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Gross Motor Skills Training Leads to Increased Brain-Derived Neurotrophic Factor Levels in Healthy Older Adults: A Pilot Study.

Author(s): Grégoire CA, Berryman N, St-Onge F, Vu TTM, Bosquet L, Arbour N, Bherer L

Front Physiol. 2019;10:410 Authors: Grégoire CA, Berryman N, St-Onge F, Vu TTM, Bosquet L, Arbour N, Bherer L

Article GUID: 31031639
Relationships between lower body strength and the energy cost of treadmill walking in a cohort of healthy older adults: a cross-sectional analysis.

Author(s): Berryman N, Bherer L, Nadeau S, Lauzière S, Lehr L, Bobeuf F, Kergoat MJ, Vu TT, Bosquet L

Eur J Appl Physiol. 2017 Jan;117(1):53-59 Authors: Berryman N, Bherer L, Nadeau S, Lauzière S, Lehr L, Bobeuf F, Kergoat MJ, Vu TT, Bosquet L

Article GUID: 27815704
The relationship between exercise intensity, cerebral oxygenation and cognitive performance in young adults.

Author(s): Mekari S, Fraser S, Bosquet L, Bonnéry C, Labelle V, Pouliot P, Lesage F, Bherer L

Eur J Appl Physiol. 2015 Oct;115(10):2189-97 Authors: Mekari S, Fraser S, Bosquet L, Bonnéry C, Labelle V, Pouliot P, Lesage F, Bherer L

Article GUID: 26063061
A comparison of the impact of physical exercise, cognitive training and combined intervention on spontaneous walking speed in older adults.

Author(s): Pothier K, Gagnon C, Fraser SA, Lussier M, Desjardins-Crépeau L, Berryman N, Kergoat MJ, Vu TTM, Li KZH, Bosquet L, Bherer L

Aging Clin Exp Res. 2018 Aug;30(8):921-925 Authors: Pothier K, Gagnon C, Fraser SA, Lussier M, Desjardins-Crépeau L, Berryman N, Kergoat MJ, Vu TTM, Li KZH, Bosquet L, Bherer L

Article GUID: 29235076
Title:Gross Motor Skills Training Leads to Increased Brain-Derived Neurotrophic Factor Levels in Healthy Older Adults: A Pilot Study.
Authors:Grégoire CABerryman NSt-Onge FVu TTMBosquet LArbour NBherer L
Link:https://www.ncbi.nlm.nih.gov/pubmed/31031639?dopt=Abstract
Category:Front Physiol
PMID:31031639
Dept Affiliation: PERFORM
1 Montreal Heart Institute, Montreal, QC, Canada.
2 Centre de Recherche de l'Institut Universitaire de Gériatrie de Montréal, Montreal, QC, Canada.
3 Département de Médecine, Université de Montréal, Montreal, QC, Canada.
4 Department of Sports Studies, Bishop's University, Sherbrooke, QC, Canada.
5 Department of Neuroscience, Université de Montréal, CRCHUM, Montreal, QC, Canada.
6 Department of Medicine, Centre Hospitalier de l'Université de Montréal, Service de Gériatrie, Montreal, QC, Canada.
7 Laboratory MOVE (EA 6314), Faculty of Sport Sciences, Université de Poitiers, Poitiers, France.
8 Department of Kinesiology, Université de Montréal, Montreal, QC, Canada.
9 PERFORM Centre, Concordia University, Montreal, QC, Canada.

Description:

Gross Motor Skills Training Leads to Increased Brain-Derived Neurotrophic Factor Levels in Healthy Older Adults: A Pilot Study.

Front Physiol. 2019;10:410

Authors: Grégoire CA, Berryman N, St-Onge F, Vu TTM, Bosquet L, Arbour N, Bherer L

Abstract

Exercise is recognized as a promising approach to counteract aging-associated declines in cognitive functions. However, the exact molecular pathways involved remain unclear. Aerobic training interventions and improvements in peak oxygen uptake (VO2peak) have been associated with increases in the peripheral concentration of brain-derived neurotrophic factor (BDNF) and better cognitive performances. However, other training interventions such as resistance training and gross motor skills programs were also linked with improvements in cognitive functions. Thus far, few studies have compared different types of physical exercise training protocols and their impact on BDNF concentrations, especially in participants over 60 years old. The main objective of this study was to compare the effects of three exercise protocols on plasma BDNF concentrations at rest in healthy older adults. Thirty-four older adults were randomized into three interventions: (1) lower body strength and aerobic training (LBS-A), (2) upper body strength and aerobic training (UBS-A), or (3) gross motor activities (GMA). All interventions were composed of 3 weekly sessions over a period of 8 weeks. Physical, biochemical, and cognitive assessments were performed pre and post-intervention. All interventions resulted in improved cognitive functions but the GMA intervention induced a larger increase in plasma BDNF concentrations than LBS-A. No correlation was observed between changes in BDNF concentrations and cognitive performances. These findings suggest that a program of GMA could lead to enhancements in plasma BDNF concentrations. Moreover, cognition improvement could occur without concomitant detectable changes in BDNF, which highlights the multifactorial nature of the exercise-cognition relationship in older adults.

PMID: 31031639 [PubMed]