5.  Fulgoni VL 3rd. Current protein intake in America: analysis   25.  Smith TJ, Marriott BP, Dotson L, et al. Overweight and obe-
             of the National Health and Nutrition Examination Survey,   sity in military personnel: sociodemographic predictors. Obe-
             2003-2004. Am J Clin Nutr. 2008;87:1554S–1557S.    sity (Silver Spring). 2012;20:1534–1538.
            6.  Rodriguez NR, Di Marco NM, Langley S. American College   26.  Devries MC, Phillips SM. Supplemental protein in support of
             of Sports Medicine position stand. Nutrition and athletic per-  muscle mass and health: advantage whey. J Food Sci. 2015;80
             formance. Med Sci Sports Exerc. 2009;41:709–731.   (Suppl 1):A8–A15.
            7.  Pasiakos SM, Montain SJ, Young AJ. Protein supplementation   27.  Tang JE, Moore DR, Kujbida GW, et al. Ingestion of whey
             in U.S. military personnel. J Nutr. 2013;143:1815S–1819S.  hydrolysate, casein, or soy protein isolate: effects on mixed
            8.  Lieberman HR, Stavinoha TB, McGraw SM, et al. Use of di-  muscle protein synthesis at rest and following resistance
             etary supplements among active-duty US Army soldiers. Am J   exercise  in  young  men.  J  Appl  Physiol  (1985).  2009;107:
             Clin Nutr. 2010;92:985–995.                        987–992.
            9.  Kao TC, Deuster PA, Burnett D, et al. Health behaviors asso-  28.  Carbone JW, McClung JP, Pasiakos SM. Skeletal muscle re-
             ciated with use of body building, weight loss, and performance   sponses to negative energy balance: effects of dietary protein.
             enhancing supplements. Ann Epidemiol. 2012;22:331–339.  Adv Nutr. 2012;3:119–126.
          10.  Levine ME, Suarez JA, Brandhorst S, et al. Low protein in-  29.  Knapik JJ, Ang P, Meiselman H, et al. Soldier performance
             take is associated with a major reduction in IGF-1, cancer,   and strenuous road marching: influence of load mass and
             and overall mortality in the 65 and younger but not older   load distribution. Mil Med. 1997;162:62–67.
             population. Cell Metab. 2014;19:407–417.        30.  Knapik JJ, Reynolds KL, Harman E. Soldier load carriage:
          11.  Solon-Biet SM, McMahon AC, Ballard JW, et al. The ratio   historical, physiological, biomechanical, and medical aspects.
             of macronutrients, not caloric intake, dictates cardiometa-  Mil Med. 2004;169:45–56.
             bolic health, aging, and longevity in ad libitum-fed mice. Cell   31.  Roy TC. Diagnoses and mechanisms of musculoskeletal inju-
             Metab. 2014;19:418–430.                            ries in an infantry brigade combat team deployed to Afghani-
          12.  Fung TT, van Dam RM, Hankinson SE, et al. Low-carbo-  stan evaluated by the brigade physical therapist.  Mil Med.
             hydrate diets and all-cause and cause-specific mortality: two   2011;176:903–908.
             cohort studies. Ann Intern Med. 2010;153:289–298.  32.  Roy TC, Ritland BM, Knapik JJ, et al. Lifting tasks are asso-
          13.  Akabas SR, Dolins KR. Micronutrient requirements of physi-  ciated with injuries during the early portion of a deployment
             cally active women: what can we learn from iron? Am J Clin   to Afghanistan. Mil Med. 2012;177:716–722.
             Nutr. 2005;81:1246S–1251S.                      33.  Smoak BL, Singh A, Day BA, et al. Changes in nutrient in-
          14.  US Army. Regulation 40-25: Nutrition standards and educa-  takes of conditioned men during a 5-day period of increased
             tion. Washington, DC; Departments of the Army, Navy, and   physical activity and other stresses. Eur J Appl Physiol Occup
             Air Force; 2001.                                   Physiol. 1988;58:245–251.
          15.  Pasiakos SM, Cao JJ, Margolis LM, et al. Effects of high-  34.  Tharion WJ, Baker-Fulco CJ, Bovill ME, et al. Adequacy of
             protein diets on fat-free mass and muscle protein synthesis   garrison feeding for Special Forces soldiers during training.
             following weight loss: a randomized controlled trial. FASEB   Mil Med. 2004;169:483–490.
             J. Sep 2013;27(9):3837–3847.                    35.  Tharion WJ, Lieberman HR, Montain SJ, et al. Energy re-
          16.  Areta JL, Burke LM, Camera DM, et al. Reduced resting skel-  quirements of military personnel. Appetite. 2005;44:47–65.
             etal muscle protein synthesis is rescued by resistance exercise   36.  Margolis LM, Crombie AP, McClung HL, et al. Energy re-
             and protein ingestion following short-term energy deficit. Am   quirements of US Army Special Operation Forces during mili-
             J Physiol Endocrinol Metab. 2014;306:E989–997.     tary training. Nutrients. 2014;6:1945–1955.
          17.  Carbone JW, Margolis LM, McClung JP, et al. Effects of energy   37.  Margolis LM, Murphy NE, Martini S, et al. Effects of win-
             deficit, dietary protein, and feeding on intracellular regulators   ter military training on energy balance, whole-body protein
             of skeletal muscle proteolysis. FASEB J. 2013;27:5104–5111.  balance, muscle damage, soreness, and physical performance.
          18.  Hector AJ, Marcotte GR, Churchward-Venne TA, et al. Whey   Appl Physiol Nutr Metab. 2014;39:1395–1401.
             protein supplementation preserves postprandial myofibrillar   38.  Margolis LM, Rood J, Champagne C, et al. Energy balance
             protein synthesis during short-term energy restriction in over-  and body composition during US Army special forces train-
             weight and obese adults. J Nutr. 2015;145:246–252.  ing. Appl Physiol Nutr Metab. 2013;38:396–400.
          19.  Pasiakos SM. Metabolic advantages of higher protein diets   39.  Henning PC, Scofield DE, Spiering BA, et al. Recovery of
             and benefits of dairy foods on weight management, glycemic     endocrine and inflammatory mediators following an ex-
             regulation, and bone. J Food Sci. 2015;80(Suppl 1):A2–7.  tended energy deficit. J Clin Endocrinol Metab. 2014;99:956–
          20.  Mamerow MM, Mettler JA, English KL, et al. Dietary protein   964.
             distribution positively influences 24-h muscle protein synthe-  40.  Mettler S, Mitchell N, Tipton KD. Increased protein intake
             sis in healthy adults. J Nutr. 2014;144:876–880.   reduces lean body mass loss during weight loss in athletes.
          21.  Res PT, Groen B, Pennings B, et al. Protein ingestion be-  Med Sci Sports Exerc. 2010;42:326–337.
             fore sleep improves postexercise overnight recovery. Med Sci   41.  Pasiakos SM, Margolis LM, McClung JP, et al. Whole-body
             Sports Exerc. 2012;44:1560–1569.                   protein turnover response to short-term high-protein diets
          22.  Moore DR, Robinson MJ, Fry JL, et al. Ingested protein dose   during weight loss: a randomized controlled trial. Int J Obes
             response of muscle and albumin protein synthesis after re-  (Lond). 2014;38:1015–1018.
             sistance  exercise  in  young  men.  Am  J  Clin  Nutr.  2009;89:   42.  Pikosky MA, Smith TJ, Grediagin A, et al. Increased protein
             161–168.                                           maintains  nitrogen  balance  during  exercise-induced  energy
          23.  Witard OC, Jackman SR, Breen L, et al. Myofibrillar muscle   deficit. Med Sci Sports Exerc. 2008;40:505–512.
             protein synthesis rates subsequent to a meal in response to   43.  Bovill ME, Tharion WJ, Lieberman  HR. Nutrition knowl-
             increasing doses of whey protein at rest and after resistance   edge and supplement use among elite U.S. army soldiers. Mil
             exercise. Am J Clin Nutr. 2014;99:86–95.           Med. 2003;168:997–1000.
          24.  Hruby A, Hill OT, Bulathsinhala L, et al. Trends in over-  44.  Maughan RJ, Greenhaff PL, Hespel P. Dietary supplements
             weight and obesity in soldiers entering the US Army, 1989-  for athletes: emerging trends and recurring themes. J Sports
             2012. Obesity (Silver Spring). 2015;23:662–670.    Sci. 2011;29(Suppl 1):S57–66.




          94                                     Journal of Special Operations Medicine  Volume 15, Edition 4/Winter 2015