On the emerging role of neuroimaging in determining functional and structural brain integrity induced by physical exercise: Impact for predictive, preventive, and personalized medicine

被引：10

作者：

Boecker H. ^{[1
]}

机构：

[1] Radiologische Universitätsklinik, FE Klinische Funktionelle Neurobildgebung, Rheinische Friedrich-Wilhelms-Universität Bonn, 53127 Bonn

来源：

EPMA Journal | 2011年 / 2卷 / 3期

关键词：

Brain; Magnetic resonance imaging; MRI; Neurodegenerative disease; Personalized medicine; Physical exercise; Positron emission tomography; PET; Prevention;

D O I：

10.1007/s13167-011-0093-y

中图分类号：

学科分类号：

摘要：

Physical exercise contributes to maintenance of physical health. There is growing evidence, both from animal work and from human epidemiological and longitudinal intervention studies, that physical exercise also impacts directly on the brain, mediating structural integrity and improving cognitive functioning. Modern neuroimaging approaches, in particular magnetic resonance imaging (MRI) based techniques provide a powerful means to non-invasively study the effects of physical exercise on human brain structure and function. Employing these techniques in exercise sciences will allow determining central mechanisms of body-brain interactions, both, in health and disease states. It is expected that this may propagate individualized exercise training regimens for disease prevention and, ultimately, adapted applications for prevention and slowing down disease progression in neurodegenerative conditions. At current, however, these imaging techniques are largely based on inter-subject averaging and their impact for personalized medicine with the goal of promoting preventive and personalized healthcare remains to be determined. © 2011 European Association for Predictive, Preventive and Personalised Medicine.

引用

页码：277 / 285

页数：8

共 86 条

[1]

Kramer A.F., Colcombe S.J., McAuley E., Eriksen K.I., Scalf P., Jerome G.J., Et al., Enhancing brain and cognitive function of older adults through fitness training, J Mol Neurosci, 20, 3, pp. 213-221, (2003)

[2]

Colcombe S., Kramer A.F., Fitness effects on the cognitive function of older adults: a meta-analytic study, Psychol Sci, 14, 2, pp. 125-130, (2003)

[3]

Erickson K.I., Kramer A.F., Aerobic exercise effects on cognitive and neural plasticity in older adults, Br J Sports Med, 43, 1, pp. 22-24, (2009)

[4]

Chaddock L., Hillman C.H., Buck S.M., Cohen N.J., Aerobic fitness and executive control of relational memory in preadolescent children, Med Sci Sports Exerc, 43, 2, pp. 344-349, (2011)

[5]

Wu C.T., Pontifex M.B., Raine L.B., Chaddock L., Voss M.W., Kramer A.F., Et al., Aerobic fitness and response variability in preadolescent children performing a cognitive control task, Neuropsychology, 25, pp. 333-341, (2011)

[6]

Themanson J.R., Pontifex M.B., Hillman C.H., Fitness and action monitoring: evidence for improved cognitive flexibility in young adults, Neuroscience, 157, 2, pp. 319-328, (2008)

[7]

Pontifex M.B., Raine L.B., Johnson C.R., Chaddock L., Voss M.W., Cohen N.J., Et al., Cardiorespiratory fitness and the flexible modulation of cognitive control in preadolescent children, J Cogn Neurosci, 23, 6, pp. 1332-1345, (2011)

[8]

Hillman C.H., Erickson K.I., Kramer A.F., Be smart, exercise your heart: exercise effects on brain and cognition, Nat Rev Neurosci, 9, 1, pp. 58-65, (2008)

[9]

Hillman C.H., Kamijo K., Scudder M., A review of chronic and acute physical activity participation on neuroelectric measures of brain health and cognition during childhood, Prev Med, 52, SUPPL. 1, pp. 8-21, (2011)

[10]

Hillman C.H., Motl R.W., Pontifex M.B., Posthuma D., Stubbe J.H., Boomsma D.I., Et al., Physical activity and cognitive function in a cross-section of younger and older community-dwelling individuals, Health Psychol, 25, 6, pp. 678-687, (2006)

← 1 2 3 4 5 6 7 8 9 →