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intensity, duration, and technique when performing 4. Maughan R. The limits of human athletic performance. Ann
advanced exercises. Transplant. 2005;10:52–54.
4. Ensure that Soldiers with a health condition (e.g., high 5. Paine J, Uptgraft J, Wylie R. CrossFit study. 2010. Command
and General Staff College. http://www.crossfitpraha.com/wp-
blood pressure, previous heat injury, traumatic brain content/uploads/2010/10/US-Army-Study.pdf. Accessed 14 Au-
injury, or musculoskeletal injury) that might be af- gust 2015.
fected by participating in an ECP are medically cleared 6. Smith MM, Sommer AJ, Starkoff BE, et al. CrossFit-based
before starting or resuming participation in an ECP. high intensity power training improves maximal aerobic fit-
5. Tailor supplemental conditioning programs (particu- ness and body composition. J Strength Cond Res. 2015;27:
3159–3172.
larly ECPs) to the individual based on his or her fit- 7. Wenger HA, Bell GJ. The interactions of intensity, frequency
ness level, training goals, and job-specific needs and and duration of exercise training in altering cardiorespiratory
demands. Limit full participation in ECPs to those fitness. Sports Med. 1986;3:346–356.
Soldiers who are acclimated to the programs, very 8. Knapik JJ. The influence of physical fitness training on the
fit, and healthy. manual material handling capability of women. Appl Ergo-
nomics. 1997;28:339–345.
6. Increase the duration of rest periods between sets of 9. Hendrickson NR, Sharp MA, Alemany JA, et al. Combined
exercise, and schedule rest days (especially just be- resistance and endurance training improves physical capacity
fore or after exhaustive military training) to optimize and performance on tactical occupational tasks. Eur J Appl
recovery and minimize fatigue. Physiol Occ Physiol. 2010;109:1197–1208.
7. Plan variation and program phases around the Soldier’s 10. Kraemer WJ, Vescovi JD, Volek JS, et al. Effects of concur-
rent resistance and anaerobic training on load-bearing per-
training or Army Force Generation ( ARFORGEN) formance and the Army Physical Fitness Test. Mil Med. 2004;
cycle. Coordination with unit training activities are 169:994–999.
essential, such that ECP participation does not occur 11. Knapik JJ, Sharp MA. Task-specific and generalized physical
immediately before or after days that vigorous unit training programs for improving manual material handling
training is conducted. capability. Int J Ind Ergonomics. 1998;22:149–160.
8. Monitor profile rates and other signs of reduced per- 12. Gormley SE, Swain DP, High R, et al. Effect of intensity of
aerobic training on Vo max. Med Sci Sports Exerc. 2008;40:
formance, such as fitness test results, to provide in- 1336–1343. 2
sights into unit overtraining. Among Soldiers, watch 13. Magel JR, McArdle WD, Toner M, et al. Metabolic and car-
for symptoms of overtraining, such as injury, de- diovascular adjustment to arm training. J Appl Physiol. 1978;
45:75–79.
creased physical performance, unusual fatigue, illness, 14. Magel JR, Foglia GF, McArdle WD, et al. Specificity of swim
or chronic soreness. Symptoms of rhabdomyolysis and training on maximal oxygen uptake. J Appl Physiol. 1975;38:
carotid artery dissections are described in this article 151–155.
and anyone with these symptoms should be medically 15. Bergeron MF, Nindl BC, Deuster PA, et al. Consortium for
referred immediately. Health and Military Performance and American College of
9. Coordinate supplemental physical training, such as Sports Medicine consensus paper on extreme conditioning
programs in military personnel. Curr Sports Med Rep. 2011;
ECPs, with required military training in an effort to 10:383–389.
eliminate redundant activities and minimize overuse 16. Gergory S. Squat, lift, repeat. Time. 2014;183(2):40–44.
injuries. 17. Grier T, Canham-Chervak M, McNulty V, et al. Extreme con-
ditioning programs and injury risk in a US Army Brigade Com-
bat Team. US Army Med Dep J. 2014;October–December:
Disclaimer 36–47.
The views expressed in this presentation are those of 18. Hak PT, Hodzovic E, Hickey B. The nature and prevalence
of injury during CrossFit training [published online ahead of
the author(s) and do not necessarily reflect the official print 22 November 2013]. J Strength Cond Res. doi: 10.1519/
policy of the Department of Defense, Department of the JSC.0000000000000318.
Army, US Army Medical Department, or the US Gov- 19. Joondeph SA, Joondeph BC. Retinal detachment due to Cross-
ernment. The use of trademark names do not imply en- Fit training injury. Case Rep Ophthalmol Med. 2013;2013:
189837.
dorsement by the US Army but is intended only to assist 20. Larsen C, Jensen MP. Rhabdomyolysis in a well-trained
in the identification of a specific product. woman after unusually intense exercise. Ugeskr Laeger. 2014;
176:pii:VO114001.
References 21. Hadeed MJ, Kuehl KS, Elliot DL, et al. Exertional rhabdomy-
olysis after crossfit exercise program Med Sci Sports Exerc.
1. Glassman G. What is CrossFit? An interview with Fast Com- 2011;43:224–225.
pany magazine. CrossFit Journal. 2011;September 20:1–2. 22. Szczepanik ME, Heled Y, Capacchione J, et al. Exertional
2. Heinrich KM, Patel PM, O’Neal JL, et al. High intensity com- rhabdomyolysis: identification and evaluation of the athlete
pared to moderate-intensity training for exercise initiation, at risk for recurrence. Curr Sports Med Rep. 2014;13:113–
enjoyment, adherence, and intentions: an intervention study. 119.
BMC Public Health. 2014;14:789. 23. Goodman A, Klitzman S, Lau S, et al. Exertional rhabdomy-
3. Outlaw JJ, Wilborn CD, Smith-Ryan AE, et al. Effects of a pre- olysis and acute renal impairment-New York City and Massa-
and post-workout protein-carbohydrate supplement in trained chusetts, 1988. MMWR Morb Mortal Weekly Rep. 1990;39:
crossfit individuals. Springerplus. 2014;3:369. 751–756.

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