Your breathing pattern is unique like your fingerprint—and may help predict health issues
Everyone's breathing pattern is unique, and soon scientists might be able to analyze yours to diagnose what ails you.
Scientists were able to identify individual people based just on their breathing pattern with 96.8 percent accuracy, and different patterns corresponded to differences in physical and mental traits, according to a new study in Current Biology.
Because it happens subconsciously, breathing may seem simple, but it's controlled by a complex brain network.
'Respiration has to be coordinated with almost everything,' says Noam Sobel, neurobiologist at the Weizmann Institute of Science in Israel and co-author of the new study. From timing our breathing when we speak, to when we swim, the respiratory system is often negotiating with various parts of the brain.
'Although breathing starts with this breathing center in the brain stem, it actually ends up being coordinated with a humongous chunk of your brain,' says Sobel. Those different parts of the brain include regions responsible for language, emotion, and motor skills.
Inhaling drives specific waves in the brain's memory center that help consolidate memories. When we inhale, pressure in the nasal cavity changes, which excites neurons that send signals to the brain, according to Detlef Heck, a University of Minnesota neuroscientist who was not involved with the new research.
The moment of transition from breathing out to breathing in might have a sort of reset effect in the brain, so changing the breath can help stress regulation and cognitive performance. Slow breathing techniques are used to reduce stress and anxiety, alter mood, and changing breathing patterns can affect cognitive ability and focus.
Scientists are still learning about how the brain shapes breath, how breath shapes the brain, and what information this could one day tell doctors about a patient's health. Unique breath 'fingerprints'
The team conducting the new research mostly studies the brain-breath connection in olfaction, or how taking in scents through the nose brings information directly to the brain to process.
Since every brain is unique, the study authors hypothesized that the respiratory patterns shaped by those brains would also be unique.
To test their hypothesis, the team developed a lightweight, wearable tube that fit inside the participant's nose and continuously tracked nasal airflow over 24 hours. A hundred healthy young adults wore the nasal tube device while going about their daily lives, and logged their activities in a cell phone app.
Study participants all had remarkably distinct breathing patterns, according to the results. The research team was able to identify individuals from only their breathing patterns with 96.8 percent accuracy using a machine learning analysis. This level of accuracy was consistent across multiple retests over two years, meaning the test's precision rivals that of some voice recognition technologies.
'It's very rare that you can predict a biological process so accurately,' says Sobel.
Each respiratory 'fingerprint' also provided insights into each person's mental and physical condition, since certain breathing patterns correlated with body mass index, sleep-wake cycle, and depression and anxiety. Participants who had higher anxiety levels based on questionnaire responses, for example, tended to have shorter inhales and more varied pauses between breaths while sleeping.
Pauses between breaths turned out to be an especially meaningful parameter: one person might consistently pause for one second after each breath, while another person might sometimes pause for one second and other times pause for five seconds. This variability statistic was a powerful tool in the predictive models, says Sobel.
Nasal airflow is so closely connected to the brain because of the evolution of the sense of smell, scientists theorize.
Nasal breathing has also been linked to how we form mental images, for example, and smell is associated with how we store memories.
That may be because smell is the oldest sensory system to exist in mammals, says Sobel, and it's considered a sort of evolutionary scaffolding organizing the evolution of the structure of the mammalian brain.
Although modern humans are more visually-oriented, connections between nasal breathing and so many parts of the brain could be a mechanism left over from evolution, explains Daniel Kluger, neuroscientist at the University of Münster in Germany, who was not involved with the new research.
In studies on performance in visual and spatial tasks—having nothing to do with smell—people tend to perform better while inhaling than while exhaling. This could be because inhalation makes us more sensitive toward any sensory inputs, not only smell, says Kluger, so we're more likely to perceive visual, auditory, and tactile information when it's presented while we're breathing in.
'You're in a particular bodily state [while inhaling] that makes you more sensitive to incoming sensory stimuli,' explains Kluger. Change your breath to change your brain?
Measuring the link between breathing patterns and health conditions on more people could help develop breath analysis as a diagnostic tool, say scientists.
'This is a super exciting finding, but someone needs to show it also works for other [groups],' says Heck, 'but in general I think this is a very promising direction.'
The study authors are now testing their device and analysis method to screen for diseases.
The findings also raise questions about whether changing breath patterns could change what's going on in the brain.
'There's a chicken and egg question here, of what drove what: are you breathing this way because you're depressed, or are you depressed because you breathe this way?' asks Sobel. 'If it's the latter, then that's potentially exciting because that opens paths to intervention—so, can I teach you to breathe in a way that will make you less depressed or less anxious?'
Hashtags
Try Our AI Features
Explore what Daily8 AI can do for you:
Comments
No comments yet...
Related Articles
Forbes
2 days ago
- Forbes
Can Dopamine Fasts Improve Your Focus, Sleep And Sex Drive?
Photo by Mike Kemp/In Pictures via Getty Images If motivation feels harder to access, sex drive has dipped, or attention span is fleeting, dopamine could be the missing piece. Dopamine, often dubbed the "motivation molecule," is paramount to how we experience pleasure, learn new behaviors and pursue goals. But in our hyper-digitized world, we may be numbing the very system we rely on to feel engaged, alive and alert. From endless algorithmic feeds to reward-chasing behaviors like texting, swiping and doomscrolling, we are unknowingly participating in what some researchers now call "neural hijacking." A 2025 study in Current Biology suggests that the average adult receives more than 300 digital dopamine hits per day, microbursts of pleasure and novelty that, over time, dull the brain's sensitivity to natural rewards, such as movement, connection, rest and intimacy. The result? A modern epidemic of anhedonia, burnout, sexual apathy and disrupted circadian rhythms, among others. The term "dopamine fasting" may sound like a trend, but its roots lie in fundamental neurobiology. The mesolimbic dopamine pathway, particularly the nucleus accumbens and prefrontal cortex, plays a crucial role in reward anticipation, habit formation and emotional resilience. When overstimulated, this circuit becomes desensitized, leading to what Stanford psychiatry professor Dr. Anna Lembke refers to as the "dopamine deficit state." "Every time we flood the reward pathway, our brain adapts by downregulating dopamine receptors," Dr. Lembke writes in her 2021 book Dopamine Nation. "Eventually, we need more stimulation just to feel normal, and the absence of stimulation begins to feel like pain." Recent research from the University of Zurich (2024) demonstrated that a five-day reduction in high-dopamine behaviors restored baseline reward sensitivity in participants, who reported: This aligns with findings from the Journal of Psychosomatic Research, which observed that even brief digital abstinence can improve parasympathetic tone, reduce perceived stress and help re-regulate hormonal rhythms, such as cortisol and melatonin. Contrary to popular belief, a dopamine fast is not about eliminating dopamine itself, a neurotransmitter essential for survival, but instead reducing unnatural overstimulation that hijacks the brain's reward loop. Dr. Cameron Sepah, the clinical psychologist who popularized the concept in Silicon Valley, defines dopamine fasting as a "behavioral intervention that restricts impulsive reward-seeking behaviors to allow neurochemical rebalancing." That includes: Instead, the reset invites people to reconnect with low-dopamine, high-meaning experiences, such as creativity, genuine human connection, nature, stillness and analog pleasures. The result? A more finely tuned nervous system, better boundaries and a return to self-led desire. When digital stimulation is reduced, profound shifts often occur across mind-body systems. That's because dopamine doesn't operate in isolation. It modulates other neurohormones that influence everything from libido to cognition. Here's how: This science-informed protocol draws from clinical insights, behavior change models and circadian biology. It's designed not as deprivation but as repatterning, allowing your brain to remember how to enjoy life offline. Day 1: Reclaim Your Mornings Day 2: Set Up Boundaries, Not Bans Day 3: Create A Pleasure Rewire Day 4: Strengthen Connection Circuits Day 5: Reflect, Recalibrate, Recommit In a world hyper-focused on high performance and instant gratification, digital dopamine resets might offer a radical act of restoration. They can remind us that pleasure doesn't have to be fast, loud or filtered to be fulfilling. However, what we're really detoxing from isn't dopamine; it's disconnection from ourselves and our inner mental and emotional ecosystems. Whether you're a founder, a creative, a parent, or a burnout survivor, learning to manage your reward system is one of the most profound and revolutionary skills of the modern age. Remember, unplugging for a few days won't change the world. But it might just change how you show up in it: awake, aware and fully alive.
Gizmodo
2 days ago
- Gizmodo
Non-Hormonal Male Birth Control Pill Passes Key Test
For many couples, the numerous options for birth control still come with plenty of hassles. But scientists are working on an alternative approach that might be more appealing for some: a non-hormonal male birth control pill with possibly very few side effects. The drug is codenamed YCT-529, and it's being developed by the company YourChoice Therapeutics, in conjunction with researchers from the University of Minnesota and others. In early human trial results published this week, YCT-529 appeared to be safe and tolerable. The drug is now being tested in larger-scale studies. Injectable Male Birth Control Effective for at Least 2 Years, Says Biotech Startup YCT-529 (previously known as GPHR-529) targets how the body interacts with vitamin A, which helps maintain fertility in mammals. It blocks a protein that binds to a form of vitamin A (retinoic acid) in our cells, known as retinoic acid receptor alpha (RAR-α). By selectively blocking RAR-α and not other similar proteins, the hope is that YCT-529 will reduce sperm production to zero without causing any major side effects. Importantly, this process is also meant to be reversible once people stop taking the drug. The company began its first clinical trial of YCT-529 in late 2023, and the findings of the trial were published this week in Communications Medicine. It involved 16 healthy men who received either a daily placebo or varying doses of YCT-529; some were also given the drug in combination with food. Phase I trials are primarily intended to test a drug's safety, and YCT-529 seemed to pass with flying colors. Compared to controls, the men on YCT-529 experienced no changes in their heart rate, sex drive, mood, or levels of fertility-related hormones. In fact, no adverse events likely related to the drug were documented at all, the researchers found. There was some evidence that food might slow people's absorption of the drug, though more study is needed to know for sure. 'These results warrant further clinical development of YCT-529,' the study authors wrote. With a New Gel, the Future of Male Birth Control Looks Bright As promising as this data looks, it is still very early days. That said, YourChoice Therapeutics has already forged ahead with a larger Phase II study of YCT-529. And the race to create the world's first reversible male birth control is only heating up. Other research teams and companies have developed contraceptive gels and implants that have also shown promise in human trials so far. Soon enough, men will hopefully have several birth control options to pick from, just like women.
National Geographic
3 days ago
- National Geographic
Cosmic radiation gave the Fantastic Four superpowers. Here's what would happen in real life.
When we gaze up at the night sky, we often marvel at the twinkling stars, distant planets, and expansive galaxies. Yet, beyond the visible spectrum lies a more mysterious aspect of the cosmos—cosmic radiation. These are high energy particles that stream through the universe at nearly the speed of light, according to Dimitra Atri of the Mars Research Group at New York University Abu Dhabi's Center for Astrophysics and Space Science. They originate from events like supernova explosions and solar flares and travel through space, constantly bombarding Earth in all directions and entering its atmosphere. (How cosmic rays helped find a tunnel in Egypt's Great Pyramid.) In Marvel Studios' The Fantastic Four: First Steps, now playing only in theaters, the Fantastic 4 receive their powers after being exposed to cosmic radiation that alters their DNA on a fundamental level. While these high-speed particles unfortunately won't give you superpowers in real life, they can permeate the human body. At high doses, cosmic rays can tear through DNA molecules and damage biological tissue. Prolonged exposure to cosmic radiation can increase the risk of cancer, cataracts, and reproductive problems. It can also hinder neurogenesis, the process of generating new cells in the brain. But just how much the human body is exposed to this type of radiation and how it'll influence our health will vary depending on altitude and what measures are taken to protect us from them. Here's what you should know. How cosmic radiation affects you if you stay on Earth Here on Earth, we have a natural defense system against cosmic radiation that safeguards life on the planet: Earth's atmosphere and magnetic field. The atmosphere absorbs most of the energy from cosmic radiation, letting only a small fraction reach the Earth's surface. Our planet's magnetic field, produced by electric currents in the Earth's core, shields the planet from most harmful space radiation. Cosmic rays that reach the Earth's surface have been recorded by the vapor trails they leave in bubble chambers, such as the above recording from Bubble Chamber-924 in July 1960. Photograph by Science Source/Science Photo Library When the Apollo crews returned from the moon, small dents were found in their helmets caused by impacts from cosmic rays. The above is a magnified view of a silicone test helmet replica. Photograph by NYPL/Science Source/Science Photo Library On average, people on Earth's surface are exposed to around three millisieverts of radiation per year. (Sieverts, frequently expressed in millisieverts, are a unit used to measure the dose of radiation that affects the human body.) However, elevation matters. 'As you move up, the thickness of the atmosphere lessens and you're exposed to more radiation,' Atri says. The higher a person is in altitude, the less atmospheric protection they will receive from cosmic particles. People in high-altitude locations, such as Denver—known as "The Mile High City"—experience slightly elevated cosmic radiation levels than those who are at sea level in places like Miami. How cosmic radiation affects you when you fly When air travel takes us to higher altitudes, it also brings us closer to the highly energetic particles emanating from outer space. While a plane passenger is exposed to elevated levels of cosmic radiation, the radiation they receive in one flight is insignificant. For example, a coast-to-coast round-trip flight is about equal to the radiation dose of a single chest X-ray. Pilots, flight attendants, and frequent flyers, however, face increased exposure to cosmic radiation because of how often they're in the sky. One Harvard University study concluded that radiation exposure contributed to occupational health issues within flight crews and job-related cancer risks. Other research found that aircrew typically receive more radiation exposure than workers at nuclear facilities. 'Still, it is not enough to cause that much damage because you are still within the magnetic field of the Earth, and there is still an atmosphere,' Atri adds. How cosmic radiation affects you when you leave the planet After venturing beyond Earth's protective atmosphere, spacefaring humans face significant radiation exposure levels. The human body in space would be constantly pelted with high-energy particles. (What toll does spaceflight take on astronauts? Here's what we know.) Astronauts aboard the International Space Station (ISS), which orbits the Earth at an altitude of 400 kilometers, or 260 miles, are exposed to much higher levels of radiation than those on Earth's surface. In just one week aboard the ISS, astronauts are exposed to the same cosmic radiation the average human would receive at sea level on Earth in a year. Astronauts traveling to farther reaches of the cosmos—on missions to the Moon, Mars, and beyond—would be exposed to even more cosmic rays during transit and arrival to their destination. Because of this, many space agencies have proposed career-long radiation dose limits on how much radiation spacefaring astronauts can be exposed to. An instrument aboard the Curiosity Mars rover during its 253-day trek to Mars revealed that the radiation dose received by an astronaut on a trip there and back alone would be about 0.66 sieverts—the equivalent of 660 chest X-rays. And while Earth's atmosphere protects it from most of the cosmos' barrage of radiation, Mars' slight atmosphere—about 100 times thinner than Earth's—allows a lot of that radiation in. Using the Curiosity rover's measurements, researchers estimate a 500-day mission on the Red Planet's surface would bring the total exposure to around one sieverts; that's about 10 times the radiation dose an astronaut receives during a six-month mission on the ISS. Researchers have proposed a number of spacecraft designs with shields made of water, hydrogen-rich materials, or planetary material that can offer a potentially safer trip through the cosmos by absorbing radiation. Phantom Torsos, such as the one seen above, are anatomical models built with hundreds of radiation monitoring devices that allow researchers to calculate the amount of radiation that penetrates internal organs during space travel. While space suits offer some protection from cosmic rays, timing extravehicular activities during periods of low solar activity is the best means of protection. There is also ongoing research surrounding shelter designs that, once astronauts have reached their destination, can be buried or shielded to reduce radiation exposure. 'When you're on the surface, you can use Mars' soil to build habitats,' Atri says. 'You can build somethingunderground that gives you natural shielding. That should be sufficient to basically get rid of the most extreme component of damaging radiation.' Cosmic radiation is a major challenge for interplanetary travel, prompting medical experts to also consider medications that can lessen its impact on the human body. 'It's a very interdisciplinary field,' Atri says. 'We have medical professionals, physicists, engineers, psychologists—everyone has to be on board.' Despite our growing knowledge of these mysterious charged particles, Atri says we need more data to fully understand how to protect humans from exposure if we want to explore the far reaches of the cosmos. Unless you have any space travel planned in the near future, you can rest assured you won't be feeling many negative health effects—or experiencing superpowers—from cosmic radiation. Marvel Studios' "The Fantastic Four: First Steps" is now playing only in theaters.
