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Reduced levels of miRNAs 449 and 34 in sperm of mice and men exposed to early life stress

Many studies have confirmed that exposure to severe stress during childhood has long-lasting negative health effects. One of the most convincing has been the Adverse Childhood Experience (ACE) Study, which is supported by over 100 publications1. It was initiated by collaboration between the Centers for Disease Control and Prevention and Kaiser Permanente’s Department of Preventive Medicine. It led to the ACE Study Questionnaire (see http://www.acestudy.org/index.html), where anonymous yes or no answers to 10 questions involving participant’s experiences at home until the age of 18 are quantified. Five are personal questions about physical abuse, verbal abuse, sexual abuse, physical neglect, and emotional neglect. Five relate to other family members: an alcoholic parent, a victim of domestic violence, incarceration, diagnosed with a mental illness, and the disappearance of a parent through divorce, death, or abandonment. A score ≥4 puts one at serious risk for future mental and physical health problems, such as a 4.6-fold increased rate of depression2 and a ~30-fold increased rate of suicidal ideation and attempts in adults3. Remarkably, 10% of the population reports scores of ≥4.

There is a growing appreciation that clinicians should be aware of patients’ traumatic experiences, particularly when young, because they add to their risk for physical and psychiatric maladies4,5. Moreover, sensitivity to PTSD has been shown to correlate with ACE score6,7,8 implying it can be used as a screening tool to identify people who should take extra precaution to avoid trauma. However, some may not answer the ACE questionnaire accurately due to suppressed memories or because of the sensitive nature of many of the questions, particularly in settings that do not allow anonymity. Thus, discovery of unbiased markers for early trauma could complement ACE surveys in some clinical settings.

Moreover, offspring of those exposed to early life trauma are at elevated risk for psychiatric disorders9. This phenomena has also been demonstrated in rodents10,11. For example, transmission of the effects of stress across generations has been observed after exposing male mice to a wide variety of psychological stresses, including social defeat12, chronic physical restraint13, multiple variable perturbations in adults14, social instability beginning in adolescence15, and early maternal separation16. While some evidence in mice points to environmentally induced changes in sperm DNA methylation as a mechanism for transmission of stress phenotypes16, the best evidence to date supports small RNA species in sperm. Recent studies show that sperm contain various types of cytoplasmic RNAs (e.g., mRNAs, miRNAs, siRNAs, lnc-RNAs, piwi-interacting RNAs, and fragments of tRNAs) that have the potential to contribute to embryo development17,18,19.

This One Sleep Habit Could Be Secretly Wrecking Your Health

New research reveals that irregular sleep patterns, not just how long we sleep, may significantly raise the risk of numerous diseases. A major international study published in Health Data Science has revealed strong links between sleep patterns and the development of 172 different diseases. By ex

Researchers develop flexible fiber material for self-powered health-monitoring sensors

Could clothing monitor a person’s health in real time, because the clothing itself would be a self-powered sensor? A new material created through electrospinning, which is a process that draws out fibers using electricity, brings this possibility one step closer.

A team led by researchers at Penn State has developed a new fabrication approach that optimizes the internal structure of electrospun fibers to improve their performance in electronic applications. The team has published its findings in the Journal of Applied Physics.

This novel electrospinning approach could open the door to more efficient, flexible and scalable electronics for wearable sensors, health monitoring and sustainable energy harvesting, according to Guanchun Rui, a visiting postdoctoral student in the Department of Electrical Engineering and the Materials Research Institute and co-lead author of the study.

New computer program mimics cell behavior for faster medical discoveries

Using mathematical analysis of patterns of human and animal cell behavior, scientists say they have developed a computer program that mimics the behavior of such cells in any part of the body. Led by investigators at Indiana University, Johns Hopkins Medicine, the University of Maryland School of Medicine and Oregon Health & Science University, the new work was designed to advance ways of testing and predicting biological processes, drug responses and other cell dynamics before undertaking more costly experiments with live cells.

With further work on the program, the researchers say it could eventually serve as a “digital twin” for testing any drug’s effect on cancer or other conditions, gene environment interactions during brain development, or any number of dynamic cellular molecular processes in people where such studies are not possible.

Funded primarily by the Jayne Koskinas Ted Giovanis Foundation and the National Institutes of Health, and leveraging prior knowledge and data funded by the Lustgarten Foundation and National Foundation for Cancer Research, the new study and examples of cell simulations are described online July 25 in the journal Cell.

From thousands of defects, one magnesium oxide qubit emerges as a quantum contender

Used as a versatile material in industry and health care, magnesium oxide may also be a good candidate for quantum technologies. Research led by the U.S. Department of Energy’s (DOE) Argonne National Laboratory and published in npj Computational Materials reveals a defect in the mineral that could be useful for quantum applications.

Researchers are exploring possible building blocks, known as qubits, for systems that could exploit . These systems could operate in various devices that may outperform classical supercomputers, form unhackable networks or detect the faintest signals.

Unlocking the potential of qubits for applications such as quantum computing, sensing and communications requires an understanding of materials on the atomic scale.

A Pill That Makes Your Blood Deadly to Mosquitoes? It’s Real — And It Works

Ivermectin is typically used to treat neglected tropical diseases such as onchocerciasis (river blindness) and lymphatic filariasis (elephantiasis). However, studies have shown that it can also reduce malaria by killing mosquitoes that bite people who have taken the drug. As resistance to insecticides increases, ivermectin may offer a new and effective way to reduce transmission, especially in areas where standard methods are no longer reliable.

The BOHEMIA project (Broad One Health Endectocide-based Malaria Intervention in Africa), funded by Unitaid, tested this idea through two large-scale Mass Drug Administration (MDA) trials in regions with high malaria burden: Kwale County in Kenya and Mopeia district in Mozambique. Researchers evaluated whether giving a single monthly dose of ivermectin (400 mcg/kg) over three months at the start of the rainy season could lower malaria transmission. In Kenya, the program focused on children aged 5 to 15, while in Mozambique it targeted children under the age of five.

Is that wildfire smoke plume hazardous? New satellite tech can map smoke plumes in 3D for better air quality alerts at neighborhood scale

As wildfire smoke becomes a frequent summer hazard across large parts of the US, knowing the risk at the neighborhood scale matters for human health.