045 - Dying Brains, Frenemies, and the Physiology of Hangry - HealthHippieMD Week In Review
Flavanols Combat Memory Loss in Aging Adults
A new study reveals that flavanols, nutrients found in select fruits and vegetables, are crucial in mitigating age-related memory decline. The research demonstrates a positive correlation between flavanol intake and memory test scores among older adults. Notably, individuals over 60 with low-flavanol diets experienced significant memory improvement after reintroducing these dietary components. This study supports the emerging understanding that specific nutrients are essential for maintaining optimal brain health as we age. By highlighting the power of flavanols, the research offers potential avenues for improving cognitive function in older adults and underscores the importance of a flavanol-rich diet or supplements. Memory Boosting Power of Flavanols in Aging Adults
Gut Check
Scientists have discovered the mechanism behind how chronic stress can lead to gut inflammation. Signals originating in the brain reach gut nerve cells, triggering the release of inflammatory chemicals. The study, The enteric nervous system relays psychological stress to intestinal inflammation glucocorticoids act on gut neurons and glial cells, which then activate immune cells. These immune cells release molecules that cause painful bowel inflammation. The findings suggest that managing stress levels could significantly impact the effectiveness of treatments for inflammatory bowel disease (IBD). The research opens possibilities for targeting the brain-to-gut signaling pathway for new therapies. Chronic stress can inflame the gut — now scientists know why
Frenemies Take a Toll
According to psychologists, ambivalent relationships, known as frenemies, which combine positive and negative aspects, can be more detrimental to health than purely negative relationships. Research reveals that interacting with individuals who evoke mixed feelings can raise blood pressure and lead to negative physical symptoms. Even a single ambivalent interaction can have adverse effects on well-being. Unpredictability increases pain from unpleasant interactions, and rumination contributes to the negative impact of such relationships. Recognizing the harmful effects of frenemies is important for maintaining overall health and well-being. Opinion | Ambivalent Relationships May Be Hazardous to Your Health. (gift article)
The Neuroscience of Hangry
Neuroscientists have discovered a cluster of cells called AgRP neurons that stimulate appetite and play a vital role in the infamous "hangry" feeling. These cells near the brain's blood supply receive signals from the stomach and fat tissue, influencing our hunger levels. By manipulating AgRP neuron activity in mice, researchers have identified how they trigger food-seeking behavior and respond to the presence of nutrients. This breakthrough could lead to new therapies for eating disorders like anorexia and overeating. By understanding and controlling the hangry feeling, scientists hope to revolutionize our ability to manage our diets effectively. Neuroscientists May Have Found the Part of Your Brain That Makes You Hangry
Electrical Activity Surges in the Dying Brain
A new study reveals that dying brains experience a surge of electrical activity, challenging the assumption that brain activity decreases during dying. Researchers monitored four comatose patients who died in a neurointensive care unit and observed a surge of neurophysiological activity in regions associated with conscious processing. This surge included increased synchronization and connectivity between different brain regions. While the study doesn't directly explain near-death experiences, it suggests that the observed brain activity pattern may contribute to the vivid perceptions reported during such experiences, prompting further investigation into the nature of human consciousness. Scientists monitored four dying patients' brains. Here's what they saw . In the late 2000s, David Auyong and I observed the same phenomenon while on call: Processed electroencephalogram during donation after cardiac death.
Biochemistry of Psychedelics, BDNF, and Neuroplasticity
Psychedelics promote plasticity by directly binding to BDNF receptor TrkB | Nature Neuroscience reveals that LSD and magic mushrooms dramatically rewire the brain, offering new possibilities for treating depression. The research conducted by an international team of scientists from the University of Helsinki shows that, at least in a test tube, these psychedelics bind to a protein called receptor tyrosine kinase beta (TrkB), which activates brain-derived neurotrophic factor (BDNF). BDNF plays a crucial role in neuron growth and development. This discovery paved the way for developing safer and more effective treatments for mental health disorders. LSD and Magic Mushrooms Dramatically Rewire the Brain, New Study Reveals.
AIHits (Generative AI Music and Podcasts)
"What makes pop work is that it's always changing and always responding. This is just a feedback loop between systems." AI is having a profound effect on artistic expression in music. Now there's a website to listen to. AI Could Usher in a New Era of Music. Will It Suck?
+The Generative AI gold rush is on in the podcasting space, too, as if the genre wasn't already overcrowded: Generative AI Podcasts Are Here. Prepare to Be Bored.
The Evolutionary Significance of Dreaming
"REM [sleep] has been crucial to human creativity."The evolutionary significance of dreaming is an interesting video on BigThink.
External Stressors Affect Cancer Mortality
Surprise, surprise! Higher allostatic load, a quantitive measure of the cumulative physiological damage from stress, is associated with worse cancer outcomes: Evidence Emerges Showing External Stressors Adversely Affect Cancer Outcomes
Sucralose-Genotoxic?
At least in test tubes, new evidence shows that Sucralose (Splenda) can disrupt DNA. "It's time to revisit the safety and regulatory status of sucralose because the evidence is mounting that it carries significant risks." Sucralose Damages DNA, Linked to Leaky Gut: Study (thanks, Diana!)