Neuro-related disorders will be rising globally. Current treatments have numerous limitations that can impair patients' quality of life. One of the key therapeutic approaches is promoting neuroplastic Show more
Neuro-related disorders will be rising globally. Current treatments have numerous limitations that can impair patients' quality of life. One of the key therapeutic approaches is promoting neuroplasticity. Neuroplasticity plays a vital role in memory, learning, and recovery of function after neural damage. Acetaminophen (Paracetamol; APAP) has been suggested as a neuroprotective treatment through modulation of neuroplasticity dose-duration dependently. This systematic review was conducted across major databases such as PubMed/MEDLINE, Google Scholar, Scopus, and Web of Science, between 2002 and October 2025, and from an initial pool of 537 articles, we selected only English-language studies with complete methodology and full results reporting the effects of acetaminophen on neuroplasticity. Preclinical evidence suggests that short-term, low-dose acetaminophen can have neuroprotective effects. Acetaminophen is metabolized in the brain to AM404, which activates TRPV1, inhibit COX-1/COX-2, and modulates the endocannabinoid system, reducing inflammation and oxidative stress. They also engage BDNF neurotrophic signalling, creating a mechanistic basis for potential neuroplasticity modulation. While low-dose, short-term acetaminophen shows neuroprotective effects in preclinical models, long-term or high-dose use may lead to neurotoxicity. Although preclinical evidence suggests that acetaminophen may influence neuroplasticity in a dose- and time-dependent manner, substantial heterogeneity in dosing protocols limits definitive conclusions. Therefore, further standardized preclinical and clinical studies with larger sample sizes and longer follow-up are required to define safe and effective exposure windows in humans. Show less
The analysis of rich catalogues of genetic variation from population-based sequencing provides an opportunity to screen for functional effects. Here we report a rare variant in APOC3 (rs138326449-A, m Show more
The analysis of rich catalogues of genetic variation from population-based sequencing provides an opportunity to screen for functional effects. Here we report a rare variant in APOC3 (rs138326449-A, minor allele frequency ~0.25% (UK)) associated with plasma triglyceride (TG) levels (-1.43 s.d. (s.e.=0.27 per minor allele (P-value=8.0 × 10(-8))) discovered in 3,202 individuals with low read-depth, whole-genome sequence. We replicate this in 12,831 participants from five additional samples of Northern and Southern European origin (-1.0 s.d. (s.e.=0.173), P-value=7.32 × 10(-9)). This is consistent with an effect between 0.5 and 1.5 mmol l(-1) dependent on population. We show that a single predicted splice donor variant is responsible for association signals and is independent of known common variants. Analyses suggest an independent relationship between rs138326449 and high-density lipoprotein (HDL) levels. This represents one of the first examples of a rare, large effect variant identified from whole-genome sequencing at a population scale. Show less