Moderately vigorous physical activity in midlife linked to better cognition at old age

I took up whitewater canoeing at age 40, biked to work 9 months out of the year, did lots of cross country skiing. I was in shape until the stroke kicked me to the curb at age 50. I plan on being cognitively sharp until age 100 and will continue to harass the stroke medical world until they listen to me.
http://www.news-medical.net/news/20160909/Moderately-vigorous-physical-activity-in-midlife-linked-to-better-cognition-at-old-age.aspx

A new study of 3050 twins finds moderately vigorous physical activity - i.e., more strenuous than walking - to be associated with better cognition in a 25-year follow-up.
A long-term follow-up study of 3050 twins from the Finnish Twin Cohort has shown that midlife, moderately vigorous physical activity is associated with better cognition at old age. The association was statistically independent of midlife hypertension, smoking, education level, sex, obesity and binge drinking. "This suggests that the beneficial influence of physical activity on the brain and cognition is not solely based on decreasing vascular risk factors", says researcher Paula Iso-Markku from the University of Helsinki.
The association was studied first in all individuals of the cohort, and then by comparing later cognition in pairs where one twin was more physically active than the other.
Increasing the volume of physical activity was not, however, associated with increased memory-protecting benefits. Instead, quite a moderate amount of physical activity was found to be sufficient for memory-protecting benefits, and only the most inactive group of twins stood out with a significantly higher risk for cognitive impairment.

"Overall, the study shows that moderately vigorous physical activity, meaning more strenuous than walking, is associated with better cognition after an average of 25 years", states Professor Urho Kujala from the University of Jyväskylä.
This finding is in accordance with earlier animal model studies, which have shown that physical activity increases the amount of growth factors in the brain and improves synaptic plasticity.
The prevalence of dementia has increased with aging populations both in Finland and globally. Although the incidence of dementia seems to have decreased in less senior generations, the total prevalence of dementia is still expected to rise. No cure for dementia exists, but during the last decade research has produced an abundance of new information on dementia prevention. The traditional vascular risk factors (elevated blood pressure, hypercholesterolemia, obesity, diabetes and lack of exercise) have also been associated with dementia risk. "However, few long-term, high-quality, follow-up studies on physical activity and cognition have been published, and it has remained unclear what type and amount of exercise is needed to safeguard cognition", Iso-Markku says.
The study, published in the Journal of Alzheimer's Disease, was conducted by scientists at the universities of Helsinki, Jyväskylä and Turku. The twins provided information on physical activity through questionnaire surveys from 1975 and 1981 (mean age in 1981: 49 years), while cognition was assessed by validated telephone interviews conducted between 1999 and 2015.

Source:

Helsingin yliopisto (University of Helsinki)

Kicking Back Cognitive Ageing: Leg Power Predicts Cognitive Ageing after Ten Years in Older Female Twins

Our physical therapists should be able to translate this into a stroke protocol. It took me years to be able to walk enough to get winded. So we should be able to change this to rowing or biking machines while still in the hospital. But I bet this won't occur in any hospital in the world, because we have nothing for stroke associations. You're screwed once again unless YOU have enough cognitive power to read all the relevant research and plan your own recovery.
http://www.karger.com/Article/FullText/441029

Steves C.J.^{a, b} · Mehta M.M.^c · Jackson S.H.D.^b · Spector T.D.^{a, b
a}Department of Twin Research and Genetic Epidemiology, Kings College London, ^bDepartment of Clinical Gerontology, Kings College Hospital, and ^cCentre for Neuroimaging Sciences, Institute of Psychiatry, Kings College London, London, UK Corresponding Author

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Abstract

Background: Many observational studies have shown a protective effect of physical activity on cognitive ageing, but interventional studies have been less convincing. This may be due to short time scales of interventions, suboptimal interventional regimes or lack of lasting effect. Confounding through common genetic and developmental causes is also possible. Objectives: We aimed to test whether muscle fitness (measured by leg power) could predict cognitive change in a healthy older population over a 10-year time interval, how this performed alongside other predictors of cognitive ageing, and whether this effect was confounded by factors shared by twins. In addition, we investigated whether differences in leg power were predictive of differences in brain structure and function after 12 years of follow-up in identical twin pairs.  
Methods: A total of 324 healthy female twins (average age at baseline 55, range 43-73) performed the Cambridge Neuropsychological Test Automated Battery (CANTAB) at two time points 10 years apart. Linear regression modelling was used to assess the relationships between baseline leg power, physical activity and subsequent cognitive change, adjusting comprehensively for baseline covariates (including heart disease, diabetes, blood pressure, fasting blood glucose, lipids, diet, body habitus, smoking and alcohol habits, reading IQ, socioeconomic status and birthweight). A discordant twin approach was used to adjust for factors shared by twins. A subset of monozygotic pairs then underwent magnetic resonance imaging. The relationship between muscle fitness and brain structure and function was assessed using linear regression modelling and paired t tests.  
Results: A striking protective relationship was found between muscle fitness (leg power) and both 10-year cognitive change [fully adjusted model standardised β-coefficient (Stdβ) = 0.174, p = 0.002] and subsequent total grey matter (Stdβ = 0.362, p = 0.005). These effects were robust in discordant twin analyses, where within-pair difference in physical fitness was also predictive of within-pair difference in lateral ventricle size. There was a weak independent effect of self-reported physical activity.  
Conclusion: Leg power predicts both cognitive ageing and global brain structure, despite controlling for common genetics and early life environment shared by twins. Interventions targeted to improve leg power in the long term may help reach a universal goal of healthy cognitive ageing.