Publications by authors named "A A Moskalenko"
Traumatic brain injury (TBI) is a global medical concern and has a lasting impact on brain activity with high risks of mortality. Current treatments are inadequate for repairing damaged brain cells or correcting cognitive and behavioral disabilities in TBI patients. Mounting evidence links TBI to the activation of the Integrated Stress Response (ISR) signaling in the brain.
View Article and Find Full Text PDFAntihistaminic drugs are widely used clinically and have long been primarily known for their use to treat severe allergic conditions caused by histamine release. Antihistaminic drugs also exert central nervous system (CNS) effects, acting as anxiolytics, hypnotics, and neuroleptics. However, these drugs also have multiple serious neuropharmacological side-effects, inducing delirium, hyperarousal, disorganized behavior, and hallucinations.
View Article and Find Full Text PDFTo reduce severe fluoropyrimidine-related toxicity, pharmacogenetic guidelines recommend a dose reduction for carriers of four high-risk variants in the gene (*2A, *13, c.2846A>T, HapB3). The polymorphism in the gene has been shown to enhance the predictive value of these variants.
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- Researchers studied social grooming behavior in mice to better understand neuropsychiatric disorders.
- They analyzed genes linked to abnormal grooming and mapped out protein interactions, revealing several important molecular clusters related to this behavior.
- Identifying key proteins in these clusters could lead to new treatments for neurological disorders by uncovering underlying cellular mechanisms.
Article Synopsis
- Selective area growth of GaN nanostructures was studied, focusing on the effects of temperature and ammonia flux during hydride vapor phase epitaxy.
- The research highlighted two growth behaviors in GaN nanowires, including a growth suppression issue that was resolved using a cyclic growth method.
- A theoretical model was created to explain this growth suppression and various GaN nanocrystal shapes were produced by balancing growth and blocking mechanisms based on temperature and vapor composition, leading to optimal conditions for 5 μm long nanowires.