10/25/2022 0 Comments Pathological agingThe researchers found that the ability to remember detailed face-location associations was related to having larger volumes in the posterior hippocampal and medial temporal system, and normative aging was associated with reduced volumes in these brain regions and related deficits in memory function. The team worked with a sample of 125 healthy adults aged 19–76 years old who were asked to perform memory tasks. Understanding how normative aging affects brain structure, function, and cognition, is critical for establishing a ground truth or baseline which can be used to help identify early signs of pathological aging associated with diseases such as Alzheimer’s Disease and Parkinson’s. However, it is not age itself that contributes to worsening memory, but rather the effects of age on the volume of the hippocampus, a major brain component that helps consolidate information from short-term memory to long-term memory, that likely impacts memory performance.Ī team of McGill researchers are looking at how certain brain structures change across the lifespan and how this influences memory function. “Association of Low Muscle Mass With Cognitive Function During a 3-Year Follow-up Among Adults Aged 65 to 86 Years in the Canadian Longitudinal Study on Aging” by Stéphanie Chevalier et al., was published in JAMA Network Open.Ī step closer to understanding the impact of aging on memory in older adultsĪging is often associated with memory decline in healthy adults at midlife and advanced age. We should measure muscle more widely, in clinics, not only in research studies.” “Our results show that measuring low muscle mass may help to identify people who have greater risk of cognitive decline. Exercise ─ particularly resistance exercise ─ and good nutrition with sufficient protein can help maintain muscle mass over the years,” says Stéphanie Chevalier, who led the study. “These findings are important because muscle mass is a modifiable factor, meaning that we can do something about it. Researchers from the McGill School of Human Nutrition and the Metabolic Disorders and Complications Program (MeDiC) at the Research Institute of the McGill University Health Centre (RI-MUHC) has shown for the first time that the presence of lower muscle mass is associated with faster cognitive decline in older adults. The research is based on the study of a cohort of 30,000 Canadians between the ages of 65-86 years old. These findings could be used to help identify people at risk of developing dementia, according to the researchers. was published in Nature Communications.įaster cognitive decline in older adults with low muscle mass?įor the first time, McGill University researchers have found a significant association between the presence of low muscle mass and faster cognitive decline, and that this association is independent of muscle strength and physical activity level. “Multistep orthophosphate release tunes actomyosin energy transduction” by Luisa Moretto et al. This applies to serious diseases of the heart and body muscles, to the spread of cancer cells to new tumors and the invasion of human red blood cells by malaria parasites,” says study co-author Alf Månsson, a professor of physiology at Linnaeus University. “Our results are of great potential importance for treating serious diseases in which myosin plays a central role. “The phosphate moves in a different way than previously thought and makes several ‘breaks’ in and on the myosin.” “We have mapped how phosphate, the substance that forms when muscles are activated, behaves when it is released from the myosin during muscle contractions,” says Dilson Rassier, Dean of Faculty of Education and lead author of the study. But exactly how this is done has long been a mystery until now. Individually, their size is only one hundred thousandth of a millimeter but these microscopic units create kinetic energy by converting cell fuel into, among other things, phosphate. In muscles, there are billions of small proteins called myosin and actin. The question of what happens at the molecular level inside our muscles when they are activated has long eluded researchers. The smallest constituents of muscles, myosin and actin, may be targeted to contribute to more effective treatment methods against heart and muscle diseases, say a group of international researchers at McGill University and Linnaeus University. Muscle discovery may lead to better drugs
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