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Items: 1 to 20 of 37

1.

Physical fitness as an indicator of health status and its relationship to academic performance during the prepubertal period.

Fonseca Del Pozo FJ, Alonso JV, Álvarez MV, Orr S, Cantarero FJL.

Health Promot Perspect. 2017 Sep 26;7(4):197-204. doi: 10.15171/hpp.2017.35. eCollection 2017.

2.

Longitudinal Associations between Physical Activity and Educational Outcomes.

Kari JT, Pehkonen J, Hutri-Kähönen N, Raitakari OT, Tammelin TH.

Med Sci Sports Exerc. 2017 Nov;49(11):2158-2166. doi: 10.1249/MSS.0000000000001351.

3.

No Long-Term Effect of Physical Activity Intervention on Working Memory or Arithmetic in Preadolescents.

Sjöwall D, Hertz M, Klingberg T.

Front Psychol. 2017 Aug 10;8:1342. doi: 10.3389/fpsyg.2017.01342. eCollection 2017.

4.

Aerobic fitness associates with mnemonic discrimination as a mediator of physical activity effects: evidence for memory flexibility in young adults.

Suwabe K, Hyodo K, Byun K, Ochi G, Fukuie T, Shimizu T, Kato M, Yassa MA, Soya H.

Sci Rep. 2017 Jul 11;7(1):5140. doi: 10.1038/s41598-017-04850-y.

5.

Acute Exercise Improves Motor Memory Consolidation in Preadolescent Children.

Lundbye-Jensen J, Skriver K, Nielsen JB, Roig M.

Front Hum Neurosci. 2017 Apr 20;11:182. doi: 10.3389/fnhum.2017.00182. eCollection 2017.

6.

A quasi-experimental cross-disciplinary evaluation of the impacts of education outside the classroom on pupils' physical activity, well-being and learning: the TEACHOUT study protocol.

Nielsen G, Mygind E, Bølling M, Otte CR, Schneller MB, Schipperijn J, Ejbye-Ernst N, Bentsen P.

BMC Public Health. 2016 Oct 24;16(1):1117.

7.

Educational Level Is Related to Physical Fitness in Patients with Type 2 Diabetes - A Cross-Sectional Study.

Allet L, Giet O, Barral J, Junod N, Durrer D, Amati F, Sykiotis GP, Marques-Vidal P, Puder JJ.

PLoS One. 2016 Oct 12;11(10):e0164176. doi: 10.1371/journal.pone.0164176. eCollection 2016.

8.

Aerobic Fitness and Neurocognitive Function Scores in Young Faroese Adults and Potential Modification by Prenatal Methylmercury Exposure.

Oulhote Y, Debes F, Vestergaard S, Weihe P, Grandjean P.

Environ Health Perspect. 2017 Apr;125(4):677-683. doi: 10.1289/EHP274. Epub 2016 Sep 9.

9.

Motor Skills and Exercise Capacity Are Associated with Objective Measures of Cognitive Functions and Academic Performance in Preadolescent Children.

Geertsen SS, Thomas R, Larsen MN, Dahn IM, Andersen JN, Krause-Jensen M, Korup V, Nielsen CM, Wienecke J, Ritz C, Krustrup P, Lundbye-Jensen J.

PLoS One. 2016 Aug 25;11(8):e0161960. doi: 10.1371/journal.pone.0161960. eCollection 2016.

10.

Low Exercise Capacity Increases the Risk of Low Cognitive Function in Healthy Young Men Born Preterm: A Population-Based Cohort Study.

Svedenkrans J, Kowalski J, Norman M, Bohlin K.

PLoS One. 2016 Aug 22;11(8):e0161314. doi: 10.1371/journal.pone.0161314. eCollection 2016.

11.

Future marginalisation and mortality in young Swedish men with non-psychotic psychiatric disorders and the resilience effect of cognitive ability: a prospective, population-based study.

Löve J, Hensing G, Söderberg M, Torén K, Waern M, Åberg M.

BMJ Open. 2016 Aug 10;6(8):e010769. doi: 10.1136/bmjopen-2015-010769.

12.

Distinct Brain and Behavioral Benefits from Cognitive vs. Physical Training: A Randomized Trial in Aging Adults.

Chapman SB, Aslan S, Spence JS, Keebler MW, DeFina LF, Didehbani N, Perez AM, Lu H, D'Esposito M.

Front Hum Neurosci. 2016 Jul 18;10:338. doi: 10.3389/fnhum.2016.00338. eCollection 2016.

13.

Nonpsychotic Mental Disorders in Teenage Males and Risk of Early Stroke: A Population-Based Study.

Åberg MA, Torén K, Nilsson M, Henriksson M, Kuhn HG, Nyberg J, Rosengren A, Åberg ND, Waern M.

Stroke. 2016 Mar;47(3):814-21. doi: 10.1161/STROKEAHA.115.012504. Epub 2016 Feb 4.

14.

Multi-modal characterization of rapid anterior hippocampal volume increase associated with aerobic exercise.

Thomas AG, Dennis A, Rawlings NB, Stagg CJ, Matthews L, Morris M, Kolind SH, Foxley S, Jenkinson M, Nichols TE, Dawes H, Bandettini PA, Johansen-Berg H.

Neuroimage. 2016 May 1;131:162-70. doi: 10.1016/j.neuroimage.2015.10.090. Epub 2015 Dec 2.

15.

Effects of high-intensity aerobic exercise on psychotic symptoms and neurocognition in outpatients with schizophrenia: study protocol for a randomized controlled trial.

Engh JA, Andersen E, Holmen TL, Martinsen EW, Mordal J, Morken G, Egeland J.

Trials. 2015 Dec 8;16:557. doi: 10.1186/s13063-015-1094-2.

16.

Effect of Early Adult Patterns of Physical Activity and Television Viewing on Midlife Cognitive Function.

Hoang TD, Reis J, Zhu N, Jacobs DR Jr, Launer LJ, Whitmer RA, Sidney S, Yaffe K.

JAMA Psychiatry. 2016 Jan;73(1):73-9. doi: 10.1001/jamapsychiatry.2015.2468.

17.

The effects of cardiorespiratory fitness and acute aerobic exercise on executive functioning and EEG entropy in adolescents.

Hogan MJ, O'Hora D, Kiefer M, Kubesch S, Kilmartin L, Collins P, Dimitrova J.

Front Hum Neurosci. 2015 Oct 19;9:538. doi: 10.3389/fnhum.2015.00538. eCollection 2015.

18.

Aerobic fitness, micronutrient status, and academic achievement in Indian school-aged children.

Desai IK, Kurpad AV, Chomitz VR, Thomas T.

PLoS One. 2015 Mar 25;10(3):e0122487. doi: 10.1371/journal.pone.0122487. eCollection 2015.

19.

Cardiorespiratory fitness and cognitive function in midlife: neuroprotection or neuroselection?

Belsky DW, Caspi A, Israel S, Blumenthal JA, Poulton R, Moffitt TE.

Ann Neurol. 2015 Apr;77(4):607-17. doi: 10.1002/ana.24356. Epub 2015 Mar 6.

20.

Homeostatic regulation of adult hippocampal neurogenesis in aging rats: long-term effects of early exercise.

Merkley CM, Jian C, Mosa A, Tan YF, Wojtowicz JM.

Front Neurosci. 2014 Jul 1;8:174. doi: 10.3389/fnins.2014.00174. eCollection 2014.

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