The idea of improving human performance wasn’t born
yesterday and the term transhumanism would have been
invented by the biologist Julian Huxley (the brother of Aldous
Huxley¹ ) starting in 1957. Revived in the United States during
the 80s in California, the transhumanism movement puts forth
overcoming the physical and mental boundaries of human
nature thanks to technology. Today many scientists are working
on the development of cutting-edge technologies so that, one
day, humans may fusion with the machine and become more
perfected human beings.
According to Dave Evans, a renowned expert in new
technologies and the internet of things² , fusion between
technology and biology will be evolutionary. He estimates this
process will unfold in three phases: the 'portable', 'integrative'
and the 'replaceable' phases.
The portable phase, that in which we are now in with, for
example, the health apps on watches or our smartphones
collecting data and allow to follow indicators such as our
cardiac rhythm, our blood pressure, our weight, etc. This
'portable' phase has recently found a new dimension with the
implantation of sub-cutaneous chips by the Swedish biohacker
collective Bionyfiken. These implants use the Near Field
Communication (NFC) technology, also used on contactless
credit cards or mobile payment systems. They allow to store
data and to communicate without contact with connected
devices such as telephones, debit card, transportation kiosks,
office doors or fitness space… the possibilities seem almost
infinite. This still experimental practice arises many questions,
in particular in terms of data safety. With so much personal
information contained in one single little object, what are the
risks? Could someone hack the chip and add or hijack data?
Will one always have the choice to go off the grid?
The integrative phase, towards which we are heading with
innovations such as neuronal implants. Right now, research
conducted within the Neuralink company, founded by Elon
Musk seek to implant a chip in the human brain to allow people
suffering from physical handicaps to recover the movement
capability thanks to a device that will transmit data with a
wireless connection and be able to control a machine by
thought alone: a robotic arm or a computer mouse, for
instance. Neuralink has been doing tests on monkeys in the
past several years with surprising results. A video shows how,
for example, Pager, a monkey, can play the game of Pong
simply with his mind! The first human tests have been
postponed this year, pending FDA approval. A deadline the
CEO of Neuralink is waiting for with impatience explaining that
in the long term, his ambition is for humans to 'become only
one' with artificial intelligence, whose power and omnipresence
are developing exponentially these past few years. According
to him, if Mankind wants to have a chance to rival AI, it will need
to boost its brain.
In the replaceable phase, technology will become so
performing that it will be possible to replace parts of our body
with artificial technologies. Artificial protheses, for instance, will
replace not only deficient members, but also enable boosting
the natural performances of the regular human. Many advances
give a glimpse of this near future. Built out of aluminum
reinforced with carbon plates, the Bebionic3, hand, for
example, already lets its users recover the ability to write or tie
their shoes while supporting a weight of 45 kg [approx. 100 lbs].
Financed by the US Army, the motorized Luke Arm (by way of
reference to Luke Skywalker) gives possibility to veterans
missing an arm to find an unequalled freedom of movement.
In Sweden, research has resulted in the perfecting of a
prothesis that via electrodes directly implanted in the muscles
and nerves can be steered by thought alone and to experience
'tactile' sensations. Hope is likewise rising for people who’ve
become blind due to macular degeneration. One can thus note
the discoveries of the Israeli company Nano Retina, that has
designed a revolutionary artificial retinal device imitating the
natural physiological processes of the human eye and restoring
functional vision.
Uploading one’s brain with a click?
Recruited by Google in 2012 to work on artificial intelligence
and machine learning projects, Ray Kurzweil, an MIT researcher
and best-selling author³ goes even further in the concept of the
transformation of the human species in the era of intelligent
machines. With 'mind uploading', according to him, it will
become technically possible to envision the modeling of our
brain and in the long-term, uploading the spirit of our being on
an inalterable material to be implanted freely in a body or a
robot… Asked about this in a piece in the Echos, a French
publication, by the philosopher and journalist Roger Pol Droit,
Ray declares: "I consider that human existence does not
depend on a biological body. Biology itself is nothing more
than an ensemble of nanomachines. All these minuscules
mechanisms in the brain, in our cells, we can model them on
computers and understand they are complex machines
interlinked one into the other. When I talk about fusion
between us and the machines, people have sometimes
negative reactions, because they are thinking about the
machines we presently know. Machines that seem cold, not as
subtle, complex and tender as a human being. As a function,
however, of the exponential growth of technologies, the
'machines' – we ought to need to find a new word - will
become as subtle and flexible as the human beings. That is,
the biology of the future! It will go beyond all limitations.
The machines will surpass our capabilities, and by fusing with
them, we are not going to become less! Non-biological
intelligence will double its power every year, or even faster still,
while biological intelligence is relatively fixed. In the end, the
non-biological part will predominate."
Ready for the nanorobots invasion?
Presently, the obstacles to conquer to achieve this type of
functionality are still too many to count and very difficult to
solve. It would be useful, in fact, to have a reliable cognitive
computational model, that is, a logic system capable of
reproducing the workings of a human brain. As such, if the
uploading of neuronal structures of an individual into a digital
system appears today to be science-fiction, other bodily
transformations are taking place and there is already talk of the
enormous potential of nanorobots. Microscopic robots that
could invade our bodies to augment our capabilities and
stretch our life expectancies.
These could as well repair a damaged vein or clean cholesterol-clogged arteries, substitute themselves to antibodies to be
attached to a virus and prevent infections, rid the body of
parasites or even replace DNA deficient bits… But if even in an
article published in Nature in August 2020, specialized
nanorobotics researchers already describe a way to
manufacture these minuscule mobile robots, invisible to the
naked eye, designed to venture into environments with
extreme acidity and temperatures: "these are rudimentary
robots and bring to mind Frogger, the famous 80s arcade
game, the Cnet website describes. For the time being, they are
not yet capable to operate in an autonomous manner."
Old age is over
The rapid advance of these technologies and those of biology give may hopes to partisans of transhumanism. In September 2019, the MIT Technology Review titled in a oh-so-slightly provocative way: "Old age is over!". In this article, the journal asks several of best known scientists on the subject, of which David Sinclair, biologist at Harvard University who in 2017 achieved to reverse aging of the DNA of a mouse. For him, aging should be easier to cure than cancer. "Today, most severe illnesses are linked to aging. Therefore, identifying the cellular mechanisms and treatments for aging should be urgent", he declares.
An opinion shared by Guillaume Velve Casquillas, a former
researcher in physics (CNRS, ENS Paris) and cellular biology
(Institut Curie) and co-founder of the Elvesys Microfluidic
Innovation Center. Within the ‟Long Long Life″ community, he
defends the idea "that in the 21st century, death is perhaps not
inevitable, and that we can be the actors of our life span".
For him, three tools issued from biotechnology may enable us,
in the coming decades, to slow, even stop aging:
- Genetic Big Data (to identify the genes responsible for aging)
- Gene therapies (to consequently modify the genome)
- Humans on a chip (to test the millions of necessary gene
therapies combinations to find the most optimal ones).
Because "even though gene therapies exist since the 80s,
explains Guillaume Velve Casquillas in a TEDx conference,
at the beginning one could not control where the gene was
placed. In 2012, the discovery of CRISPR-Cas9⁴ fixes this
problem. By itself, this discovery will not stop the process of
human aging. But research and clinical tests are multiplying
very quickly." In addition, the development of human cell
cultures on small microfluidic chips or 'humans' on a chip
makes it possible to limit tests on humans and animals as
much as possible. "This technology makes it possible to take
cells from under a patient's skin and transform them into the
basic cells of any of their organs: liver, lungs, brain... once
intelligently organized, these cell cultures form multi-organs on
chips, 'humans' on a chip", explains Guillaume Velve Casquillas
who sees this as a major technology for modifying tens, even
hundreds of genes in the same patient to stop their aging
process.
Anti-Aging Therapies
On the website of the Heales (Healthy Life Extension Society) organization many other hopeful findings are recited, such as
a vaccine to eliminate those cells responsible for aging (only tested on mice as of now) or a vaccine destined to prevent and slow the progression of Alzheimer’s disease. Some scientists have so much confidence in their discoveries they are ready to take the risk to test these on themselves. This is what Liz Parrish, the CEO of BioViva did, who followed two experimental gene therapies imagined by her own company: the first to counter the loss of muscle mass linked to age and
the second to fight against depletion of stem cells responsible
for disease and disability. If this research has not yet been
validated, those undertaken to recreate human organs from
stem cells already makes it possible to 'manufacture' retinal
cells, muscles, cartilage, or even a perfectly functional whole
liver. American researchers have succeeded in partially
regenerating the spinal cord of patients who have suffered a
stroke (or CVA – cerebral vascular accident) and clinical trials are
underway to replace lost neurons. It would even be possible to
'reprogram' adult cells into stem cells, which would allow
'self-repair' of organs.
As one can see, whether it’s research conducted in the fields of
biotechnologies, nanotechnologies, artificial intelligence or the
cognitive sciences, by placing all their hopes in technology to
liberate humanity from the ills it suffers, the partisans of
transhumanism radically question the concept that we have
had until now of the human body (in that it is subject to the test
of time or disease). And, in a broader way, of what it means to
be a human being.
1- Aldous Huxley is the author of the science-fiction novel: "Brave New
World".
2- He is the author of "The Internet of Intelligent Things: Your Guide to
The Connected Future".
3- Starting in 1990, he publishes "The Age of Intelligent Machines", then
in 1998 "The Age of Spiritual Machines: when computers exceed Human
Intelligence", in 2005, "The Singularity is near: when humans transcend
biology", in 2012 "How to Create a Mind, The Secret of Human Thought
Revealed" and in 2022, "The Singularity is nearer".
4- Awarded a Nobel Prize in 2020, the CRISPR/Cas9 system is a
genome-editing genome editing tool to cut DNA at a specific point in
the genome of the genome, in any cell.
Sources: MIT Technology Review, iatranshumanisme.com, L’ADN,
consoglobe.com, Courrier International, futura-science.com, Journal du
net, Les Echos
Share this article:
