls
  • Thermal, radiation, or vibration perception

8. 🐀 Remote-Controlled Rats & Biological Drones

Yes. Rats are being remote-controlled using brain implants.

🧠 Rat A solves a task ➡️ Signal is copied into Rat B’s brain ➡️ Rat B performs same action without learning

💡 DARPA has quietly received approval for 500 deep brain implants in humans.

🎯 Non-human drones controlled by human thought are already being explored. Think:

  • Roach drones
  • Swarm control
  • Hive-brain syncing

9. 😴 Asleep But Interrogated: Subconscious Sampling

French researchers have shown:

You can teach someone in their sleep, and they won’t know they learned it.

🤯 Implications:

  • Extract secrets while someone sleeps
  • Implant new skills or memories unconsciously
  • Real-time guilty knowledge detection

🎯 This bypasses informed consent and could be used in covert interrogation.

🔗 Sleep learning and memory reactivation


10. 🧬 DARPA’s Deep Brain Implants

DARPA reportedly got approval for 500+ human brain implants.

🤖 Purpose:

  • Hive mind problem solving
  • Thought-to-drone interface
  • Deep memory modulation
  • Neural data gathering

⏱ Timeline:

  • Monkeys (2009–2012): motor function control
  • Humans (2012–2015): robotic limb control
  • Rats (2016+): sensory transfer
  • Humans (now): real-world B2B communication

🔗 DARPA BRAIN Initiative


11. 🛡️ Countermeasures & TI Awareness

🎯 Targeted Individuals should note:

✅ These programs are real and weaponized
✅ Non-consensual testing is now plausible via biohacking
✅ Advanced tech like TMS, CRISPR, and signal hijacking is now non-invasive

🛡️ Countermeasures:

  • Faraday protection — for EMF and RF shielding
  • Routine memory journaling — to detect gaps or implants
  • Sleep audio interference — to prevent subconscious encoding
  • Spectral analysis — for TMS and EMF waveform detection
  • Biometric anomaly logging — track temperature, HRV, EMG activity

More countermeasures: TI Toolkit: https://cybertorture.com/category/tools


12. 🔗 References & Resources

📄 Full lecture transcript: Dr. Charles Morgan, Georgetown University
📚 “DARPA Invests in Next-Gen Biointerfaces” – DARPA
🧬 CRISPR Tech Overview – NIH
📽️ Brain-to-Brain Rat Video – Duke University
📊 Memory Implant Study – Nature
🧠 Beth Loftus – False Memory Research
💾 DNA Movie Storage Study


🚨 Conclusion: This Is Not the Future — It’s the Present

From remote-controlled rats to human thought transference, and from DNA-based hard drives to deep memory erasure, Dr. Morgan confirms what TIs already know:

The government and research institutions are years ahead of what the public believes — and they’re not asking permission.

💣 This tech is deployed.
🧬 This tech is hackable.
🧠 This tech targets YOU.

Stay alert. Stay informed. Stay protected.

📢 Share this post and subscribe to our TI alert system.

Transcript:

I know you guys me through that or today we have dr. teleporting to talk to
us about neuroscience and psychology and
the whole whole gamut of things right now he is a professor of national security studies at the University of
New Haven this focus is teaching national security studies domestic and
international intelligence analysis and issues in deception dr. Morgan is
developing a concentration in the human aspects intelligence analysis and say psychological operations arenas that are
relevant to the ability to me he has a pretty robust background with military folks doing research at sere school
helping with selection processes for special operation forces done for Bragg
so thank you it’s nice to be here
actually was an AVI it wasn’t army but I’ve done more work with the army to think over all these years than I ever did with the Navy so
so I would like to talk to you a little bit about state is something I was asked to do in 2010 and 2011 I was getting
ready to leave over the CIA where I’d worked for a number of years and the intelligence Science Board said could
you give us a brief what’s instant what’s in store for us in the future I was like I don’t know predicting futures
really hard so I told my boss at the time I said well I think the best I’ll do is make an estimate over what I think
is going to happen in the next five years given certain technologies that were being developed at the time and
this is a bit of an extension of that I presented to the SSG and it was some
information I think some people didn’t know and I think the it’s good for people to be aware of what’s going on out there
the the one thing that makes predicting a little bit of the future easier when you look at biomedical science is that
labs are working fairly systematically with overtly stated goals so if you
think about it science is not really done in a haphazard way it takes time preparation you have to test multiple
hypotheses develop techniques so it is not really rocket science to look at a
lab and say this is where they’re going and here are probably two of the Achilles heel points in the design but
if they surmount those they will probably achieve what they say they want do so that’s a little bit of what this
is about I was going to give you my thoughts on mind body and beyond Jean
slicing the doctor vent nurse work DNA encryption and something about memory
that the past is not what it used to be what I’d like you to consider for a
minute is that one of the things that most people have a hard time understanding is that there is a
difference between our mind and our body your personal experience is usually of an integrated operating system since the
time you were little however there has been a plan in many labs to figure out how do we help people whose bodies don’t
work in the way that they want them to do who have neurologic defects could you start the first video so as a way of
surmounting that people are experimenting five or six years ago as early as 2008 with whether or not you
can do a brain robotic interface I don’t know if there’s a volume for that with
our monkeys as they go through and try to learn how to use this robot
so they’re using brain signals so signals from their motor cortex that we
pull out of wires into our systems and our computers then decode what it is
that that the monkey is intending to do and drive the end point of this arm
forward and backward and around through space the monkeys have brain control
over this robotic arm to move it forward and grab a piece of fruit as is presented and then bring it back to
their mouth to feed them self incredible
as it may seem these monkeys learn to feed themselves with a robot arm that was being directly controlled by their
brains as if it was simply part of them this is a biofeedback closed-loop kind
of experiment and that there’s an automatic almost an automatic learning that’s going on where we’re
communicating with thee so essentially when you’re little and you’re growing up
and you’re learning how to work your appendages you are making good motor neuron connections and inhibitory
connections and what they’re able to do back in 2008 with a primate is have it
learn through trial and error that by thinking it can move a robotic arm and feed itself it didn’t take too long for
the neural interface issues to be resolved once people figured out you could implant electrodes on brain tissue
and then take a biological signal and turn it into an electrical signal and amplify it it took a little while for
the monkeys to figure out how to do it early on they would give it a little joystick so it was like playing a video
game and pretty soon the monkeys actually there’s a chimp that’s stunted as well she figured out she just didn’t
need to use the little joystick and could just think about it and then the arm would move and the monkey would
began to experiment and would think about where it wanted the arm to go so it’s learning I have a new appendage the
same is true in people you can see just four years later we see it being done in
humans and start that for me please with people who have neurologic injury
and can’t use their limbs
I don’t know if it’ll play um yeah try and hover over the screen I think here
we go drag it down there you go perfect
yeah it’s right my life has changed dramatically since the accident as of
right now there’s nothing to cure paralysis besides maybe a miracle the first thing I’ll do if I get my arms
back I would hug my daughter be really nice to scoop something up on a spoon
and feed myself yeah this is gonna go beyond spinal cord if this works this is gonna go ms this has gotta go stroke
this is huge this is millions and millions and millions of people I’m
pretty much broken from the neck down I guess you could say the only thing that I have left that is untouched is my
brain and obviously I’m able to use it very good I’ll be able to do this and do that you know no memory loss no nothing
so I opted for an experimental surgery to go at the one thing that I still have
what we try to do is put a a grid in place that’s capable of recording
signals from the brain so when you think when you think I want to move there’s actually electrical impulses in the
brain we want to be able to record those electrical impulses and then decode what what the electrical impulses mean and
use that to control an object or an arm people have thought for a long time that
we might be able to tap into the brain but it’s only recently that we’ve gotten closer and closer there’s some great
work going on here at the University of Pittsburgh by a gentleman named Andy Schwartz and Andy has shown that he can
get a monkey to control a robotic arm with an amazing degree of freedom by
thoughts we’ve developed technology where we can implant an array of electrodes micro electrodes in the
cerebral cortex of monkeys and we can record activity from many neurons in the
brain simultaneously and from that signal we can extract the monkeys intention to move its arm and now that
we have that we can have intercept that signal and use it instead of moving the monkey’s own arm
to use it to move a prosthetic on what it takes two people is a large team so
we’ve basically been somewhat isolated in our laboratory working on monkeys proving the technology just making
discoveries validating the technology developing new ways of doing this and what we’ve been able to do recently is
pass a lot of this knowledge that we’ve gained to clinical colleagues they came
to the laboratory learned a lot of what we’re doing and then took it back to the clinic and developed the technology is
appropriate for humans two days after
surgery we put me in and started to basically train my brain train the
computer to my brain the way I’m thinking the computer doesn’t know up-down left-right it just knows the signals that I’m thinking for a first
couple days it was just what’s up what’s down how I do it is I look at the ball
at the top and through my peripheral vision I see the ball that’s moving so
I’m focusing on the target and almost with my peripheral if I want to go up I’m with my mental eyes or whatever you
want to call it lifting up trying to get that ball to go up or trying to get to go down so I’m focusing on the target
while watching the moving ball with my bro reel it’s like a one player video
game I’m trying to be my own score because there is a score you know there’s a certain percentage it’s at a sixth you know each time I do it it’s
out of 16 bawls if you want to say and a wonder
that number it’s 13 I want the 14 I want the 15 and so it’s just a challenge to
myself one thing I found out that if I focus too hard it doesn’t work right it
has to be very natural that’s pretty good yeah not too bad we’re making such
ground on this every single day every other day we’re just going leaps and bounds and knowing that we’re doing that
if I had another week or two weeks or month where would we be that we’d be blunt mean we’ve already done the stuff
that’s unprecedented you know I’ve been I’ve been doing stuff I’ve been told that with the 3d cursor which what
people have been doing it for a year two years that they haven’t got the type of
control and percentages that I’ve gotten in a day the highway was 45 minutes ago
I got to use the robotic arm for the first time and
we got to reach out touch some over the first time in seven years so what you
see is people struggled with how to get the electrodes on the surface of the brain how to do the brain learning the
computer algorithms have improved this is by trial and errors it begins to recognize what the subjects brain is
doing but after that if you look at that as a scientific development in medicine you can quickly see the possibilities
that emerge I they’re playing with motor function and linking it to thought so
the next step really when you think about it was to simultaneously try it with another another non-human animal
and find out if she could run a robot on the other side of the planet and the
essence of this experiment is at first she had to walk on the treadmill to keep the robot walking that she could observe
on a computer screen and then she just stopped walking and it would run the robot in Japan so you can have a brain
here in the United States plugged in running a robotic device a mechanical
device via the internet somewhere else in the world so that was pretty cool it also has some funny implications if you
see now where do you imagine this going when you think of it as an offensive or defensive opportunity with respect to
the intelligence community the natural segue then would be if I can send motor function from a brain to a mechanical
arm is it possible to send motor functions from one human to another
human so I call it the possession experiment that one just the hover the
there you go there for our weekly tech
report now do you know the phrase brain power well it turns out that scientists at the University of Washington are
trying to hone that power and transmit it to another brain researchers call it
direct brain to brain communication and they do it by passing a signal from one mind to the next using the Internet
nonetheless so does it sound a little sci-fi Star Trek mind-meld Jedi mind-trick inception s to you well it
did to me too so I brought one of the researchers onto the show to tell me how it works dr. Andrea Stokoe is an
assistant research professor at the university of washington and he told me why this concept is not as weird as it
sounds it’s not so science fiction we use currently resistant technologies to
read the brain patterns in a person and to transmit them to a different person
and we can only do it with very simple impulses right now like motor commands
to control the hand for instance so it’s not that science fiction we was telling
me possible years ago is dead that we were the first to try sure so can you go into a little bit more detail about how
specifically it works what you need from the person and also what you need from wireless internet to make it come
together yes well that’s like this a person is sitting on a chair and we call
this person the first brain or the sender and is connected to an EEG cap the AG cap detects electrical activity
all around the brain and he’s capable recognizing when the brain patterns are doors that a person produces when he’s
trying to move the right hand I was thinking about moving the right hand these very bodies are interpreted by a computer that controls a second computer
is connected over the Internet and the second computer action controls stimulating call the producer magnetic
field and is the magnetic field that is eventually directed over the head in such a way as to reproduce the
particular command in a selected part of the brain in this case the part of the brain that controls their I can the
wireless connection enters only in their communication between the two computers the two computers can be in the same
room and connected physically or they can be in any part of the world and talking to each other to the internet so
I won’t you can watch the video but essentially what’s happening is when one person is playing the video game they’re
not using their hands they’re simply looking at targets what’s going on in the other room is a transcranial
magnetic stimulation device that creates a magnetic field that excites neurons and it’s the other man’s hand
begins to move and hits the targets so you’ve co-opted the portion of a body of
another human and then their hand can behave in the way that you wanted to do his goal you’ll see later if you
download the video is he would like to have a cap that you could put on and have a surgeon direct your hands to do
battlefield surgery or something somewhere else in the world where they don’t have a doctor who has the
technical skills you can put on the cap and your hands become an extension of that experts body they find motor skill
manipulation at that point in time was not great but the person on the receiving end described the sensation as
a rather odd said I didn’t know anything until I saw my hand beginning to move and felt that it was something other and
it’s hand was moving hand could punch in a code hand could do a number of things but the really fun part was that you’re
taking over somebody else’s physical body with the mind of another human so
what do you think would be the next step you follow medical research you say you can make a robot move you can make a
human hand move what would you do next
you say wow they’re getting brains connected to run things and I have to
begin to think either like doctors or like you know security and intelligence people right can you actually send and
receive sensory information like the matrix I’ll show you a little bit of
this experiment the short answer is yes
[Music] we were able to transmit brain-derived
information from one rat to another and basically got this pair of venomous
collaborating to solve tactile and motor tasks you know there’s a behavior box
where the first animal is located and this animals called the encoder because he’s the one who does all the work he is
basically using his forepaws or his whiskers to perform either a model or a tactile discrimination task and while
he’s doing that we are monitoring its behavior in recording the brain activity
that is being produced by this animals brain and transmitting in real time all these electrical signals to a second
animal that is called the decoder while this animal has the lucky job of not having to do anything for getting a
reward the only thing it has to do is to receive this brain activity into its own
brain and then decode the pattern of information that the encoder has generated and indicate to us as through
behavior what it is that the first animal has discovered out there in the environment so if the decoder gets a
rate both animals get a nice juicy reward and that’s what they want and
that’s how they collaborate to actually get this job done here you see in the next slide encoder animal waiting for a
light stimulus that tells the animal which of two levers he has to press to
get a little bit of a water set and the light cells either pressed left or the
right lever so when the animal gets the light and is about to press the lever we
record the activity electrical activity from lots of cells in the motor cortex of this animal and instantaneously
transmit this information through the brain of a second animal that is in another box and cannot see the light and
cannot see what the first enemy is doing this is the decoder and he’s receiving
this information through their tiny little pulses of electrical activity that are delivered
to the amount of this part of the brain that the encoder is using to solve the task so as the decoder gets this information
and basically decodes the brain pattern originated in the encoders brain it
responds to us behaviorally by pressing one or the other lever to tell us that
he got it right or not so it took some learning trials but not many took 75 between them to achieve an
accuracy rate of over 85 percent in just training their rats for a little while in the cages but this is a milestone
because it was not simply using the motor cortex to run a device this is actually having one animal learn
something and seeing and recording that activity and put it into the sensory
cortex of a second animal and that animal acquires the knowledge it is able
to act on the knowledge from the experience for something it has not ever done which is really fun when you think
about it would this facilitate language learning with this let you upload information when you don’t know how to
operate a device does it serve well for covert communication this is done between two rats what we do know is that
DARPA did get permission for 500 operations to do deep brain electrode implants haven’t published anything yet
but my guess is what you’re looking at is human human thought transference and certainly in the open science world that
was published last month actually the brain to brain transfer of sensory information into humans they achieved a
success rate of being right 85% of the time so you can attach one human brain
to a device you can attach the human brain to another human brain you can
direct motor activity or you can send communication and information what we
know from the training trial data so far is that it probably requires it’ll
probably require training trial between people as well and we don’t know from an encryption and encoding standpoint
whether everybody’s communication would follow the same patterns or not it may be that two people have to train and
then it’s unique and then you have a yeah decryption problem for someone if they decide they can intercept the signal that would be but you could plug
in somewhere else in the world and learn something or see something or have somebody acquire the information that
you have and you wouldn’t have to carry a different device so that’s what people
are doing there’s a whole world out there of biohacking I don’t know if you’re aware of it but you should be so
normally at the University we are well regulated by the federal laws about studying and experimenting on humans
there’s a biohacking community that it’s not part of the official science community that is busy trying to attach
hardware to humans and they do it in their basements they study up on how to do the surgeries how to connect devices
how to put motherboards in people and they may use it for some purposes like
fishing using RFID signals in their hands to take information from you but there are some other interesting
developments when you start thinking about the fluidity of what you can do with the brain they’re experimenting
with ce6 and giving people with eye drops night vision for several hours a
person receiving the night jobs can see over 160 feet in the dark so it’s a lot easier to look through your own eyes
than it is to put on nods and it will be a short time before you get a better solution then we get from the bio
hacking community but it could also be readily available to almost anybody on the planet it’d be hard it’s going to be
harder to keep this under control than it is to keep the special lenses and night vision technology so I think it’s
really important that people pay attention to do this kind of thing because that can give humans the natural ability for a while to see in the dark
the other new possibility coming along is that seeing in the dark is something
you don’t really naturally do that well but with animals who’ve been able to achieve a number of other things one of
which is giving them an extra sensory ability if you will show you a short
clip people decided they wanted to know if they could give the rat an ability to do something it does not naturally have
recently researchers have given wraps an implant which allows the animal to obtain as they call it a sixth sense the
laboratory subjects were able to search and detect infrared lights which is an exceptional accomplishment given that
rats can normally see infrared lights a team at Duke University placed infrared
detectors which were wired up to tiny electrodes into the part of their brains that processes tangible information in a
source involved with the experiment Eric Thompson states this is the first paper in which I know a prosthetic device was
used to augment function literally enabling a normal animal to acquire a sixth sense researchers claimed that the
device could also help humans regain sight if placed in the appropriate part of the brain last year researchers used
a computer chip ridden prosthetic system to help transmit light signals in the brains of mice the minds behind the
study hope to move on to human trials using the retinal device to restore sight to those who had lost their vision
so people are playing with chemicals to enhance the human capacity they’re also experimenting now with how do you add a
device to the mammalian brain to give it an extra sensory ability you may not want to detect infrared you might want
to have a room temperature detector of radiation depending on what your job is
in life so when you think about it the possibility now is there to develop different kinds of devices they could be
perhaps used either by intelligence people or by people in the military to have an extra ability to be able to see
through walls to see heartbeats we used to play with the 18 gigahertz microwave
detectors where we could pick up heartbeats through anything but solid steel and water but that could easily be
a human who can see a unique heartbeat that’s behind the wall over there that’s thermal insensitive so it doesn’t have
to be IR it can be a number of things anything that you can co-opt is theoretically now possible to adapt to
human brain functioning all you’d have to learn is the code you’d have to train with it it might not be natural at first
you might not understand the signal you’re getting but you can add to human brain function also use it to intercept
signals the experiment that was just released this last month as I said
demonstrated that people could transfer knowledge from one human to another and I commented to a couple of my colleagues
and I said I think right now the most direct application of that is going to be either covert communication or
running drones the a set of experiments I didn’t have videos to show you but there have been a
series that have shown you can connect the human brain to a rat and control its motor movement and its tail so you can
have non-human animal drones you can have the human brain probably run a
regular drone at this point but running a non-human drone something like a cockroach or a rat would it be awesome
and now the way if you were watching the Olympics and you see the coordinated maze of drones the software is now
really readily available where you could you could have hordes of little creatures that can gain access to
facilities or move around in different places all run by a person sitting in a
booth it wouldn’t be it’s no more technically challenging once you do that then figuring out the logistics of how
you’re going to send your signal somewhere else in the world and how to protect that signal but that’s that’s
now that’s not in the future so as you begin to think what’s in five years the
interfaces are going to become more delicate more refined and as transcranial magnetic stimulation it’s a
rather crude instrument right now it creates a feel that excites just hoards of neurons but as they as they refine
the technology so you can get a better point specificity to the neurons you actually want to activate you should be
able to do this without penetrating the skull either someone could wear a cap and in fact that’s how the latest brain
to brain communication in humans was done it was done without surgery and actually signaling via some stimulation
to the retina and the brain decoding it although the person consciously didn’t know what the code was the brain did so
that I would recommend people becoming aware of that from the human drone technology standpoint the second field that people
may or may not be aware of in I always tell my students I said it wasn’t around when they developed atomic weapons but
dr. Venters work is my my view the equivalent of the development of nuclear
weapons when you realize that he created life in a cell back in 2010 I don’t know
if people are familiar with his work but this technology paired with something called CRISPR which is like an editing
software for genes makes a number of things immediately available what he did is he
programmed yeast cells to produce anything he wanted they can produce perfume they can produce petroleum they
can produce any peptide anything we program the DNA to do and it’s in the living cell right so in medicine the
goal in medicine now is to be able to do designer medicine and therapy if we can
design a cell to get into your body and release the right product for you you
won’t be losing half the drugs you take through your liver when you swallow a pill and it gets digested these can be
inserted into you through the hypo spray needles almost like dr. McCoy on Star
Trek getting a hyper spray it just blasts no plasmids into your squamous cells but Venter was able to do that and
has the patent on the technology but you can engineer anything you can engineer a unique thing that would only kill one
person in the world it’s how it’s done you put in a specific gene slicing you
program what you like you put it in the cell and it can reproduce and make as much as you like those of you who don’t
know your DNA is usually all wrapped up in tight little coils and so what you were doing was when to create plasmids
and put them into cells it sends a signal and tells which portion of the DNA should unwrap unfold and produce a
product this is the future of Medicine when you look at this technology in medicine and say this is going to be
done to help people right we want to be able to give them medicine so we actually want to correct for genetic deficits if a kid’s born with a genetic
anomaly with the CRISPR technology the feeling is we can create the portion of the gene they’re missing and go have it
spliced back in and that may help a child either if it’s in utero development or once they’re older to
have the missing substance actively produced what would you do with this if
you were in security and intelligence well you can do a number of things you
could decide if you make this gene we know that certain people in the world who function that very high altitudes
very very well do it because they had a special mutation in their genome that we
don’t have because we didn’t grow up in the Himalayas but they can function at very high altitudes
could you give this to people who are going to have to do war fighting in high altitudes and they don’t require extra
support their body makes them much more efficient use and can work under conditions of lower oxygen than the rest
of us you start letting your mind wander can it also produce a substance that lets you function longer underwater
without oxygen so but these are run by certain mutations in genes and with
CRISPR we have the ability to actually make these and see what happens when we give them to animals non-human or human
animals that don’t have it naturally you
have the forest gump gene guys been tracking there’s a gene that just makes you stronger I would say that most of
this technology is probably going to be employed by a state and not non-state actors because it’s quite technical but
I say that with a caveat when we study the uma Shinrikyo if people remember they had both uranium mines and regular
laboratories where they experimented on both animals and had a whole series of
laboratory experiments to develop the different kinds of gases that they
wanted their goal was to actually mine uranium and probably come up with their own version of a nuclear weapon but they
recruited scientists PhD level folks and their goal was to be their rightful people running country of Japan but we
can’t assume that just because they’re non-state actors they will not make use of some technology around this related
to this is an idea called dreads these are designer receptors that can be
remotely controlled so think about it for a moment you can create a designer
receptor you can create a cell you can put it somewhere in the body and you can
remotely activate it when the brain is exposed to the right signal using this
technology people have been able to transfer memories from one fruit fly to another by signaling through a light
stimulus into the retina right now in in animals it’s done by putting a substance
into their body that will actually activate the neuron in the way that you want it so you have the capacity to
create any product as long as you know the DNA sequence you can insert it into a living system and you can remotely
control it so in medicine we think about how we do that to help people how we do to repair deficits other people are
going to think about how to leader to expand possibilities now one of the challenges that we have is that when you
create a cell and you put it in somebody’s body you have to figure out where you want it what if you want it in
their brain right if you want it in their brain and you can’t figure out you
don’t want to do surgery to plant it in their brain if I want a product produced in your brain that may affect the way
you think the way you act one route to that is through stem cells you’re a
quick brush up on your biology stem cells or cells there call them god cells they can turn into anything they hold
the potential unlike other cells in your body to become anything you want them to
become and they can go find their home in the body and park there and do the
work that you’d like them to do
you can infuse them and they will find their way into the brain so once you
know that the technology is there to edit splice and program a cell and the technology currently exists to
administer to somebody and have it go park anywhere you program it to go park proliferate and do its function you can
have things activated in other people’s brains so you take these three key
points hopefully you can see it opens up a number of both alarming and exciting
possibilities you can have the time to
release of information on demand hopefully when they mentioned the word CRISPR Edward editing and creating
molecules with CRISPR out of data and playing with DNA some of you thought encryption and encoding so DNA
encryption there were I think eight articles published by China in the course of three years in the last three
years and it’s quite important the coding system DNA steganography I’ll
just say short the short story on this is people have figured out how to hide imagery in the DNA of bacteria and when
you bus where s the bacteria you can discover the information or you can have the those are just to remind me you can
have the information reproduced in a string format as a form of a protein doctor Church up at Harvard has shown
quite well that you can store a lot of information in one gram of DNA it’s
essentially yeah that many that many iPads in one gram at room temperature no
super cooling required DNA is highly stable spent around on the planet a very long time so between CRISPR the storage
capacity and programing cells the new way to hide information is going to be
in DNA the commercial application is going to be a bit like on Star Trek years ago why would you have a digital
system when you can have a DNA system can store all the information you’d ever need records photos anything it’s simply
another way of storing information it had just been so slow up until five years ago it wouldn’t be thought to be
practical but it is this is the first experiment showing what imagery you can hide in bacteria this is the latest it’s
a gift file it was actually programmed into the DNA of bacteria last year
the bacteria reproduced and the offspring from the reproduction cycle would still produce this movie pretty
cool you can hide information in bacteria and when the bacteria multiply they can go into a spore form and last
for a very long time no one can scan you and find a bacteria
we don’t have anything that can detect that well you don’t so if you want to be able
to encode information take pictures of information create something in DNA and don’t want it in your own body it can be
bacteria on some portion of your body right all they have to do is scrape it
let it grow in the petri dish and unpack the information this is all available now this isn’t science fiction but you
can encode movies well this is what the
Chinese are doing with DNA so in your own neck of the woods you can begin
inquiry we are doing things with with DNA as well but the Chinese are fairly
convinced that DNA encryption encoding would be one tremendous challenge even for quantum computing so this is where
the race is right now trying to merge quantum computing with what you call a wet hard drive with DNA merging DNA
systems with quantum computing will be really quite an amazing and both lethal
threat for that
the next thing I wanted to mention to you is memory you play listen really
hopefully you’ll recognize this hey
whoever you guys are you gonna have to show me some idea if you’re gonna be in France hey whoever you guys are you
gonna propose hey whoever you guys are
the thing is gonna give a brain cancer or something whoever you guys are you so
what to do with memory in medicine we think of memory as a potentially harmful
thing when people present with post-traumatic stress disorder they can’t stop thinking about the thing
that’s creating emotional distress it’s a very active development in the field to figure out can we erase memory can we
modify memory can we change memory coach short answer is yes several years ago
with the PM zeta data out of Duke University this was the first time that
anyone had ever demonstrated that if you wash an area of the brain called the hippocampus it’s an area of our brain
that’s crucial for forming short memories spatial memories and then facilitating the transfer from a
short-term memory it’s just something that’s more permanent and stable over time that he could train the mice to run
the maze document the number of trials and errors and then flood their
hippocampus or expose it to this and the memory would be completely gone meaning
when the rats or the mice had to learn it over again it was the same number of learning trials now there was no trace
of the memory left now the good news for us when we study rats mice is we put
electrodes and cannulae into their brain and can directly affect that area of the brain if you wanted to poke your own
hippocampus you’d have to stick your finger through your eye and go right back in there sounds impossible to get to not if you program a cell to go there
so if you decide you wanted to program something that was selectively release PKM zeta after your meeting with someone
they probably would have no memory of it that’s what’s happening in the rats
alright so the technical challenge right now is how do we get a cell in there to do that in human I can assure you
they’re working on that in non-human primates right now how many what’s the point specificity can we get it in there
close enough to the hippocampus will those cells start reproducing in the next day make enough of that stuff to
wipe out a memory related to this once
you start thinking about memory are chemicals that not only wipe out memory the chemicals that enhance it so if you
want a better human camera a better an individual who can just go see and
remember everything that’s the direction that the research in this Lane is taking
to help people with Alzheimer’s how to give them memory back so what’s being actively studied are the few people on
the planet who have hyper monisha others they remember everything that’s ever happened to them we’re actively trying
to understand how to unlock that and unpack that and figure out why it is their memory does seem to record and
they retain everything they’ve seen they don’t find it Pleasant and medicine
would like to people in medicine want to try and understand that so they can turn it into something beneficial for people who are losing memory from a security
and intelligence standpoint it is a really unique opportunity to begin to
discover can you administer a drug that enhances human memory for a certain number of hours does it have to be
permanent so rather than carrying technical toys somewhere to try and
record and collect information your brain just remembers it which doesn’t
give anybody anything really to detect that’s one potential use for it and that
is one lane of research that’s going on I was just my picture to remind me that
the man who knew too much if you remember the old Hitchcock film essentially that’s what he’d done remembers memorize all the steps on how
to make a bomb he’d remembered the codes even hurt everything that research on hyper
memory has gone more slowly than I thought in 2010 I thought by about 2015 there
would be some progress there hasn’t been much yet in expanding memory very much it seems to be a harder nut to crack
than erasing memory erasing memory seems to be far easier the last topic I wanted
to review with you is memory I don’t know if you recognize any of the imagery
up there but I’ll walk you through it with memory in the last five years
what’s been demonstrated is that you can train a fruit fly around an aversive
experience and you can transfer that memory to the brain of another fruit fly by manipulating the rods and it gives it
a memory for something that it’s never had before and then it reacts to the stimulus in the same way as the animal
who did have the aversive learning experience it’s been done in mice I’ll talk a little bit about Beth Loftus and
I have done two men and women going through sere school and changing memory and I put the last slide up because this
is in flatworms and this came out two years ago that memory really is something beyond what we typically
understand in flatworms you can cut their head off and their body still remembers stuff so the they’re just
beginning to unco or decode where and how memory stored in the body of this
little creature so we can translate that into memory in animals that look
different than that little creature it’s evolved it for a very interesting reason so this is the in 2009 using light
they’ve transferred the transferred memory you can turn things on and off using light in animals to activate the
hippocampus turn memory on and off and so where are we with humans in creating
false memories giving the memories that they’ve never had we’ve come a long way my colleague is Beth Loftus and this was
her early work it was called lost in a mall and what she did is she asked a person to be in the study
you could be in her study if you had a sibling that was at least five years older than you and she’d say we’re interested in your memory from when you
were a kid I’ve asked your older sibling your older brother or sister to give me four stories about you and I want to
know how much you remember what people didn’t know is that there were four different stories one of them
was fake and she wanted to see how long it would take for them to adopt a false memory the quick answer is after to
interview sessions 30% of the subjects believed that they remembered the person who’d found them when they were lost at
a mall and actually argued with the researcher about whether or not the memory was true or not
and that’s how I met her we decided to get together and run up to Brunswick to see her school and try a memory
experiment this is our design if you’re not familiar with sere there’s a classroom phase there’s an experiential
phase we were interested in sampling people when they were in isolation when
they’re returning their gear and at the end and we tried a couple of different techniques group one
there’s no misinformation we simply want to sample accuracy of human memory for their experience and we told them at the
beginning is here we want you to be the best little human collector possible we are going to quiz you about your memory
don’t let us trick you we want to know what you remember group two we told them the same thing but we lied when they
took their questionnaire at the end we incorporated several techniques from false memory techniques which are a
little bit of leading questions to see whether or not we could create false memories in the third group we exposed
them to an erroneous photograph of their interrogator and in Group three we used the group four we used a video so here’s
what we did by exposing them to a photograph after they had been interrogated and placed in isolation
stress it could change them from this guy to this guy 48 hours later on who
they were identifying the lineup their level of confidence was an 8 out of 10 that that was the person they had met we
found that we could make them believe that there were guns that there were knives that there were caches of weapons simply by altering the phrasing of a
question or inserting something into a video I’ll give you an example if we said did your interrogator wear a weapon
if so please describe it we only got about a 2% endorsement of the presence of a weapon in the in the interrogation
phase if we said when you were being
interrogated by your interrogator and the guy with the weapon in the interrogation what did they argue about we didn’t care what the answer was
we’d ask another question they described the weapon worn by your interrogator it jumped to 30% would tell us the type of
firearm that they had seen in the interrogation booth there’s a security violation right there there weren’t any
we’ve got to record them but with one question we could do that when you sample with a few more you can actually
increase the sample so when we increase the stress that’s here we found that
instead of a 30% rate overall we could create false memories in nearly everyone that was in 900 people yeah so Beth and
I were talking about that we said well you can change memory we know that it’s a way of understanding maybe why and how
people have recovered memories of abuse that never happened that’s what her work has mainly been about so she decided to
do a study called licked by Pluto she just said she couldn’t make Mickey Mouse a sex offender but in her lab they
thought Pluto was fair game the short story is people got to they were exposed to some misinformation about a man who
addressed in the Pluto outfit at Disney and he’d been inappropriately rubbing his large fabric tongue on children
pleasurably and not pleasurably there were two different conditions then there was a neutral condition if people
adopted the false memory and their memory was for something negative they did not want to buy the Pluto toy all
right when they went down their list what they would not buy she’s done it with food that was from her series with
Alan Alda she gave him a false memory that he’d been sick one time eating deviled eggs and here they offer him one at the
picnic on film and you get the classic disgust wrinkle and he said now I got sick one time eating them it’s not a
true memory it was planted she’s done it now with strawberries and ice cream also done it with pickles and has done it
with alcohol study last year was that if you give college students the false memory that they were terribly hungover
they had a wicked hangover from drinking too much tequila then when they’re given free range options at the bar like a
week later they decline it at twice the rate of everybody else they got them now got sick doing that so think about it if
you change the past you change human behavior we are a case based reasoning
animal when we think about what we’re going to do we think about the last time we did something or the what we heard about or
what we think it would have done so to change human motivation we don’t have to persuade people you can just change
their memory think about the defensive
and offensive capabilities of that if you think about this from a defensive
standpoint you have the ability to change the memory of a person has been debriefed in a safe house about the
identities of who they met the layout as we’ve looked at altering memory for for
plans for faces for timing if they’re wrapped up by their intelligence service
they don’t have anything to lie about or what they remember is actually genuine but it’s wrong that might be a defensive
way of applying the technique in medicine people are arguing about whether or not you can use false
memories to help people can I give you a false memory that leads you to stop smoking or is it unethical because I
can’t tell you I gave you a false memory I’d have to do it outside of your permission for your good most of the
things probably unethical in this society than we think you probably should be an informed consumer but it’s
a possibility that you can do and when I think about this I think about its
relevance in this day and age when you start wondering what information is real and what information is trustworthy and
you start running into people and debriefing them and you have sources who claim things when you can learn how to
create false memories a person can be genuine and the information they remember is it is a
little dangle idea you can put information out that it’s simply not true but in the current social media age the
ability to actually manage people’s memories and change them it’s just enhanced compared to what it used to be
now you can you can fix the videos and pictures and expose people to audio and
visual information and we know that even if they know that’s a possibility people don’t recognize when they adopt a false
memory so it’s a bit of a Trojan horse effect you don’t know that it’s happened to you if you’re smart and you have a good
memory you believe that happens to other people but not you because your memory is true so it bypasses some critical
reasoning on our part and I think it’s particularly it’s particularly effective
that’s where the state of the art is right now for creating false memories in humans is doing that verbally or by
these manipulations with either what we say what we show them what we expose them to but the chemical implanting of
memories has now occurred in monkeys so in trying to restore memory there is
probably I would say in the next two years we should see the science experiment come out that says a memory
has actually been transferred or created and planted back into a human brain that wasn’t done by a classic false memory
technique but I would anticipate that that’s the direction the research is going how do you rebuild memories and
people have had a TBI active research is going on about that on nanite
reconstruction of brain brain cells and and brain networks and the idea in the
mental health community is people lost part of their brain we want to restore memory and brain function can we put the
memories back in so it’s it’s probably only science fiction for another two years given given the state of the art
and the progress around that and then and the last thing I’ll say I didn’t
have any videos for it I really wanted to show you one but the French have published a very interesting paper and
it is this well people were sleeping they were able to train them and sample
their knowledge and what they trained him in while they were asleep and while
they were later awake and didn’t know that they’d learned the information so
I’ll say it again in people who were asleep they were able to tell what
people knew around word recognition lists without ever waking the person up
they were also able to train new memory and information outside the person’s
awareness while they were asleep where that technology can go is some
very interesting places it would really raise since I was in the lane of DMT and we talked about deception and everybody
is arguing about how to interrogate people it raises an immediate question about whether or not you can sample information in people’s brains outside
of their awareness the problem with a cat scan and the PET scan any technologies you have to have a willing subject they do need to sit still if
people are asleep and you can begin to sample what their brain recognizes it offers a number of opportunities that looking at guilty knowledge brain
recognition waveforms and sampling some kinds of information I don’t know how
soon it would be when you can link someone’s brain to somebody else’s while
they’re asleep but I would imagine that that can’t be far off I’d probably ballpark it and say
probably five years if they have to do the brain implants we’ll know sooner
because I I can’t see any other reason why DARPA got approval for five hundred deeply deep brain implants I think the
next step is going to be a hive a hive brain that’s already been done in rats you can link multiple brains and as a
hive they solve problems much faster than the individual rat so that technology’s here I’m assuming the link
people who they’ve given permission who’ve given permission to link their brains to have a productive life live in
virtual reality move robotic things they can probably some problem solve so I think in the next years that’s what
we’ll see is bring to bring linking for problem solving but to see if it makes it more efficient but those are a couple
of technologies that one make you aware of and then you can run away and think about their more direct applications I
tend to think of things from a medical perspective and from an intelligence and information perspective but it’s no
longer really science fiction and most of these fields have moved faster than I actually thought in 2010 the only one
has been expanding memory that hasn’t hasn’t moved as fast but I thought they would share that with you and that’s all
I had to say thank you for your time yeah [Applause]
all right Thank You dr. Morgan we’re pretty much out of time but we’ll be hanging out up here for a little bit so
if anybody has questions feel free to come up and thank you for coming out

What you can read next

James Giordano George Town University
Dr. Kevin Warwick (Captain Cyborg)
Krishna Shenoy (BCI interfaces)

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