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Category: health

🧠 The Emotional Brain Under Stress: How the Amygdala Connects Chronic Stress to Chronic Disease

We often think of stress as something that just “gets on our nerves,” but what if it’s actually reshaping our brain — and our long-term health?A recent scientific review published in Biomedicine & Pharmacotherapy by Juhyun Song (2023) highlights a fascinating and urgent connection between the brain’s emotional hub — the amygdala — and our rising burden of metabolic diseases, dementia, and mental health disorders. This tiny almond-shaped structure deep in our brain does more than generate fear or

HEPA air purifiers may boost brain power in adults over 40

Using an in-home HEPA purifier for one month spurs a small but significant improvement in brain function in adults age 40 and older. That’s the result of a new study we co-authored in the journal Scientific Reports.

HEPA purifiers—HEPA stands for high efficiency particulate air— remove particulate matter from the air. Exposure to particulate matter has been connected to respiratory and cardiovascular illnesses as well as neurological diseases such as Alzheimer’s and Parkinson’s. Environmental health researchers increasingly recommend that people use HEPA air purifiers in their homes to lower their exposure to particulate matter, but few studies have examined whether using them boosts mental function.

We analyzed data from a study of 119 people ages 30 to 74 living in Somerville, Massachusetts. Somerville sits along Interstate 93 and Route 28, two major highways, resulting in relatively high levels of traffic-related air pollution. This makes it an especially good location for testing the health effects of air purifiers.

High-resolution imaging shines light on nanoscale nuclear organization

Researchers at the Indian Institute of Science (IISc) have implemented an advanced microscopy technique to visualize multiple biomolecules inside the nucleus of a cancer cell simultaneously at incredibly high resolution. The biomolecules they visualized include critical components of the cell’s transcription machinery and proteins that provide structural support to the nucleus—providing one of the first detailed maps of nuclear organization.

The human body is composed of trillions of cells. Each cell is an intricately organized meshwork of millions of proteins, nucleic acids, and many other molecules vital for the cell’s health. “Building novel technologies to visualize many biomolecules in individual cells is crucial to push the boundaries of biological research,” says Mahipal Ganji, Assistant Professor at the Department of Biochemistry (BC) and corresponding author of the study published in Nature Communications. Conventional imaging techniques, however, allow scientists to visualize only two or three biomolecules in each cell at a time.

In the study, the researchers turned to a microscopy technique called DNA-Points Accumulation for Imaging in Nanoscale Topography (DNA-PAINT), which allows for the visualization of biomolecules inside cells at incredible detail—far beyond the limits of conventional microscopes. It uses small fluorescent DNA fragments or tags that briefly attach to specific targets inside the cell and light up like tiny, blinking signals when a laser beam is shined on them.

Boosting good gut bacteria population through targeted interventions may slow cognitive decline

The origin of neurodegenerative diseases like Alzheimer’s or dementia isn’t limited to the brain. The state of your gut can quietly set off a cycle of chronic, system-wide inflammation that nudges the brain toward cognitive decline. But how does the pathogenesis of a disease that seems purely brain-based begin in the gut—an organ that is mostly busy producing chemicals for digesting food?

It turns out these two entities are linked by the gut-brain axis, a two-way communication superhighway that constantly sends signals between the digestive tract and the central nervous system. It runs on chemical messengers like neurotransmitters and fatty acids, sharing information that shapes our memory, mood, and inflammation triggers.

An analysis of 15 studies involving more than 4,200 participants found that the gut-brain highway can be put to work as a drug-free route to support cognitive health. Tuning the gut microbiota through diet, supplements, or medical interventions such as fecal microbiota transplantation (FMT) can help improve memory, executive function, and overall cognitive performance, particularly in early or mild cases of cognitive impairment.

How parasites exit host cells

After infecting host cells and reproducing, the parasite life cycle requires them to egress so that they can move to the next host. Past studies on the genes required for this process have been conducted but show conflicting results.

The methodology of past studies often involved opening the host cells during the screening process. Consequently, researchers were unable to reliably identify when mutations prevent parasites from egressing.

To avoid the same limitations, the team used an in vivo approach to screen for essential genes instead.

“Our in vivo screen, based on CRISPR, identified for the first time that the MIC11 gene is essential for host cell membrane permeabilization and parasite egress.” Explains the lead author.

Further tests demonstrated that deleting the MIC11 gene led the parasites to be unable to rupture the host cell membrane. By incapacitating parasites in this way, they could no longer exit the host cells, majorly disrupting the parasite life cycle.

“We also found evidence that MIC11 interacts with PLP1, providing further evidence of MIC11’s crucial role,” explains the senior author. “PLP1 is another parasite protein that was already known to be essential for egress.” ScienceMission sciencenewshighlights.

Continue reading “How parasites exit host cells” | >

Objectively Measured Daytime Napping and All-Cause Mortality in Older Adults

Among older adults, longer and more frequent daytime napping, especially in the morning, was associated with higher AllCauseMortality, supporting wearable sleep assessment for risk evaluation.

Question Are objectively measured daytime nap characteristics, including duration, frequency, variability, and timing, associated with all-cause mortality among community-dwelling older adults?

Findings In this prospective cohort study of 1,338 adults aged 56 years or older, longer and more frequent daytime napping, as well as morning napping, were associated with higher all-cause mortality. Variability in nap duration was not associated with mortality.

Meaning The findings suggest longer and more frequent, particularly morning, napping may be a behavioral marker of increased mortality risk in late life, underscoring the potential clinical value of incorporating wearable device–based nap assessments into routine health monitoring.

Anaerobic digestion of poultry droppings for biogas production: a pilot study of renewable energy technology in the agricultural sector

Proper management of agricultural waste is challenging due to diverse sources, high production volumes, seasonal fluctuations, limited technical knowledge, and insufficient funding. These challenges often lead to soil degradation, environmental pollution, and adverse effects on ecosystems and human health. This study aims to investigate biogas production from poultry droppings using Continuous Stirred Tank Reactor (CSTR) Anaerobic Digestion (AD) technology to promote green energy use and as a sustainable solution for agricultural waste management.

Dried poultry manure samples were collected from two poultry farms in Lafia city and from their manure disposal sources. The samples were thoroughly stirred to ensure homogeneity and digested at a mesophilic temperature of 28.0 °C. With an initial solid concentration of 20.0%, the manure was diluted with water at 1:2 ratio to produce an input slurry containing 12.0% total volatile solids by weight. The experiment was conducted from July 20 to September 10, 2025. Parameters including pH, alkalinity, temperature, and biogas flow rate were monitored daily. Chemical and physical analyses of total solids, total volatile solids, and chemical oxygen demand were conducted during startup using three biological replicates (n = 3), with results expressed using statistical tool of mean ± standard error. Volatile fatty acids and alkalinity were measured using the distillation method.

Hidden mosquito viruses emerge as RNA immune signals map global infections

Aedes aegypti, commonly known as the yellow fever mosquito, is a highly adapted, invasive mosquito species recognized as a major global health threat that acts as the primary vector for several severe diseases, most notably dengue fever, as well as yellow fever, chikungunya and Zika virus. Local government agencies conduct routine molecular surveillance of these mosquitoes to detect and track viruses. However, they are primarily limited to using conventional reverse transcription polymerase chain reaction methodologies, which can only detect known pathogens that have already been identified and for which specific genetic primers have been developed.

Recent research efforts applying high-throughput RNA sequencing have led to a large expansion in the mosquito virome (the entire collection of viruses contained within mosquitoes). However, questions remain as to how persistent insect viruses are within mosquito colonies, how insect viruses interact with mosquito immune responses and how frequently insect viruses can be transmitted.

A new study by Boston University Chobanian & Avedisian School of Medicine researchers looked at the mosquitoes’ immune response to discover many more insect viruses and they hope to someday use the mosquitoes’ own immune system to battle some of the most pervasive and antagonistic human viruses. The findings are published in the journal Nature Communications.

Supporting the concept that GLP1 agonist drugs lower BloodPressure independent from their weight loss effects

Daniel J. Drucker & team identify the vascular smooth muscle GLP-1 receptor as a key cellular target for the actions of GLP-1 medicines to lower blood pressure.

The figure: Renal GLP1R/Glp1r is expressed in human and murine vascular smooth muscle cells (VSMCs) and Glp1rVSM-/- mice have reduced Glp1r transcripts in renal tissues.

1Lunenfeld-Tanenbaum Research Institute, Sinai Health System, Toronto, Ontario, Canada.

2Section of Nephrology, Department of Medicine, Boston University Chobanian & Avedisian School of Medicine, Boston, Massachusetts, USA.

Address correspondence to: Daniel J. Drucker, Mt. Sinai Hospital, 600 University Ave. Mailbox 39, Toronto, Ontario, Canada, M5G1X5. Phone: 416.361.2661; Email: [email protected].

Continue reading “Supporting the concept that GLP1 agonist drugs lower BloodPressure independent from their weight loss effects” | >

Long COVID is associated with increased risk of cardiovascular disease

People with long COVID are at increased risk of developing cardiovascular disease, according to a new study from Karolinska Institutet published in eClinicalMedicine. The results show that the risk of conditions such as cardiac arrhythmias and coronary artery disease is higher even among those who were not hospitalized during the acute infection.

Long COVID has become an increasingly significant health problem worldwide, and a growing number of studies suggest that the condition can lead to secondary cardiovascular diseases. To date, research has mainly focused on people who were hospitalized, while the risks for those who stayed at home or were treated at a GP are less well known. In the current study, the researchers investigated how often major cardiovascular events occur in these individuals compared with those without the diagnosis.

Of the just over 1.2 million people aged between 18 and 65 included in the study, around 9,000 had been diagnosed with long COVID, corresponding to 0.7%. Two-thirds of them were women. People who had previously had cardiovascular disease or been hospitalized for COVID-19 were excluded from this group.

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