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 1. Health
 2. Mind
 3. Neuroscience

Can adults grow new brain cells?

Features
By Marilyn Perkins published 1 June 2025

Scientists are still debating whether the human brain is capable of
growing new cells past childhood.

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an illustration of a brain made up of a network of tiny rainbow lines
"Neurogenesis," or the formation of new neurons, is known to take
place before birth. But some evidence suggests that it can continue
throughout the human lifespan. (Image credit: CHRISTOPH BURGSTEDT/
SCIENCE PHOTO LIBRARY via Getty Images)

The developing human brain gains billions of neurons while in the
womb, and tacks on some more during childhood. For most of the 20th
century, the conventional wisdom was that the brain cells grown
before adulthood would be the only ones we would have for the rest of
our lives. But over the past few decades, more and more research is
challenging that belief.

So is it actually possible for adults to grow neurons? While some
experts believe there's strong evidence that we can gain brain cells
after childhood, others are still skeptical of this notion.

The process of creating new brain cells is called neurogenesis.
Researchers first observed neurogenesis after birth in lab animals of
various ages, including mice, rats and songbirds. In adult mice, they
found new neurons growing in parts of the brain collectively called
the subventricular zone, an area closely linked with sense of smell,
as well as in the hippocampus, a structure that's central to memory.

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Researchers think that neurogenesis in these brain regions is
important for plasticity, or the brain's ability to adapt and change
over time. Plasticity underlies the ability to learn and form
memories, for instance.

In mice, it's clear that lifestyle factors such as living in a
stimulating environment and exercising can promote the growth of new
neurons. Conversely, in mouse models of diseases like Alzheimer's,
neurogenesis is hampered. What's still up for debate is whether these
findings extend beyond mice and other lab animals.

Neurogenesis in human adults?

"Most of our knowledge about adult neurogenesis came from studies in
animal models," Hongjun Song, a professor of neuroscience at the
University of Pennsylvania Perelman School of Medicine, told Live
Science in an email. "Whether such knowledge can be directly
translated to human studies is a challenge."

That's because many of the studies that have established the
existence of adult neurogenesis in animals used methods that aren't
possible in human studies, such as injecting tracer molecules into
the brain. These methods enable scientists to visualize if and where
new neurons are growing, but the tracers themselves can be toxic.
These methods also require dissecting the brain after the animal has
been euthanized.

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"Unfortunately, there is no way to measure neurogenesis in the living
person yet," Gerd Kempermann, a professor of genomics of regeneration
at the Center for Regenerative Therapies in Dresden, Germany, told
Live Science in an email.

Related: Is there really a difference between male and female brains?
Emerging science is revealing the answer.

There are, however, some rare cases in which scientists have been
able to apply similar methods to track neurogenesis in humans. For
example, the tracer molecules used in animal neurogenesis studies are
also sometimes used by doctors to track tumor growth in patients with
brain cancer. While these tracer molecules are too toxic to give to
healthy people, their benefits outweigh their risks in patients who
already have cancer.

Scientists behind a 1998 study published in the journal Nature
Medicine used this approach and analyzed the brains of cancer
patients after their deaths. They reported that, in addition to
flagging cancer cells, the tracer molecules had marked new neurons in
the hippocampus. This finding suggested that humans could grow new
neurons well into adulthood, given the patients were 57 to 72 years
old.

Later, a 2013 study in the journal Cell used a form of radiocarbon
dating to look for new neurons in humans. Radiocarbon dating usually
determines the age of a sample by comparing the relative proportion
of two different forms of carbon, or carbon isotopes, called
carbon-14 and carbon-12. But to study neurogenesis in humans,
scientists instead looked at carbon-14 concentrations inside the DNA
of cells.

Their approach took advantage of the fact that there was a spike in
carbon-14 levels in the atmosphere caused by nuclear bomb tests in
the 1950s and 1960s. People's bodies absorbed this carbon-14 via
their diets, and it became incorporated into their DNA. The amount of
carbon-14 in a given cell corresponds to the isotope's concentrations
in the atmosphere at the time the cell formed, making it possible to
roughly pinpoint the "birthday" of that cell -- and determine whether
it formed after its owner's birth.

By analyzing postmortem brain tissue from people ages 19 to 92, this
radiocarbon study identified newborn neurons in the adult
hippocampus. But while compelling, the study's methods were so
complex that the results have never been replicated.

That said, there are also more indirect markers of neurogenesis, such
as certain proteins that are only present in growing neurons. Using
these methods, both Kempermann and other research groups have
uncovered additional evidence of newborn neurons in the adult human
brain.

"There are many different markers that are more or less specific for
adult neurogenesis," Kempermann said. "In tissue sections, one can
study these markers under the microscope and look for patterns that
are consistent with neuronal development."

Not everyone is convinced

But some researchers aren't convinced by this evidence. Arturo
Alvarez-Buylla, a professor of neurological surgery at the University
of California, San Francisco, has spent his career studying the
growth of new neurons. While he's observed new neurons being formed
in children and adolescents, he's found little evidence to support
the notion of neurogenesis in adults.

Alvarez-Buylla believes there are a number of issues that may lead
other researchers to find signs of neurogenesis in adult humans. For
example, the chemical markers that some labs use to track new neurons
may also show up in other cell types, such as glia, which are cells
in the brain that support neurons' function in various ways. This may
make it appear that new neurons are growing when they're actually
not.

He's also skeptical of the use of carbon-14 dating for this purpose,
calling it "creative" but arguing that researchers can't confirm that
the new cells are neurons, or if there could be other potential
reasons for varying carbon-14 levels in cells.

But Alvarez-Buylla isn't ruling out the possibility of human adult
neurogenesis; he's only saying that -- so far -- the evidence hasn't
convinced him. "I would say that is a rare phenomenon," said
Alvarez-Buylla. "If it happens, it's very, very few cells."

Kempermann, on the other hand, is a firm believer that people can
grow new neurons well into adulthood. "The positive reports outnumber
the critical papers by far, their take is much wider, and their
quality is overall higher."

The researchers said that understanding whether adult neurogenesis
exists will continue to be a key question for the field of
neuroscience.

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"The question about whether adults can grow new neurons has
tremendous implications for the plasticity of the adult brain," Song
said. If new neurons can be grown and integrated into the brain, he
explained, those mechanisms could form the basis for new therapies
for a variety of conditions, including brain injuries and
neurodegenerative disorders.

Alvarez-Buylla said that even if he doesn't believe neurogenesis
happens frequently in adults, it may nonetheless be possible to
harness the mechanisms used by animals to grow new neurons for human
therapies.

"The whole idea that it can happen opens a huge door for repair," he
said. "I hope that we can keep our plasticity open to things going
either way."

---------------------------------------------------------------------

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Marilyn Perkins
Marilyn Perkins
Content Manager

Marilyn Perkins is the content manager at Live Science. She is a
science writer and illustrator based in Los Angeles, California. She
received her master's degree in science writing from Johns Hopkins
and her bachelor's degree in neuroscience from Pomona College. Her
work has been featured in publications including New Scientist, the
Johns Hopkins Bloomberg School of Public Health magazine and Penn
Today, and she was the recipient of the 2024 National Association of
Science Writers Excellence in Institutional Writing Award, short-form
category.

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