In
this feature, we discuss six studies that uncover new and unexpected truths
about the organ we hold in our skulls. Neuroscience is never easy, but the
resulting intrigue is worth the effort.
It’s Brain Awareness
Week, and to mark the occasion, we’re taking a look at research focused on the
most complex organ in the human body. You can view all of our content for Brain
Awareness Week here.
The
brain is the pivotal hub of our central nervous system. Through this organ, we
take note of the world, we assess our version of reality, we dream, we ponder,
we laugh.
Its
nervous tendrils permeate every inch of our bodies, innervating, controlling,
and monitoring all that we touch, think, and feel.
Its
other, more silent, yet vital role is its command over our survival as an
organism — our heartbeat, our breathing rate, the release of hormones, and much
more.
Because
of its vast complexity, it is no surprise that we continuously learn new things
about the brain.
In
this feature, we will discuss some recent research that shines fresh light on
the organ that defines us as individuals, controls our emotions, and retains
detailed information about our first pet.
To
start, we will take a look at links between the brain and a seemingly unrelated
part of the body — the gut.
Brain and gut
At
first glance, it seems surprising that our brain and gut are interlinked, but
we have all experienced their tight relationship. By way of example, many of
us, when especially hungry, might be more easily enraged.
In
fact, there is a great deal of neural conversation between the gut and the
brain. After all, if the gut is not well fed, it could be a matter of life and
death; the brain needs to be informed when energy is low so that it can call
other systems into action.
1. Sugar may alter brain chemistry after only 12
days
Recently, Medical News Today published a study that investigated how sugar influenced
the brain of a particular breed of swine, known as Göttingen minipigs. For 1
hour each day for 12 days, the pigs had access to sucrose solution.
Before
and after the 12-day sugar intervention, the scientists used a PET imaging
technique that measured dopamine and opioid activity. They also imaged five of
the pigs’ brains after their first sucrose experience.
They
chose to focus on the dopamine and opioid systems because both play pivotal
roles in pleasure seeking behavior and addiction. One of the authors, Michael
Winterdahl, explains what they found:
“After just 12 days of sugar intake, we could see
major changes in the brain’s dopamine and opioid systems. In fact, the opioid
system, which is that part of the brain’s chemistry that is associated with
well-being and pleasure, was already activated after the very first intake.”
The
authors published their findings in the journal Scientific Reports. Scientists have
debated whether sugar is addictive for decades, but these findings, as the
authors explain, suggest that “foods high in sucrose influence brain reward
circuitry in ways similar to those observed when addictive drugs are consumed.”
2. Gut bacteria and the brain
Over
recent years, gut bacteria and the microbiome at large have become increasingly
popular with scientists and laypeople alike. It is no surprise that gut
bacteria can influence gut health, but it does come as more of an eye-opener
that they might influence our brain and behavior.
Although
at first, this idea was a fringe topic, it is now moving closer to the
mainstream. However, links between gut bacteria and mental health are still
relatively controversial.
Recently,
a study appearing in Nature Microbiology utilized data
from the Flemish Gut Flora Project, which included 1,070 participants. The
scientists wanted to understand whether there might be a relationship between
gut flora and depression.
As the researchers hypothesized, they did find
distinct differences in the gut bacterial populations of those with depression
when they compared them with those who did not experience depression.
These
differences remained significant even after they had adjusted the data to
account for antidepressant medication, which might also influence gut bacteria.
However,
as the authors note, there is still the chance that factors other than
depression might have driven the correlation. Before they firm up the links
between gut bacteria and mental health, scientists will need to carry out much
more work.
MNT published an in-depth article on how
gut bacteria might influence the brain and behavior here.
3. Parkinson’s and the gut
Perhaps
now that we have established a connection between the gut and the brain, we
will find the thought of a gut link to Parkinson’s disease less
surprising. MNT covered a
study that looked at this theory in 2019.
Misfolded
alpha-synuclein is the primary hallmark of Parkinson’s disease. These proteins
aggregate and destroy certain dopamine producing cells in the brain, causing
tremor and the other symptoms of the disease.
The
study, in the journal Neuron, explains how the
researchers created a model of Parkinson’s disease by injecting alpha-synuclein
fibrils into muscles in the mice’s gut.
In the experiment, these clumps traveled from the
gut to the brain through the vagus nerve. Within a few months, the mice
developed symptoms that mirrored Parkinson’s in humans.
Following
on from the findings above, some researchers have begun asking whether
prebiotics might stave off Parkinson’s. A study using a roundworm model
suggests that this theory might be worth pursuing.
Discoveries and
mysteries
Of
course, because the brain is complex, it still holds many secrets. Even some of
the most common behaviors, as yet, defy a neuroscientific explanation. A good
example is a humble yawn.
Yawning
is part of the human experience, but no one knows quite why we do it.
4. A yawning chasm in our knowledge
Scientists
have roundly dismissed conventional theories, such as a lack of oxygen
in the brain. Why we do it, and what is happening in the brain is unclear. One
of the particularly curious things about yawning is the fact that it is
contagious.
A
recent study investigating the contagious power of yawns appeared in the
journal Current Biology. The authors
believe that primitive reflexes in the primary motor cortex might trigger yawn
contagion.
To investigate,
the scientists used transcranial magnetic stimulation (TMS), which is a
noninvasive technique employing magnetic fields to stimulate nerve cells. The
researchers showed participants videos of people yawning and asked them to
either resist the yawn or to let it out.
They found that when they increased levels of
excitability in the motor cortex, they also increased participants’ urge to
yawn.
As
part of the experiment, the researchers measured levels of excitability in
participants’ brains without TMS. They found that individuals with higher
levels of cortical excitability and physiological inhibition in the primary
motor cortex were more predisposed to yawn.
This
finding adds evidence in support of one theory about yawning that involves the
mirror-neuron system. This system, as the authors explain, “is thought to play
a key role in action understanding, empathy, and the synchronization of group
social behavior.”
So,
we still do not fully understand yawning, but we are gathering evidence, and it
might involve empathy.
Source: Medical News Today
My husband was diagnosed with early onset Parkinson's disease at 57.his symptoms were shuffling of feet,slurred speech, low volume speech, degradation of hand writing, horrible driving skills, right arm held at 45 degree angle, things were tough for me, but now he finally free from the disease with the help of total cure ultimate health home, he now walks properly and all symptoms has reversed, he had trouble with balance especially at night, getting into the shower and exiting it is difficult,getting into bed is also another thing he finds impossible.we had to find a better solution for his condition which has really helped him a lot,the biggest helped we had was ultimatehealthhome they walked us through the proper steps,am highly recommended this ultimatehealthhome@gmail.com to anyone who needs help.
ReplyDelete