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Category: biotech/medical – Page 3

Quantum computing occurs naturally in the human brain, study finds

Kurian’s group believes these large tryptophan networks may have evolved to take advantage of their quantum properties. When cells breathe using oxygen—a process called aerobic respiration—they create free radicals, or reactive oxygen species (ROS). These unstable particles can emit high-energy UV photons, which damage DNA and other important molecules.

Tryptophan networks act as natural shields. They absorb this harmful light and re-emit it at lower energies, reducing damage. But thanks to superradiance, they may also perform this protective function much more quickly and efficiently than single molecules could.

Brain imaging may identify patients likely to benefit from anxiety care app

The preliminary study suggested that young people with weaker connections between two involved in both attending to and regulating responses to were more likely to benefit from a self-guided anxiety care app than those with stronger connections.

The study, published in JAMA Network Open, looked at data from a subset of clinical trial participants who agreed to undergo a brain MRI before using the anxiety care app developed by the investigators.

Neuroimaging Findings of CAR T-Cell-Associated NeurotoxicityA Review

This review explores the current literature on brain MRI findings of CAR-T–induced neurotoxicity, highlighting diagnostic capabilities, clinical implications, and emerging trends in advancing imaging modalities.

Chimeric antigen receptor T-cell (CAR-T) therapy has remarkable efficacy in treating refractory hematologic malignancies. However, CAR-T therapy may induce neurotoxic effects in some patients. Common symptoms of neurotoxicity range from early signs such as headache, confusion, delirium, and aphasia to severe manifestations such as seizures, motor weakness, increased intracranial pressure, cerebral edema, and coma. Magnetic resonance imaging (MRI) can offer invaluable insight into resulting abnormalities in the structure, physiology, and function of the central nervous system. This review aims to examine the current literature on brain MRI findings of CAR-T–induced neurotoxicity, elucidating its diagnostic capabilities, clinical implications, and emerging trends in advancing imaging modalities.

New treatment could reduce brain damage from stroke, study in mice shows

Cambridge scientists have developed and tested a new drug in mice that has the potential to reduce damage to the brain when blood flow is restored following a stroke.

The study, “Local arterial administration of acidified malonate as an adjunct therapy to mechanical thrombectomy in ischemic stroke” was published in Cardiovascular Research.

As many as one in four people will have a stroke during their lifetime. This is when a blood clot prevents oxygen from reaching a part of the brain. The first few hours following a stroke are crucial—the blood clot needs to be removed quickly so that the to the brain can be restored; otherwise, the brain tissue begins to die.

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.