89
Statistics – Work related stress, anxiety and depression statistics in Great Britain (GB). 2017; Available from: http://www.hse.gov.uk/statistics/causdis/stress/.
90
Statistics, B.o.L. Number of Jobs, Labor Market Experience, and Earnings Growth: Results From A Longitudinal Survey. 2017; Available from: https://www.bls.gov/news.release/nlsoy.toc.htm.
91
Erickson, K.I., C. H. Hillman, and A. F. Kramer, Physical activity, brain, and cognition. Current Opinion in Behavioral Sciences, 2015. 4 (Supplement C): p. 27–32.
92
Swaminathan, N., Why Does the Brain Need So Much Power? Scientific American, 2008. 29 (04): p. 2998.
93
Sleiman, S.F., et al., Exercise promotes the expression of brain derived neurotrophic factor (BDNF) through the action of the ketone body β-hydroxybutyrate. Elife, 2016. 5: p. e15092.
94
Godman, H., Regular exercise changes the brain to improve memory, thinking skills. Harv Health Lett, 2014.
95
White, L.J. and V. Castellano, Exercise and Brain Health – Implications for Multiple Sclerosis. Sports medicine, 2008. 38 (2): p. 91–100.
96
Kohl Iii, H.W. and H. D. Cook, Physical Activity, Fitness, and Physical Education: Effects on Academic Performance. 2013.
97
Gonzalez-Mulé, E., K. M. Carter, and M. K. Mount, Are smarter people happier? Meta-analyses of the relationships between general mental ability and job and life satisfaction. Journal of Vocational Behavior, 2017. 99 (Supplement C): p. 146–164.
98
Thorén, P., et al., Endorphins and exercise: physiological mechanisms and clinical implications. Medicine & science in sports & exercise, 1990.
99
Almeida, R.P., et al., Effect of cognitive reserve on age-related changes in cerebrospinal fluid biomarkers of Alzheimer disease. JAMA neurology, 2015. 72 (6): p. 699–706.
100
Scarmeas, N. and Y. Stern, Cognitive Reserve: Implications for Diagnosis and Prevention of Alzheimer’s Disease. Current neurology and neuroscience reports, 2004. 4 (5): p. 374–380.
101
Kurniawan, I.T., et al., Effort and Valuation in the Brain: The Effects of Anticipation and Execution. The Journal of Neuroscience, 2013. 33 (14): p. 6160.
102
Hagura, N., P. Haggard, and J. Diedrichsen, Perceptual decisions are biased by the cost to act. Elife, 2017. 6: p. e18422.
103
Herz, R.S. and J. von Clef, The influence of verbal labeling on the perception of odors: evidence for olfactory illusions? Perception, 2001. 30 (3): p. 381–391.
104
Elliott, R., et al., Differential Response Patterns in the Striatum and Orbitofrontal Cortex to Financial Reward in Humans: A Parametric Functional Magnetic Resonance Imaging Study. The Journal of Neuroscience, 2003. 23 (1): p. 303.
105
Holmes, T., Rahe R. Holmes-Rahe life changes scale. Journal of psychosomatic research, 1967. 11: p. 213–218.
106
Howell, R.T., M. Kurai, and L. Tam, Money buys financial security and psychological need satisfaction: Testing need theory in affluence. Social Indicators Research, 2013. 110 (1): p. 17–29.
107
Sheldon, K.M. and A. Gunz, Psychological needs as basic motives, not just experiential requirements. Journal of personality, 2009. 77 (5): p. 1467–1492.
108
Roddenberry, A. and K. Renk, Locus of control and self-efficacy: potential mediators of stress, illness, and utilization of health services in college students. Child Psychiatry & Human Development, 2010. 41 (4): p. 353–370.
109
Abramowitz, S.I., Locus of Control and Self-Reported Depression among College Students. Psychological Reports, 1969. 25 (1): p. 149–150.
110
Williams, J.S., et al., Health Locus of Control and Cardiovascular Risk Factors in Veterans with Type 2 Diabetes. Endocrine, 2016. 51 (1): p. 83–90.
111
Lefcourt, H.M., Locus of control: Current trends in theory & research. 2014: Psychology Press.
112
Pruessner, J.C., et al., Self-esteem, locus of control, hippocampal volume, and cortisol regulation in young and old adulthood. NeuroImage, 2005. 28 (4): p. 815–826.
113
Lewis, M., S. M. Alessandri, and M. W. Sullivan, Violation of expectancy, loss of control, and anger expressions in young infants. Developmental Psychology, 1990. 26 (5): p. 745.
114
Leavitt, L.A. and W. L. Donovan, Perceived infant temperament, locus of control, and maternal physiological response to infant gaze. Journal of Research in Personality, 1979. 13 (3): p. 267–278.
115
Colles, S.L., J. B. Dixon, and P.E. O’brien, Loss of control is central to psychological disturbance associated with binge eating disorder. Obesity, 2008. 16 (3): p. 608–614.
116
Rosen, H.J., et al., Neuroanatomical correlates of cognitive self-appraisal in neurodegenerative disease. Neuroimage, 2010. 49 (4): p. 3358–3364.
117
Maguire, E.A., K. Woollett, and H. J. Spiers, London taxi drivers and bus drivers: a structural MRI and neuropsychological analysis. Hippocampus, 2006. 16 (12): p. 1091–1101.
118
Gaser, C. and G. Schlaug, Brain structures differ between musicians and non-musicians. Journal of Neuroscience, 2003. 23 (27): p. 9240–9245.
119
Castelli, F., D. E. Glaser, and B. Butterworth, Discrete and analogue quantity processing in the parietal lobe: A functional MRI study. Proceedings of the National Academy of Sciences of the United States of America, 2006. 103 (12): p. 4693–4698.
120
Grefkes, C. and G. R. Fink, The functional organization of the intraparietal sulcus in humans and monkeys. Journal of Anatomy, 2005. 207 (1): p. 3–17.
121
Oswald, A.J., E. Proto, and D. Sgroi, Happiness and productivity. Journal of
