Austin M. Adkins , Emily M. Colby , Alea F. Boden , Justin D. Gotthold , Ryan D. Harris , Richard A. Britten , Laurie L. Wellman , Larry D. Sanford
{"title":"Effects of social isolation and galactic cosmic radiation on fine motor skills and behavioral performance","authors":"Austin M. Adkins , Emily M. Colby , Alea F. Boden , Justin D. Gotthold , Ryan D. Harris , Richard A. Britten , Laurie L. Wellman , Larry D. Sanford","doi":"10.1016/j.lssr.2024.01.005","DOIUrl":null,"url":null,"abstract":"<div><p>Future NASA missions will require astronauts to travel farther and spend longer durations in space than ever before. This will also expose astronauts to longer periods of several physical and psychological challenges, including exposure to space radiation (SR) and periods of social isolation (SI), which could have unknown negative effects on physical and mental health. Each also has the potential to negatively impact sleep which can reduce the ability to cope with stressful experiences and lead to sensorimotor, neurocognitive, and physical deficits. The effects of SI and SR on gross motor performance has been shown to vary, and depend on, individual differences in stress resilience and vulnerability based on our established animal model in which stress produces different effects on sleep. In this study, the impact that SI and SR, either alone or together, had on fine motor skill performance (bilateral tactile adhesive removal task (BTAR)) was assessed in male rats. We also examined emotional, exploratory, and other off-task behavioral responses during testing and assessed whether sensorimotor performance and emotion varied with individual differences in resilience and vulnerability. BTAR task performance was differentially impacted by SI and SR, and were further influenced by the stress resilience/vulnerability phenotype of the rats. These findings further demonstrate that identifying individual responses to stressors that can impact sensorimotor ability and behavior necessary to perform mission-related tasks will be of particular importance for astronauts and future missions. Should similar effects occur in humans, there may be considerable inter-individual variability in the impact that inflight stressors have on astronauts and their ability to perform mission-related tasks.</p></div>","PeriodicalId":2,"journal":{"name":"ACS Applied Bio Materials","volume":null,"pages":null},"PeriodicalIF":4.6000,"publicationDate":"2024-02-03","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"ACS Applied Bio Materials","FirstCategoryId":"99","ListUrlMain":"https://www.sciencedirect.com/science/article/pii/S2214552424000154","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"Q2","JCRName":"MATERIALS SCIENCE, BIOMATERIALS","Score":null,"Total":0}
引用次数: 0
Abstract
Future NASA missions will require astronauts to travel farther and spend longer durations in space than ever before. This will also expose astronauts to longer periods of several physical and psychological challenges, including exposure to space radiation (SR) and periods of social isolation (SI), which could have unknown negative effects on physical and mental health. Each also has the potential to negatively impact sleep which can reduce the ability to cope with stressful experiences and lead to sensorimotor, neurocognitive, and physical deficits. The effects of SI and SR on gross motor performance has been shown to vary, and depend on, individual differences in stress resilience and vulnerability based on our established animal model in which stress produces different effects on sleep. In this study, the impact that SI and SR, either alone or together, had on fine motor skill performance (bilateral tactile adhesive removal task (BTAR)) was assessed in male rats. We also examined emotional, exploratory, and other off-task behavioral responses during testing and assessed whether sensorimotor performance and emotion varied with individual differences in resilience and vulnerability. BTAR task performance was differentially impacted by SI and SR, and were further influenced by the stress resilience/vulnerability phenotype of the rats. These findings further demonstrate that identifying individual responses to stressors that can impact sensorimotor ability and behavior necessary to perform mission-related tasks will be of particular importance for astronauts and future missions. Should similar effects occur in humans, there may be considerable inter-individual variability in the impact that inflight stressors have on astronauts and their ability to perform mission-related tasks.
美国国家航空航天局(NASA)未来的任务将要求宇航员在太空中旅行的距离比以往任何时候都要远,停留的时间比以往任何时候都要长。这也将使宇航员面临更长时间的生理和心理挑战,包括暴露于空间辐射(SR)和社会隔离(SI),这可能会对生理和心理健康产生未知的负面影响。这两种情况还可能对睡眠产生负面影响,从而降低应对压力体验的能力,并导致感觉运动、神经认知和身体缺陷。根据我们已建立的动物模型,压力会对睡眠产生不同的影响,而 SI 和 SR 对粗大运动表现的影响已被证明是不同的,并取决于个体在压力恢复能力和脆弱性方面的差异。在本研究中,我们评估了 SI 和 SR 单独或共同对雄性大鼠精细运动技能表现(双侧触觉粘合剂去除任务(BTAR))的影响。我们还考察了测试过程中的情绪、探索和其他非任务行为反应,并评估了感官运动表现和情绪是否会随着个体复原力和脆弱性的差异而变化。BTAR任务表现受到SI和SR的不同影响,并进一步受到大鼠应激复原力/脆弱性表型的影响。这些发现进一步表明,识别个体对压力源的反应会影响执行任务相关任务所需的感觉运动能力和行为,这对宇航员和未来的任务尤为重要。如果类似的影响发生在人类身上,那么机上压力源对宇航员及其执行任务相关能力的影响可能会存在相当大的个体差异。