Near-death experiences (NDEs) might be more common than most would think, according to a new study by the International Association for Near-Death Studies. 

The study reveals that 23 percent of American adults report having had a near-death experience, after which they returned to normal human existence. The study also reveals that 35 percent of the individuals queried about such experiences who have not had an NDE themselves said they know someone who has. 

“In an NDE, usually during a close brush with death, a person has a vivid, emotionally intense experience of lucidly perceiving the material world from a position outside the physical body and/or perceiving and interacting with beings and environments not of the material world,” said Janet Riley, executive director of the International Association for Near-Death Studies, in an email to The Debrief. “Afterward, experiencers are usually profoundly changed.”

The survey, conducted in March 2026 by Centiment and involving 2,100 Americans, looked more deeply at the effects of these experiences. Among those who reported having an NDE, 51 percent said the experience gave them a deeper meaning and appreciation for life, while 37.6 percent said they felt more connected to a “spiritual realm.”

Overall, thirty-one percent said the experience changed their life priorities; 30 percent said they were less afraid of death than before; 30 percent reported greater empathy for others; and 26 percent said they had become more generous and socially minded.

Among respondents who knew a friend or family member who had experienced an NDE, 44 percent said they became more curious about the afterlife, while 40 percent reported a stronger belief in life after death.

“This remarkable data tells us three important things: NDEs may be more common than we realized; people who have NDEs or hear about them are positively impacted, and the majority of Americans believe evidence exists to support the phenomena,” Riley said in a statement. “The survey also makes clear the importance of normalizing conversations about life, death, and what comes after. Those who have had NDEs or who research them may be some of the best teachers.”

What about those who have never had an NDE?

Additionally, the survey revealed that 27.3 percent of participants who had never experienced an NDE themselves found the evidence significant enough to change their minds, while 31.3 percent said it at least provided reliable evidence for some type of phenomenon.

The smallest category of responding participants, at 15 percent, said there was limited evidence, while 24 percent said there was insufficient evidence.

Nearly four out of five respondents (79.8 percent) said there is either some value (36.7 percent) or major value (41.1 percent) in studying near-death experiences.

A Paradigm Shift? 

Culturally, perceptions about NDEs and related subjects may be changing, and mainstream attitudes may be evolving. Even in the world of pop culture, celebrity gossip columnist Perez Hilton (Mario Armando Lavandeira Jr.), known for his often controversial commentary, has spoken publicly about a near-death experience after taking flu medication without food, which led to a stomach ulcer, perforation, and severe sepsis. He ultimately spent 21 days in the hospital.

After the experience, Hilton said he was appalled by his “selfish behavior” and offered apologies, explaining that after finding God, he came to regret the fact that, as he put it, “I didn’t care who I hurt.”

The International Association for Near-Death Studies survey also asked participants whether death frightened them. Twenty-five percent said the idea of dying scared them “a little,” while 14.8 percent said it scared them “a great deal.” However, 31 percent said they felt confident that they would be in a better place after death, while only 6.2 percent worried they would be in a worse place. Another 25 percent said they had “made peace with death.”

“We were founded as a research organization, and no survey like this had occurred recently,” Riley explained. “Given the strong interest in near-death experiences, we thought a survey would be timely.”

“We also felt that communicating the results could help normalize conversations about the phenomenon, which some people are reluctant to share because they fear not being taken seriously,” Riley added.

With this high level of confidence in life after death, such beliefs may continue to spread further into the mainstream, influencing everyday life and shaping how people view themselves and the world around them.

“We also know from NDE research that those who have had the experiences feel a deep connection to others, feel more loving and spiritual, and often feel more altruistic and generous,” Riley says. “We believe connection, love, altruism, and generosity have the potential to make the world a better place.”

Chrissy Newton is a PR professional and the founder of VOCAB Communications. She currently appears on The Discovery Channel and Max and hosts the Rebelliously Curious podcast, which can be found on YouTube and on all audio podcast streaming platforms. Follow her on X: @ChrissyNewton, Instagram: @BeingChrissyNewton, and chrissynewton.com. To contact Chrissy with a story, please email chrissy @ thedebrief.org.

The question of whether artificial intelligence can be conscious has moved well beyond science fiction. It now sits at the center of scientific debate and is increasingly shaping discussions about a range of contentious issues, from AI ethics to animal welfare, fetal development, and laboratory-grown brain tissue.

However, according to a new analysis published in Neuron, the science used to answer that question may not actually be measuring what researchers think it is. A research team led by Hakwan Lau at the Institute for Basic Science in South Korea, with collaborators from the Université de Montréal and New York University, argues that many common experimental methods in consciousness research do not separate subjective experience from general information processing.

In the paper, The Ethical Impasse of Current Consciousness Science, the researchers argue that current scientific tools may not be capable of reliably detecting consciousness.

The Measurement Problem

Consciousness research relies heavily on methods such as visual masking, binocular rivalry, and the detection of perceptual limits. These methods usually compare brain responses when a person is aware of something versus when they are not. The idea is that the difference between these two cases shows whether conscious experience is present or not.

Lau and his team challenge this assumption. When experiments make a stimulus invisible, they often reduce both conscious awareness and the brain’s ability to process information about that stimulus. This means that what appears to be a marker of consciousness in the brain may actually reflect general cognitive activity.

“Many current theories of consciousness appear to be supported by a range of experimental findings,” Lau said. “But those findings may actually reflect general information processing rather than consciousness itself — so it remains difficult to conclude that these theories truly explain consciousness.”

A Historical Warning

The authors compare the current situation to the late 19th and early 20th centuries, when strong claims about consciousness led to a crisis in psychology. The resulting backlash led to the rise of behaviorism, which focused only on observable behavior and halted consciousness research for many years.

Researchers caution that a similar situation could occur again. As AI systems become more advanced and public interest in machine consciousness increases, scientists are under pressure to provide answers. If researchers make strong claims about consciousness in AI, organoids, or fetuses that lack robust methods to support them, scientific credibility could be undermined.

Better Science Required

The authors suggest a different approach. Conditions like blindsight, in which people with brain damage can respond to stimuli they do not report seeing, offer a more controlled way to study consciousness. Another example is hemispatial neglect, where patients fail to notice one side of their visual field while still having basic perception. For researchers, these conditions provide a rare opportunity to separate awareness from information processing and investigate each process on its own.

These conditions show that subjective experience and information processing are distinct from one another. The team says that building experiments around this difference is needed to make reliable scientific claims about consciousness.

The implications of this study extend far beyond the academic world. Deciding whether non-human entities are conscious has direct legal and ethical concerns. The researchers say that the science behind these decisions must meet high standards.

“Questions about consciousness increasingly carry ethical and societal implications,” Lau said. “If scientific claims about consciousness are going to influence discussions about animal welfare, AI ethics, or bioethics, then the scientific foundations supporting those claims must be especially rigorous.”

The researchers conclude that the most urgent challenge is not deciding whether AI, animals, or organoids are conscious, but developing better tools to identify consciousness if it emerges.

Austin Burgess is a writer and researcher with a background in sales, marketing, and data analytics. He holds an MBA, a Bachelor of Science in Business Administration, and a data analytics certification. His work focuses on breaking scientific developments, with an emphasis on emerging biology, cognitive neuroscience, and archaeological discoveries.

A medical startup says it is using disembodied human brains in new drug development research targeting neurodegenerative diseases, a practice that may draw unsettling comparisons to the science fiction trope of a living brain in a jar. 

The brains of deceased donors are reportedly being used in the work by Bexorg, a Connecticut-based medical startup, building on successful attempts to restore limited function in pig brains.

A system dubbed BrainEx, a targeted life-support system for brains, is at the core of Bexorg’s work, restoring metabolic functions in donated organs and enabling extremely invasive research, albeit in a manner that has raised some ethical concerns.

Investigating the Human Brain

In their new process, Bexorg supplies recently deceased human brains with a blood substitute and other fluids that fuel metabolic processes, while anesthesia deadens their electrical activity. The artificially life-sustaining liquids, data, and drugs flow through four ports sutured into each brain, while apparatus mimicking the lungs and kidneys inject oxygen and remove waste. 

Bexborg says that the lack of neural firing in the brain, induced by the anesthetic drug propofol, means they do not experience consciousness. In a strange twilight state, the brain operates as though it were alive, allowing researchers to observe how it metabolizes experimental drugs, yet without the electrical activity that forms consciousness.

The shelf life of these brains is rather short; after only 24 hours, the researchers cut them into hundreds of pieces for a more detailed study. These investigations are targeting how ailments such as Parkinson’s, Alzheimer’s, or amyotrophic lateral sclerosis may respond to new treatments, allowing detailed information on duration, targeting, and potential side effects.

According to Bexborg, the greatest advantage of their work is in the deep complexities of how the human brain develops over decades. The real-world effects of genetics, environmental exposures, and drug histories are difficult to capture in simulated computer models, petri dish cells, or whole-animal brains.

Bexborg Grows

While their work has only recently come to public attention, Bexborg has been working in this space for five years now. They say early results show a close match between the responses displayed by preserved examples and those of living brains.

So far, only the company’s work with pig brains has been published, with their first human brain paper forthcoming. However, according to Bexborg, recent efforts to curb animal testing may potentially be a boon to the company, offering what they see as an ethical alternative.

As part of Bexborg’s upscaling, the company says it is developing new laboratory space where a robotic arm will automatically dissect more than 1,600 preserved brains per year.

Their public relations arm was working at full steam on a public presentation this week, aimed at assuaging those who feared that the brains might still possess some form of consciousness. Bexborg did not respond to inquiries from The Debrief about exactly where the brains used in the company’s research originate. However, the company has claimed that family members are informed about how the brains will be used.

Bringing Bexborg Results to Market

The first real-world application of Bexborg’s work is coming to fruition as their collaborator, Biohaven, begins clinical trials of a drug developed using Bexborg data. Bexborg claims that their work will enable safer clinical trials, as the results will be much closer to a treatment’s effect on actual human brains than those from animal testing or simulated models.

Biohaven praised the results from testing on 130 preserved brains, noting that a dose of their drugs 20 times lower than expected yielded optimal results in human brains, thereby minimizing the time required for clinical trials and potentially alleviating major side effects that could have occurred at the higher dose.

While the company is now focused on drug testing, they say expansion into more robust disease research could be on the horizon. They also note that, since electrical activity is not a major component of neurodegenerative diseases, the BrainEx could be the ideal platform for studying these maladies.

Still, some issues exist with BrainEx, limiting it from being a perfect representation of the human body. These artificial fluids, lungs, and kidneys are not exactly he same as the human originals, and the lack of electrical activity means that potential seizure risks would go unrecognized.

In the future, Bexorg is looking to expand in two directions. The first is exploring ways to extend the longevity of their preserved brains from 24 hours to two weeks, enabling more in-depth research. The second—and perhaps at odds with the company’s focus on the human brain—is NeuroLens, a machine-learning model for simulated drug testing.

Ryan Whalen covers science and technology for The Debrief. He holds an MA in History and a Master of Library and Information Science with a certificate in Data Science. He can be contacted at ryan@thedebrief.org, and follow him on Twitter @mdntwvlf.

This week in stories we’re covering at The Debrief… scientists looked inside an “impossible” crystal formed during a historic nuclear blast, and found something nobody expected. Elsewhere, a discovery at an archaeological site has revealed “a technology lost to history” that proves Neolithic people had mastered an ancient Roman engineering feat an astounding 8,000 years earlier. And finally, scientists argue a radical new approach may be needed to unravel the mystery of consciousness.

Meanwhile, here’s a quick look at other science and technology news we’re covering right now:

• Convicted Harvard Scientist Rebuilds Career in China Through Controversial Brain-Computer Interface Lab
  A former Harvard professor convicted of concealing ties to a Chinese talent program now leads a state-backed brain-computer interface lab in China.
• James Webb Space Telescope Spots an Early Galaxy with an Odd Feature That’s Defying Expectations
  James Webb Space Telescope data have led to the surprising discovery that an early, distant galaxy is not rotating as expected.
• 3000-Year-Old Evidence of “Anomalous” Iron Production Suggests Bronze Age Metalsmiths Launched a Technological Revolution by Accident
  Long before the discovery of iron reshaped civilizations, Bronze Age metalworkers may discovered it by accident, new research suggests.
• “Different Flows of Time All Exist at the Same Moment”: Scientists Claim Trapped-Ion Atomic Clocks Can Observe “Quantum Superposition of Time”
  Scientists claim they can improve the sensitivity of atomic clocks to measure the quantum superposition of time and possibly explain gravity.
• DNA From a Decades-Old Museum Specimen Reveals the Hidden Lineage of a Tiny Underwater Predator
  While most fruit flies are commonly known for their attraction to fermenting fruit, one species has evolved to hunt in the fast-moving streams of Africa, taking on the role of a predator.
• NASA Researchers Have Discovered Something Unexpected in These Haunting New Maps of Earth’s Artificial Light
  Subtle changes are occurring in the nighttime world on our planet, according to NASA scientists who say an unexpected pattern has surfaced in new maps of the world’s artificial light.
• “For Years We Couldn’t Understand It”: What’s the Massive Anomaly Lurking in the Clouds Over Venus?
  A mysterious weather anomaly on Venus has finally been explained, providing new insight into the weather volatility of other planets.
• Dream-Like Mental States Can Occur While Awake, Study Finds
  Shifting mental experiences we usually associate with dreaming can also occur while we are awake, a new study says.
• Mars Express Reveals A Chaotic Feature Carved into the Martian Surface By Ancient Waters
  Martian chaos created by craters, lava, and water was observed by the European Space Agency’s Mars Express in the Shalbatana Vallis.
• Satellites May Be Driving a Concerning New Form of Atmospheric Pollution, Experts Warn
  Experts say satellites are driving climate concerns by producing atmospheric carbon with an impact 500 times that of ground-based emissions.
• NASA’s James Webb Space Telescope is Unveiling the Secrets of the ‘Cosmic Web,’ Offering New Clues to Galactic Evolution
  James Webb Space Telescope data has allowed researchers to map the cosmic web in the greatest detail ever achieved.

Traditionally, consciousness has been treated as an exclusive club. Humans are unquestionably members. Most animals are often assumed to be on the outside. Plants, fungi, bacteria, and machines are typically regarded as little more than biological or mechanical systems lacking any real awareness.

However, a recent review published in Frontiers in Psychology argues that science could be asking the wrong questions and making incorrect assumptions about consciousness.

Dr. Jeff Sebo, a philosopher and professor of environmental studies and bioethics at New York University, explores an intriguing issue in modern science and philosophy: what kinds of beings should we assume are conscious before definitive proof exists.

Rather than focusing only on humans or familiar animals, Dr. Sebo’s analysis examines whether plants, fungi, bacteria, AI systems, robots, and perhaps even all matter itself could possess some form of subjective experience.

While it may sound like a mere philosophical debate, perceptions of what qualifies as consciousness influence a wide range of fields, from biomedical research to the ethical principles guiding humanity’s relationship with nature and emerging technologies.

“Questions about the distribution of consciousness in the world arise constantly in both science and ethics,” Dr. Sebo writes. “These assumptions shape everything from research design and laboratory protocols to farming practices and wildlife management policies.”

Historically, science has often assumed that nonhuman beings lack consciousness. Over the past few decades, however, a growing body of research has increasingly challenged that view, with studies suggesting that many animals—including chimpanzees, dolphins, octopuses, and even insects—possess surprisingly sophisticated cognitive abilities and can exhibit signs of self-awareness, emotion, planning, and tool use.

In 2024, forty scientists and philosophers, including Dr. Sebo, signed the New York Declaration on Animal Consciousness. The decree states that, based on the mounting empirical evidence, there is a “realistic possibility of conscious experience” in many animals. Support for the declaration has expanded dramatically, with the number of signatories growing to nearly 600 scientists and philosophers as of May 2026.

In his recent paper, Dr. Sebo takes the consciousness debate further by challenging the long-standing assumption that nonhuman beings lack consciousness unless overwhelming evidence proves otherwise. He argues that this default skepticism may actually be holding science back.

“The traditional skeptical assumption about nonhuman consciousness may be too restrictive given the current state of evidence and theory,” Dr. Sebo writes. “When we search for evidence with an open mind and non-anthropocentric methods, we tend to find at least some indicators of subjective awareness across a wide range of biological and artificial systems.”  

Instead of treating consciousness as a simple yes-or-no question, Dr. Sebo analyzes several possibilities for how consciousness may be distributed across the natural and artificial world, and examines the default assumptions scientists use when evidence remains uncertain.

One possibility is that all animals are conscious. Similarly, the concept holds that all living beings are conscious, including plants and fungi. A third prospect is the idea that any organism capable of processing sensory information may possess awareness. Another approach centers on complex cognition, potentially extending consciousness to future AI systems.

The most radical possibility is panpsychism, the philosophical idea that consciousness is a fundamental property of matter itself. However, Dr. Sebo cautions that even if simple forms of consciousness existed at the level of matter, further theory would be needed to explain how, or whether, complex conscious experience emerges in larger systems.

Dr. Sebo does not argue that a single default assumption about consciousness is always best. Instead, he argues that scientists and ethicists may need different assumptions for different purposes, depending on the evidence, the research question, and the ethical risks involved.

“We should select different default assumptions about the distribution of consciousness for different purposes and in different contexts, both within and beyond the animal kingdom,” Dr. Sebo writes. “Overall, the aim is to balance theoretical rigor with practical progress, recognizing that assumptions work differently when taken as truth claims and when taken as mere tools.”

One of the central challenges to understanding consciousness is that it remains notoriously difficult to study.

Scientists can observe behavior, brain activity, and information processing, but subjective experience itself cannot be directly accessed from the outside. In philosophy, this is known as the “problem of other minds.” Humans cannot directly verify another being’s inner experience in the same way they can access their own.

“We can directly observe behaviors and anatomies, but not thoughts and feelings,” Dr. Sebo writes. “These epistemic barriers limit our ability to draw firm conclusions about which beings are conscious.”

The inherent inability to observe subjective awareness has led researchers to develop new approaches, including the search for so-called “markers” of consciousness in animals and even in AI systems. By comparing humans and nonhumans, scientists hope to identify similarities that indicate the presence of subjective experiences in animals and in technology.

However, these techniques may have significant limitations because they rely heavily on identifying markers that resemble human consciousness. If consciousness exists in many forms, some animals and potentially future AI systems could exhibit signs of awareness fundamentally alien to human experience, making them much harder for researchers to recognize.

The paper also revisits the so-called “hard problem of consciousness,” the enduring mystery of how physical systems like brains produce subjective experience at all. Even if neuroscience eventually explains how the brain processes information, researchers will still struggle to explain why those processes feel like something from the inside.

Because of the profound uncertainties surrounding consciousness, Dr. Sebo argues that rigid skepticism toward nonhuman awareness may no longer be scientifically justified. Instead, he suggests researchers may benefit from a more flexible, probabilistic approach. Rather than treating entities as either conscious or mindless, scientists could assign varying probabilities of consciousness based on the available evidence.

Adopting this more holistic approach to consciousness could have profound ethical implications, as it would force people to rethink their attitudes towards animals, plants, and artificial intelligence.

If a creature or machine has even a modest chance of experiencing suffering, Dr. Sebo argues society may need to consider the moral risks of ignoring that possibility. Mistakenly treating a conscious being as a mere object could allow enormous harm.

The analysis compares the dangers of false positives and false negatives. Mistakenly treating a nonconscious object as conscious could waste resources or encourage unnecessary emotional attachment. But mistakenly treating a conscious being as though it lacks feelings or awareness could allow suffering on a massive scale.

“At the theoretical level, our defaults should ideally balance the risk of false positives and the risk of false negatives,” Dr. Sebo writes. “At the practical level, our defaults should also reflect what particular agents are able to achieve and sustain at present and what will build momentum toward a better calibrated moral circle in the future.”

The argument becomes especially complicated in the context of artificial intelligence. As Dr. Sebo notes, advanced AI systems could eventually force society into deeply difficult ethical territory.

On the one hand, if future AI systems become capable of mimicking human behavior convincingly enough to persuade society they are conscious, people may eventually face pressure to grant them rights or legal protections.

On the other hand, the paper argues that granting rights or political standing to machines that are not actually conscious could create serious societal dangers. Beyond deepening humanity’s dependence on advanced technologies, Dr. Sebo notes that some experts warn such decisions could even introduce existential risks if increasingly powerful AI systems were treated as entities with genuine moral or political standing.

“The result could be human disempowerment, perhaps even extinction—all for the sake of entities with no inner mental life,” Dr. Sebo writes.

​At the same time, Dr. Sebo cautions against dismissing AI consciousness outright under a default stance of skepticism. He notes science’s long history of underestimating animal consciousness serves as a warning about the risks of assuming unfamiliar minds are impossible.

​Rather than arguing for a single universal standard, Dr. Sebo emphasizes that different situations may require different assumptions about consciousness. Scientific theory, practical research, ethical theory, and real-world policymaking all involve different risks and goals, meaning each may require its own approach.

For example, scientists trying to open new lines of research may benefit from broader assumptions about consciousness, while policymakers designing regulations may need more cautious, incremental standards.

One of the paper’s most striking themes is that consciousness may not be a rare phenomenon restricted to humans and a handful of advanced animals. Instead, the universe may contain a far wider spectrum of minds than humanity can currently imagine.

That possibility carries profound implications for fields ranging from neuroscience and philosophy to agriculture, environmental policy, robotics, AI development, and even the search for extraterrestrial life.

​Ultimately, the idea also raises deeply unsettling questions about humanity’s relationship with the rest of existence—and whether people may have vastly underestimated the presence of conscious experience in the world around them.

“The stakes of our default assumptions about the distribution of consciousness are high,” Dr. Sebo concludes. “As progress continues, our default assumptions about the distribution of consciousness could shape our decisions in a range of contexts, determining the trajectory of consciousness science and the fates of countless entities.”

Tim McMillan is a retired law enforcement executive, investigative reporter and co-founder of The Debrief. His writing typically focuses on defense, national security, the Intelligence Community and topics related to psychology. You can follow Tim on Twitter: @LtTimMcMillan.  Tim can be reached by email: tim@thedebrief.org or through encrypted email: LtTimMcMillan@protonmail.com 

The idea that human consciousness might arise from odd quantum phenomena has intrigued scientists, philosophers, and science fiction writers, inspiring debate about whether the “hard problem” of consciousness could be explained by quantum effects.

A sweeping new review published in Frontiers in Psychology takes a hard look at the field and concludes that though quantum theories of consciousness are becoming more experimentally grounded, none have cleared the enormous scientific obstacles required to explain subjective experience.

The paper, authored by Xun Ma and Aoping Wang of Xiamen University in China, evaluates some of the most prominent quantum consciousness theories using three key lenses: whether the proposed quantum effects can physically exist in the brain, whether they actually explain conscious experience philosophically, and whether they can be experimentally tested against conventional neuroscience models.

The researchers argue that many discussions related to “quantum consciousness” rely more on emotional rhetoric than on measurable science.

“Quantum-theoretical terms are often invoked in a largely narrative or analogical manner without specifying their precise physical meaning or empirical applicability,” researchers write. “This practice often lacks rigorous argumentation, remains insufficiently constrained by clear mechanisms or empirical support, and therefore does not yet provide a substantive solution to the problem of consciousness.”

In the past few years, interest in the idea of quantum biology has steadily increased. Scientists have already demonstrated that quantum effects can play functional roles in biological systems such as photosynthesis and bird navigation. But the leap from quantum chemistry to human awareness remains enormous.

Central to the debate is consciousness itself, which remains one of science’s most enduring and elusive mysteries.

Neuroscience has become increasingly successful at explaining how the brain processes information, stores memories, and controls behavior — what philosopher David Chalmers famously labeled the “easy problems” of consciousness.

The harder question is why physical processes in the brain produce subjective experience at all. Why does seeing red feel like something? Why is there an inner experience accompanying thought?

Quantum theories try to bridge that explanatory gap by proposing that classical neuroscience alone may be insufficient.

In their review, Ma and Wang focus on three major “families” of theories currently attracting scientific attention.

The first and most famous is the Orch OR theory, developed by physicist Roger Penrose and anesthesiologist Stuart Hameroff. This model proposes that quantum computations occur within microscopic structures within neurons called microtubules. According to the theory, coordinated quantum collapses inside these structures generate moments of conscious awareness.

The idea has long been controversial because the brain is warm, wet, and noisy, conditions generally considered hostile to fragile quantum states. Physicist Max Tegmark famously argued in 2000 that quantum coherence inside neurons would collapse far too quickly to matter for cognition.

However, researchers note that more recent laboratory experiments have produced intriguing results. Some studies have identified unusual quantum-optical behaviors in microtubules, including coherent oscillations and energy-transfer effects that persist longer than previously expected. Other experiments suggest anesthetic drugs may interfere with these microtubule dynamics, possibly supporting Orch OR’s claim that consciousness depends on quantum processes.

Still, researchers emphasize that nearly all of this evidence comes from simplified laboratory systems rather than living human brains.

“Current expositions of Orch OR tend to remain at the level of an intuition: if there are quantum processes, novel conscious states may arise, without stating a clear rule of derivation from quantum-state dynamics to the what-it-is-likeness of experience,” researchers write.

In other words, even if quantum effects exist inside neurons, scientists still have no explanation for why those effects should generate subjective awareness.

The second major theory examined in the review concerns nuclear spins and hypothetical structures known as Posner molecules. Proposed by physicist Matthew Fisher, the theory suggests that phosphorus atoms inside the brain may preserve quantum phase coherence long enough to influence neural processing.

Unlike electron-based quantum systems, nuclear spins are relatively immune to environmental noise, making them potentially more stable in biological tissue. The theory predicts that subtle differences between isotopes, atoms with different nuclear characteristics, could shape brain function or even consciousness itself.

Some experiments involving lithium and xenon isotopes have hinted at unusual spin-related biological effects. However, researchers stress that evidence remains sparse and heavily disputed.

Scientists have yet to directly observe long-lived quantum entanglement in Posner molecules inside living brains. Therefore, competing explanations rooted in conventional chemistry also remain plausible.

Ma and Wang describe the nuclear-spin hypothesis as scientifically intriguing but philosophically incomplete. Even if quantum spins influence neural activity, that alone would not explain why consciousness exists.

The third family of theories involves reports of large-scale “non-classical” signals detected using MRI scans. In 2022, research led by physicist Dirk Kerskens reported heartbeat-linked quantum-like signals in the brains of conscious participants. The findings generated immediate attention because they indicated the presence of macroscopic quantum effects across the entire brain.

However, critics quickly challenged the work, arguing that the observed signals could simply reflect conventional physiological artifacts associated with heartbeat and blood flow.

The new review notes that the controversy remains unresolved. Independent replications have not yet confirmed the findings, and the debate has become a case study in the difficulty of separating genuine quantum signals from ordinary biological noise.

Nevertheless, Ma and Wang maintain that these theories of quantum consciousness deserve serious scientific testing rather than outright dismissal.

Importantly, researchers praise the growing shift toward experimentally verifiable predictions. Unlike earlier eras of quantum consciousness speculation, modern researchers are increasingly proposing measurable hypotheses involving anesthesia, isotope substitutions, fluorescence signals, and cutting-edge imaging techniques.

That transition from abstract philosophy to laboratory science may represent the field’s biggest advance.

Researchers call for stricter scientific standards moving forward, including pre-registered studies, open data sharing, multi-center collaborations, and publication of null results. Because quantum consciousness claims are so extraordinary, they argue, the burden of proof must remain exceptionally high.

In their paper, Ma and Wang also repeatedly return to one key distinction: discovering quantum influences in the brain would not automatically solve the problem of consciousness itself.

Even if future experiments verify that neurons create quantum consciousness in some capacity, the central mystery of subjective experience could remain untouched.

“Quantum mechanisms, therefore, look, at the current stage, more like potential realizers of consciousness than like complete theories of consciousness,” researchers conclude.

That finding may frustrate anyone hoping for a definitive answer to the question of quantum consciousness. Yet, researchers propose that while no definitive answer exists, the field is slowly maturing from speculative theory into a more stringent scientific enterprise.

For now, the authors argue that caution and curiosity must coexist.

“In the explorations ahead, progress should be guided by the scientific method, advancing with a balance of curiosity and skepticism,” researchers write. “The riddle of consciousness remains profoundly complex: Quantum mechanics may be one piece of the puzzle, but a solution will likely require sustained multidisciplinary collaboration.”

Tim McMillan is a retired law enforcement executive, investigative reporter and co-founder of The Debrief. His writing typically focuses on defense, national security, the Intelligence Community and topics related to psychology. You can follow Tim on Twitter: @LtTimMcMillan.  Tim can be reached by email: tim@thedebrief.org or through encrypted email: LtTimMcMillan@protonmail.com 

In hours of underwater video footage from a New York aquarium, a beluga whale named Natasha stretches her neck, pirouettes, nods, and shakes her head in front of a two-way mirror. Her daughter Maris does much the same. According to a new study published in PLOS One, both animals show the behavioral hallmarks of mirror self-recognition—a cognitive ability long considered a marker of self-awareness, and one that had never before been documented in beluga whales.

If the result holds up, belugas join a remarkably short list. The mirror self-recognition test (MSR) has been passed, with varying degrees of confidence, by humans (starting around age two), a handful of great apes (chimps, bonobos, orangutans, and—somewhat contentiously—gorillas), Asian elephants, bottlenose dolphins, probably magpies, possibly orcas, and, if you can believe it, a cleaner wrasse. That's it. No dogs, no cats, no monkeys. Plenty of species we had assumed were self-aware have been tested and failed.

Looking at the mirror

So what is this test, exactly, and what is it supposed to tell us?

Read full article

Comments

© David Merron Photography

In hours of underwater video footage from a New York aquarium, a beluga whale named Natasha stretches her neck, pirouettes, nods, and shakes her head in front of a two-way mirror. Her daughter Maris does much the same. According to a new study published in PLOS One, both animals show the behavioral hallmarks of mirror self-recognition—a cognitive ability long considered a marker of self-awareness, and one that had never before been documented in beluga whales.

If the result holds up, belugas join a remarkably short list. The mirror self-recognition test (MSR) has been passed, with varying degrees of confidence, by humans (starting around age two), a handful of great apes (chimps, bonobos, orangutans, and—somewhat contentiously—gorillas), Asian elephants, bottlenose dolphins, probably magpies, possibly orcas, and, if you can believe it, a cleaner wrasse. That's it. No dogs, no cats, no monkeys. Plenty of species we had assumed were self-aware have been tested and failed.

Looking at the mirror

So what is this test, exactly, and what is it supposed to tell us?

Read full article

Comments

© David Merron Photography