Page 152 - JSOM Summer 2022

P. 152

24. Anderson JP, Papazoglou K, Collins P. Reducing robust health- expenditure, and heart rate: a systematic review. JMIR MHealth
relevant cardiovascular stress responses among active-duty spe- UHealth. 2020;8(9):e18694.
cial forces police. Gen Med (Los Angel). 2016;4(225):1–9. https:// 50. Düking P, Fuss FK, Holmberg H-C, Sperlich B. Recommendations
doi10.4172/2327-5146.1000225. Accessed 1 November 2021 for assessment of the reliability, sensitivity, and validity of data pro-
25. Sporiš G, Harasin D, Bok D, Matika D, Vuleta D. Effects of a train- vided by wearable sensors designed for monitoring physical activity.
ing program for Special Operations battalion on soldiers’ fitness JMIR MHealth UHealth. 2018;6(4):e102.
characteristics. J Strength Cond Res. 2012;26(10):2872–2882. 51. Stone J, Rentz L, Forsey J, et al. Evaluations of commercial sleep
26. Keenan KA, Wohlebar MF, Perlsweig KA, et al. Association of pro- technologies for objective monitoring during routine sleeping con-
spective musculoskeletal injury and musculoskeletal, balance, and ditions. Nat Sci Sleep. 2020;12:821–842.
physiological characteristics in Special Operations Forces. Journal 52. Berryhill S, Morton CJ, Dean A, et al. Effect of wearables on sleep
of Science and Medicine in Sport. 2017;(20):534–539. in healthy individuals: a randomized crossover trial and validation
27. Jackson M. Evaluating the role of Hans Seyle in the modern history study. J Clin Sleep Med. 2020;16(5):775–783.
of stress. In: Cantor D, Ramsden E, eds. Stress, Shock, and Adapta- 53. Kinnunen H, Rantanen A, Kenttã T, Koskimãki H. Feasibility as-
tion in the Twentieth Century. Havertown, PA: Boydell and Brewer: sessment of recognized cardiovascular health: accuracy of novel HR
University of Rochester Press; 2014:21–28. and HRV assessed via ring PPG in comparison to medical grade
28. Kellmann M, Kölling S. Recovery and Stress in Sport: A Manual for ECG. Physiol Meas. 2020;41(4):04NT01.
Testing and Assessment: New York, NY: Taylor & Francis: Rout- 54. Tiede J, O’Hara R, Sussman L. Operator syndrome: Literature Re-
ledge; 2019:1–71. view and Rehabilitation Model Development. [abstract taken from
29. Cadegiani FA, Kater CE. Hormonal aspects of overtraining syn- J Spec Oper Med. 2021;21(3):106].
drome: a systematic review. BMC Sports Sci Med Rehabil. 2017; 55. Dong J-G. The role of heart rate variability in sports physiology.
9:14. Exp Ther Med. 2016;11(5):1531–1536.
30. Leite GS, Sampaio LMM, Serra AJ, de Jesus Miranda ML, Brandão 56. Jarrin DC, McGrath JJ, Giovanniello S, Poirier, P, Lambert M.
MRF, Wichi RB. Analysis of knowledge production about over- Measurement fidelity of heart rate variability signal processing: the
training associated with heart rate variability. JEPonline. 2012;15 devil is in the details. Int J Psychophysiol. 2012;86(1):88–97.
(2):20–29. 57. Hinde K, White G, Armstrong N. Wearable devices suitable for
31. Kreher JB. Diagnosis and prevention of overtraining syndrome: monitoring twenty-four hour heart rate variability in military pop-
an opinion on education strategies. Open Access J Sports Med. ulations. Sensors (Basel). 2021;21(4):1061.
2016;7:115–122. 58. Heishman AD, Curtis MA, Saliba E, Hornett RJ, Malin SK, Welt-
32. Kellmann M, Bertello M, Bosquet L, et al. Recovery and perfor- man AL. Noninvasive assessment of internal and external player
mance in sport: consensus statement. Int J Sports Physiol Perform. load: implications for optimizing athletic performance. J Strength
2018;13(2):240–245. Cond Res. 2018;32(5):1280–1287.
33. Tanskanen MM, Kyröläinen H, Uusitalo AL, et al. Serum sex hor- 59. Famin R, Nasedkin V. Effective management of athletic prepara-
mone-binding globulin and cortisol concentrations are associated tion: a comprehensive approach to monitoring the athlete’s individ-
with overreaching during strenuous military training. J Strength ual readiness. White Paper Omegawave. 2013;1–32. https://www
Cond Res. 2011;25(3):787–797. .omegawave.com/wp-content/uploads/2018/12/WHITE-PAPER
34. Kellmann M. Preventing overtraining in athletes in high-intensity -ENG.pdf. Accessed 21 November 2021.
sports and stress/recovery monitoring. Scand J Med Sci Sports. 60. Orellana-Naranjo J, Ruso-Alvarez JF, Rojo-Alvarez JL. Compari-
2010;20(Suppl. 2):95–102. son of Omegawave device and an ambulatory ECG for RR interval
35. Budgett R. Fatigue and underperformance in athletes: the overtrain- measurement at rest. Int J Sports Med. 2021;42(2):138–146.
ing syndrome. Br J Sports Med. 1998;32(2):107–110. 61. Nässi A, Ferrauti A, Meyer T, Pfeiffer M, Kellmann M. Psychologi-
36. Opstad PK. Endocrine and Metabolic Changes during Exhaus- cal tools used for monitoring training responses of athletes. Perfor-
tive Multifactorial Military Stress. Results from Studies during mance Enhancement & Health. 2017;5(4):125–133.
the Ranger Training Course of the Norwegian Military Academy. 62. Beedie CJ, Terry PC, Lane AM. The profile of mood states and ath-
Defense Technical Information Center Compilation Part No- letic performance: two meta-analyses. J Appl Sport Psychol. 2000;
tice ADP010649-ADP01658. 1995. https://apps.dtic.mil/sti/pdfs/ 12(1):49–68.
ADP010649.pdf. Accessed 20 October 2021. 63. Leunes A, Burger J. Profile of mood states research in sport and
37. Carafango DG, Hendrix JC 3rd. Overtraining syndrome in the exercise psychology: past, present, and future. J Appl Sport Psychol.
athlete: current clinical practice. Curr Sports Med Rep. 2014;13 2000;12(1):5–15.
(1):45–51. 64. Urhausen A, Kindermann W. Diagnosis of overtraining: what tools
38. Meeusen R, Duclos M, Foster C, et al. Prevention, diagnosis, and do we have? Sports Med. 2002:32(2):95–102.
treatment of the overtraining syndrome: joint consensus statement 65. Urhausen A, Gabriel H, Kindermann W. Blood hormones
of the European College of Sports Science and the American College as markers of training stress and overtraining. Sports Med.
of Sports Medicine. Med Sci Sports Exerc. 2013;45(1):186–205. 1995;20(4):251–276.
39. Bishop PA, Jones E, Woods AK. Recovery from training: a brief 66. Eagle SR, Keenan KA, Connaboy C, Wohleber M, Simonson A,
review. J Strength Cond Res. 2008;22(3):1015–1024. Nindl BC. Bilateral quadriceps strength asymmetry is associated
40. Lee EC, Fragala MS, Kavouras SA, Queen RM, Pryor JL, Casa DJ. with previous knee injury in military special tactics operators. J
Biomarkers in sports and exercise: tracking health, performance, and Strength Cond Res. 2019:33(1):89–94.
recovery in athletes. J Strength Cond Res. 2017;31(10):2920–2937. 67. Lynn SK, Watkins CM, Wong MA, Balfany K, Feeney DF. Validity
41. Hackney AC. Stress and the neuroendocrine system: the role of ex- and reliability of surface electromyography measurements from a
ercise as a stressor and modifier of stress. Expert Rev Endocrinol wearable athlete performance system. J of Sports Science and Med.
Metab. 2006;1(6):783–792. 2018; 17: 205-215.
42. de Graaf-Roelfsema E, Veldhuis PP, Keizer HA, et al. Overtrained 68. Seshadri DR, Li RT, Voos JE, et al. Wearable sensors for monitoring
horses alter their resting pulsatile growth hormone secretion. Am J the internal and external workload of the athlete. NPI Digit Med.
Physiol Regul Integr Comp Physiol. 2009;297(2):R403–R411. 2019:71:1–18.
43. Rogero MM, Mendes RR, Tirapegui J. Neuroendocrine and nutri- 69. Halson SL. Monitoring training load to understand fatigue in ath-
tional aspects in athletes with overtraining. [Article in Portuguese.]. letes. Sports Med. 2014;44(Suppl 2):S139–S147.
Arq Bras Endocrinol Metab. 2005;49(3):359–368. 70. Aquino JM, Roper JL. Intraindividual variability and validity in
44. Davies KJA. Adaptive homeostasis. Mol Aspects Med. 2016;49:1–7. smart apparel muscle activity measurements during exercise in men.
45. Davies KJA. Cardiovascular adaptive homeostasis in exercise. Front Int J Exerc Sci. 2018;11(7):516–525.
Physiol. 2018;369(9):1–11. 71. Snarr RL, Tolusso DV, Hallmark AV, Esco MR. Validity of wear-
46. Hackney AC. Exercise as a stressor to the human neuroendocrine able electromyographical compression shorts to predict lactate
system. Medicina (Kaunas). 2006;42 (10):788–797. threshold during incremental exercise in healthy subjects. J Strength
47. Guidi J, Lucente M, Sonino N, Fava GA. Allostatic load and its im- Cond Res. 2021;35(3):702–708.
pact on health: a systematic review. Psychother Psychosom. 2021; 72. Lockie RG, Moreno MR, Ducheny SC, Orr RM, Dawes JJ, Balfany
90(1):11–27. K. Analyzing the training load demands, and influence of sex and
48. Pomatto LCD, Davies KJA. The role of declining adaptive homeo- body mass, on the tactical task of a casualty drag via surface elec-
stasis in ageing. J Physiol. 2017;595(24):7275–7309. tromyography wearable technology. Int J Exerc Sci. 2020;13(4):
49. Fuller D, Colwell E, Low J, et al. Reliability and validity of com- 1012–1027.
mercially available wearable devices for measuring steps, energy

148 | JSOM Volume 22, Edition 2 / Summer 2022

147 148 149 150 151 152 153 154 155 156 157