Authored by Yuhong Dong M.D., Ph.D., Makai Allbert via The Epoch Times (emphasis ours),
“As a neurosurgeon, I was taught that the brain creates consciousness,” said Dr. Eben Alexander, who wrote in detail about his experiences with consciousness while in a deep coma.
Many doctors and biomedical students may have been taught the same about consciousness. However, scientists are still debating whether that theory holds true.
Imagine a child observing an elephant for the first time. Light reflects off the animal and enters the child’s eyes. Retinal photoreceptors in the back of the eyes convert this light into electrical signals, which travel through the optic nerve to the brain’s cortex. This forms vision or visual consciousness.
How do these electrical signals miraculously transform into a vivid mental image? How do they turn into the child’s thoughts, followed by an emotional reaction—“Wow, the elephant is so big!”
The question of how the brain generates subjective perceptions, including images, feelings, and experiences, was coined by Australian cognitive scientist David Chalmers in 1995 as the “hard problem.”
As it turns out, having a brain may not be a prerequisite for consciousness.
‘Brainless’ but Not Mindless
The Lancet recorded a case of a French man diagnosed with postnatal hydrocephalus—excess cerebrospinal fluid on or around the brain—at the age of 6 months.
Despite his condition, he grew up healthy, became a married father of two children, and worked as a civil servant.
When he was 44 years old, he went to the doctor due to a mild weakness in his left leg. The doctors scanned his head thoroughly and discovered that his brain tissue was almost entirely gone. Most of the space in his skull was filled with fluid, with only a thin sheet of brain tissue.
“The brain was virtually absent,” wrote the lead author of the case study, Dr. Lionel Feuillet, of the Department of Neurology, Hôpital de la Timone in Marseille, France.
The man had been living a normal life and had no problem seeing, feeling, or perceiving things.
The normal brain cortex is responsible for sense and movement, and the hippocampus is responsible for memory. Hydrocephalus patients lose or have significantly less volume of these brain regions, yet they can still perform related functions.
Even without substantial brains, these people can have above-average cognitive function.
Professor John Lorber (1915–1996), a neurologist from the University of Sheffield, analyzed more than 600 cases of children with hydrocephalus. Of those, he found that half of around 60 children with the most severe type of hydrocephalus and cerebral atrophy had an IQ higher than 100 and lived normal lives.
Among them, one university student had excellent grades, a first-class honors degree in mathematics, an IQ of 126, and was socially normal. This math genius’s brain was only 1 millimeter thick, while an average person’s is usually 4.5 centimeters thick—44 times larger.
Lorber’s findings were published in the journal Science in 1980 with the headline “Is Your Brain Really Necessary?”
The Invisible Brain
“The important thing about Lorber is that he’s done a long series of systematic scanning rather than just dealing with anecdotes.” Patrick Wall (1925–2001), professor of anatomy at University College London, was quoted as saying in an article by Roger Lewin published in Science in 1981 discussing Lorber’s article.
The cases of people without brains challenge the conventional teachings that brain structure is the basis for generating consciousness. Is our brain—weighing about three pounds, with roughly two billion neurons connected by around 500 trillion synapses—the real source of consciousness?
Some scientists have proposed that deep and invisible structures in the brain explain normal cognitive function—even with severe hydrocephalus. These structures may not be easily visible on conventional brain scans or to the naked eye. However, the fact that they are not readily apparent doesn’t mean they don’t exist or aren’t important for brain function.
“For hundreds of years neurologists have assumed that all that is dear to them is performed by the cortex, but it may well be that the deep structures in the brain carry out many of the functions assumed to be the sole province of the cortex,” Wall commented in the 1981 article.
These unknown deep structures “are undoubtedly important for many functions,” said neurologist Norman Geschwind (1926–1984) from Beth Israel Hospital, affiliated with Harvard University, in the 1981 article.
Furthermore, the deep structures “are almost certainly more important than is currently thought,” said David Bowsher, a professor of neurophysiology at the University of Liverpool in the UK, in the same article.
The source of consciousness may exist in realms we’ve yet to explore. When medical theories can’t solve a mystery, physics might step in with a plot twist—in particular—quantum physics.
Beyond Neurons
“To understand consciousness, we can’t just look at the neurons,” Dr. Stuart Hameroff, director of the Center for Consciousness Studies at the University of Arizona, told The Epoch Times.
Even single-celled organisms like paramecium demonstrate purposeful behaviors such as swimming, avoiding obstacles, mating, and, significantly—learning—without having a single synapse or being part of a neural network.
According to Hameroff, these intelligent, possibly conscious behaviors are mediated by microtubules inside the paramecium. The same microtubules are found in brain neurons and all animal and plant cells.
Microtubules, as the name suggests, are tiny tubes inside cells. They play essential roles in cell division, movement, and intracellular transport and appear to be the information carriers in neurons.
The proteins that make up microtubules (tubulin) are “the most prevalent or abundant protein in the whole brain,” Hameroff told The Epoch Times. He hypothesizes that microtubules are key players in human consciousness.
“Because [when] you look inside neurons, you see all these microtubules, and they’re in a periodic lattice, which is perfect for information processing and vibrations,” Hameroff stated.
Due to their properties, microtubules function like antennas. Hameroff says they serve as “quantum devices” to transduce consciousness from a quantum dimension.
Quantum Devices
British physicist, mathematician, and Nobel Laureate Sir Roger Penrose and Hameroff hypothesized a theory that quantum processes generate consciousness.
Quantum refers to tiny units of energy or matter at a microscopic level. Its unique features can help us understand many things that current science cannot explain.
In simple terms, microtubules act as a bridge between the quantum world and our consciousness. They take quantum signals, amplify them, organize them, and somehow, through processes we don’t fully understand, turn them into the feelings, perceptions, and thoughts that make up our conscious awareness.
Microtubules can explain bewildering facts about the brain. Hameroff posits that the brains of individuals born with hydrocephalus can adapt as their microtubules control neuroplasticity and reorganize their brain tissue.
“So over time, the microtubules in that brain adapt and rearrange themselves to sustain consciousness and cognition,” he said.
Therefore, according to Hameroff, our brains serve like information processors, receiving signals from the universe and forming them into consciousness.
The brain processes information across multiple scales, each vibrating at different frequencies. Brain waves oscillate slowly at 0.5–100 hertz (Hz). Individual neurons fire faster at 500–1000 Hz. Inside neurons, microtubules vibrate much quicker, in the megahertz range. At the tiniest quantum scale, frequencies reach incredibly high levels, theoretically up to 10^43 Hz.
Other scientists are also using alternative quantum theories to explain mental activities. A study published in Physical Review E shows that vibrations in lipid molecules within the myelin sheath can create pairs of quantum-entangled photons. It suggests that this quantum entanglement may help synchronize brain activity, providing insights into consciousness.
A Quantum Orchestra
“Rather than a computer of simple neurons, the brain is a quantum orchestra,” Hameroff described, “Because you have resonances and harmony and solutions over different frequencies, much like you do in music. And [so] I think consciousness is more like music than it is a computation.”
Science is always evolving. The study of consciousness is still an area of active research and debate in neuroscience and philosophy.
However, each new discovery opens up new possibilities. As we continue to explore these mysteries, let’s remain curious and open-minded.
Next, we will discuss reports published by physicians in highly-ranked journals, offering more insights into the nature and origin of consciousness.
Views expressed in this article are the opinions of the author and do not necessarily reflect the views of The Epoch Times or ZeroHedge.
Tyler Durden
Thu, 10/03/2024 – 21:45