Berryman Nicolas, Bherer Louis, Nadeau Sylvie, Lauzière Séléna, Lehr Lora, Bobeuf Florian, Lussier Maxime, Kergoat Marie Jeanne, Vu Thien Tuong Minh, Bosquet Laurent
Département de Kinésiologie, Université de Montréal, CP 6128, Succ. Centre Ville, Montréal, QC, Canada, H3C 3J7.
Age (Dordr). 2014;36(5):9710. doi: 10.1007/s11357-014-9710-8. Epub 2014 Sep 7.
The effects of physical activity on cognition in older adults have been extensively investigated in the last decade. Different interventions such as aerobic, strength, and gross motor training programs have resulted in improvements in cognitive functions. However, the mechanisms underlying the relationship between physical activity and cognition are still poorly understood. Recently, it was shown that acute bouts of exercise resulted in reduced executive control at higher relative exercise intensities. Considering that aging is characterized by a reduction in potential energy ([Formula: see text] max - energy cost of walking), which leads to higher relative walking intensity for the same absolute speed, it could be argued that any intervention aimed at reducing the relative intensity of the locomotive task would improve executive control while walking. The objective of the present study was to determine the effects of a short-term (8 weeks) high-intensity strength and aerobic training program on executive functions (single and dual task) in a cohort of healthy older adults. Fifty-one participants were included and 47 (age, 70.7 ± 5.6) completed the study which compared the effects of three interventions: lower body strength + aerobic training (LBS-A), upper body strength + aerobic training (UBS-A), and gross motor activities (GMA). Training sessions were held 3 times every week. Both physical fitness (aerobic, neuromuscular, and body composition) and cognitive functions (RNG) during a dual task were assessed before and after the intervention. Even though the LBS-A and UBS-A interventions increased potential energy to a higher level (Effect size: LBS-A-moderate, UBS-A-small, GMA-trivial), all groups showed equivalent improvement in cognitive function, with inhibition being more sensitive to the intervention. These findings suggest that different exercise programs targeting physical fitness and/or gross motor skills may lead to equivalent improvement in cognition in healthy older adults. Such results call for further investigation of the multiple physiological pathways by which physical exercise can impact cognition in older adults.
在过去十年中,人们广泛研究了体育活动对老年人认知的影响。不同的干预措施,如有氧运动、力量训练和大肌肉群训练项目,都使认知功能得到了改善。然而,体育活动与认知之间关系的潜在机制仍知之甚少。最近有研究表明,在相对较高的运动强度下,急性运动发作会导致执行控制能力下降。鉴于衰老的特征是潜在能量([公式:见正文]最大值 - 步行能量消耗)降低,这导致相同绝对速度下相对步行强度更高,因此可以认为,任何旨在降低 locomotive 任务相对强度的干预措施都将改善步行时的执行控制能力。本研究的目的是确定短期(8周)高强度力量和有氧训练计划对一组健康老年人执行功能(单任务和双任务)的影响。纳入了51名参与者,其中47名(年龄,70.7±5.6)完成了该研究,该研究比较了三种干预措施的效果:下肢力量 + 有氧训练(LBS - A)、上肢力量 + 有氧训练(UBS - A)和大肌肉群活动(GMA)。训练课程每周进行3次。在干预前后评估了双任务期间的身体素质(有氧、神经肌肉和身体成分)和认知功能(RNG)。尽管LBS - A和UBS - A干预将潜在能量提高到了更高水平(效应大小:LBS - A - 中等,UBS - A - 小,GMA - 微不足道),但所有组在认知功能方面都有同等程度的改善,其中抑制功能对干预更为敏感。这些发现表明,针对身体素质和/或大肌肉群技能的不同锻炼计划可能会使健康老年人的认知得到同等程度的改善。这些结果呼吁进一步研究体育锻炼影响老年人认知的多种生理途径。