Professors Henriette van Praag and David Gems give the 2022 Nansen Neuroscience Lectures on "Is ageing inevitable?" in the Norwegian Academy of Science and Letters, Norway [0.03%]
挪威科学与文学院院士汉瑞埃特·凡·普拉格教授和大卫·杰姆斯教授将做客2022年南森神经科学讲堂,主题为“老化不可避免吗?”
Evandro F Fang,Linda Hildegard Bergersen,Jon Storm-Mathisen
Evandro F Fang
This is a summary of the 2022 Nansen Neuroscience Lectures. On 10 October 2022, Professors Henriette van Praag and David Gems gave the 2022 Nansen Neuroscience Lectures on the theme "Is ageing inevitable?" in the Norwegian Academy of Scienc...
Pierre-Marie Lledo
Pierre-Marie Lledo
Understanding the brain is not only intrinsically fascinating to apprehend life's complexity or to further progress in fundamental biosciences, but it is also highly relevant to increase our well-being since the brain exhibits a power over ...
Mamta Rai,Fabio Demontis
Mamta Rai
Skeletal muscle health and function are important determinants of systemic metabolic homeostasis and organism-wide responses, including disease outcome. While it is well known that exercise protects the central nervous system (CNS) from agi...
Precision Exercise Medicine: Sex Specific Differences in Immune and CNS Responses to Physical Activity [0.03%]
精准运动医学:体力活动对免疫系统和中枢神经系统性别特异性差异的影响
Constanza J Cortes,Zurine De Miguel
Constanza J Cortes
Physical activity is a powerful lifestyle factor capable of improving cognitive function, modifying the risk for dementia associated with neurodegeneration and possibly slowing neurodegenerative disease progression in both men and women. Ho...
Central Adiponectin Signaling - A Metabolic Regulator in Support of Brain Plasticity [0.03%]
中心脂肪素信号系统—支持大脑可塑性的代谢调节器
Douglas A Formolo,Tong Cheng,Jiasui Yu et al.
Douglas A Formolo et al.
Brain plasticity and metabolism are tightly connected by a constant influx of peripheral glucose to the central nervous system in order to meet the high metabolic demands imposed by neuronal activity. Metabolic disturbances highly affect ne...
Exercise and Dietary Factors Mediate Neural Plasticity Through Modulation of BDNF Signaling [0.03%]
运动和饮食因素通过调节BDNF信号转导介导神经可塑性
Marc Fakhoury,Fady Eid,Perla El Ahmad et al.
Marc Fakhoury et al.
The term "neural plasticity" was first used to describe non-pathological changes in neuronal structure. Today, it is generally accepted that the brain is a dynamic system whose morphology and function is influenced by a variety of factors i...
Cathepsin B and Muscular Strength are Independently Associated with Cognitive Control [0.03%]
组织蛋白酶B和肌肉力量与认知控制各自相关
Jeongwoon Kim,Colleen F McKenna,Amadeo F Salvador et al.
Jeongwoon Kim et al.
Although muscular strength has been linked to greater cognitive function across different cognitive domains, the mechanism(s) through which this occurs remain(s) poorly understood. Indeed, while an emerging body of literature suggests perip...
High Intensity Acute Aerobic Exercise Elicits Alterations in Circulating and Skeletal Muscle Tissue Expression of Neuroprotective Exerkines [0.03%]
高强度急性有氧运动对循环系统和骨骼肌组织中神经保护性运动因子表达的影响
Corey E Mazo,Edwin R Miranda,James Shadiow et al.
Corey E Mazo et al.
Background: Cathepsin B (CTSB) and brain derived neurotrophic factor (BDNF) are increased with aerobic exercise (AE) and skeletal muscle has been identified as a potential source of secretion. However, the intensity of AE...
Microbiota-Gut-Brain Axis Regulation of Adult Hippocampal Neurogenesis [0.03%]
微生物群-肠道-大脑轴线对成人海马神经发生活性的影响
Katherine E Guzzetta,John F Cryan,Olivia F O&#x;Leary
Katherine E Guzzetta
The birth, maturation, and integration of new neurons in the adult hippocampus regulates specific learning and memory processes, responses to stress, and antidepressant treatment efficacy. This process of adult hippocampal neurogenesis is s...
Effect of Single Bout of Moderate and High Intensity Interval Exercise on Brain Derived Neurotrophic Factor and Working Memory in Young Adult Females [0.03%]
单次中等强度和高强度间歇运动对年轻女性大脑源性神经营养因子及工作记忆的影响
Zubia Shah,Farida Ahmad,Musarrat Zahra et al.
Zubia Shah et al.
Objectives: The objectives of the study were to determine the effect of moderate-intensity exercise (MIE) and high-intensity interval exercise (HIIE) on serum brain-derived neurotrophic factor (BDNF) levels and working me...