Поднятие тяжестей – пустая трата времени - читать бесплатно онлайн полную версию книги автора Генри Элкайр (ч. notes)

Примечания

1

Cummings SR, Black DM, & Rubin SM. (1989) Lifetime risks of hip, Colles’, or vertebral fracture and coronary heart disease among white postmenopausal women. Arch Intern Med, 149:2445.

2

Jürimäe, J., Gruodyte-Raciene, R., & Baxter-Jones, A. D. (2018). Effects of Gymnastics Activities on Bone Accrual during Growth: A Systematic Review. Journal of Sports Science & Medicine, 17(2), 245.

3

Marcus, R. (1996). Skeletal Impact of Exercise. The Lancet. November 1996. 384(9038): 1326–1327.

4

Wolff, J. (1892). Das Gesetz der Transformation der Knochen. Berlin, Germany; Verlag von August Hirschwald.

5

Deere, K., Sayers, A., Rittweger, J., & Tobias, J. H. (2012). Habitual levels of high, but not moderate or low, impact activity are positively related to hip BMD and geometry: results from a population-based study of adolescents. Journal of Bone and Mineral Research, 27(9), 1887–1895.

6

Ferguson, B. (2014). ACSM’s guidelines for exercise testing and prescription 9th Ed. 2014. The Journal of the Canadian Chiropractic Association, 58(3), 328.

7

Hunte, B., Jaquish, J., & Huck, C. (2015). Axial Bone Osteogenic Loading-Type Resistance Therapy Showing BMD and Functional Bone Performance Musculoskeletal Adaptation Over 24 Weeks with Postmenopausal Female Subjects. Journal of Osteoporosis & Physical Activity, 3(146), 2.

8

Публикация проходит рецензирование.

9

Ferguson, B. (2014). ACSM’s guidelines for exercise testing and prescription 9th Ed. (2014). The Journal of the Canadian Chiropractic Association, 58(3), 328.

10

Schoenfeld, B. J., Wilson, J. M., Lowery, R. P., & Krieger, J. W. (2016). Muscular adaptations in low-versus high-load resistance training: A meta-analysis. European Journal of Sport Science, 16(1), 1–10.

11

Van den Tillar R & Ettema G (2010). The ‘sticking period’ in a maximum bench press. The Journal of Sports Science, Mar 28 (5): 529–35.

12

Sterling, M., Jull, G., & Wright, A. (2001). The effect of musculoskeletal pain on motor activity and control. The Journal of Pain, 2(3), 135–145.

13

Pageaux, B. (2016). Perception of effort in exercise science: definition, measurement and perspectives. European Journal of Sport Science, 16(8), 885–894.

14

Andersen, CE, Sforza GA, & Sigg JA. (2008). The effects of combining elastic and free weight resistance on strength and power in athletes. The Journal of Strength and Conditioning Research, Mar; 22(2): 567–74.

15

Ghingarelli JJ, Nagle EF, Gross FL, Robertson RJ, Irrgang JJ, & Myslinski T. (2009).The effects of a 7-week heavy elastic band and weight chain program on upper-body strength and upper-body power in a sample of division 1-AA football players. The Journal of Strength and Conditioning Research, May; 23(3): 756–64.

16

Joy JM, DeSouza EO, Lowry R, & Wilson JM. (2013). Performance is increased when variable resistance is added to a standard strength program. The Journal of Strength and Conditioning Research, May; 30(8).

17

Rivière M, Louit L, Strokosh A, & Seitz LB. (2017). Variable Resistance Training Promotes Greater Strength and Power Adaptations Than Traditional Resistance Training. The Journal of Strength Conditioning and Research, April; 31 (4): 947–955.

18

McCurdy, K, Langford, G, Ernest, J, Jenkerson, D, and Doscher, M. (2009). Comparison of chain– and plate-loaded bench press training on strength, joint pain, and muscle soreness in Division II baseball players. Journal of Strength and Conditioning Research. 23: 187 19.

19

Godwin, M. S., Fernandes, J. F., & Twist, C. (2018). Effects of Variable Resistance Using Chains on Bench Throw Performance in Trained Rugby Players. The Journal of Strength & Conditioning Research, 32(4), 950–954.

20

Andersen, V. Fimland, M. S., Kolnes, M. K., Jensen, S., Laume, M., & Saeterbakken, A. H. (2016). Electromyographic comparison of squats using constant or variable resistance. The Journal of Strength & Conditioning Research, 30(12), 3456–3463.

21

Andersen V, Fimland MS, Mo D-A, Iversen VM, Larsen TM, Solheim F, et al. (2019). Electromyographic comparison of the barbell deadlift using constant versus variable resistance in healthy, trained men. PLoS ONE 14(1): e0211021

22

Shaw, M. P., Andersen, V., Sæterbakken, A. H., Paulsen, G., Samnøy, L. E., & Solstad, T. (2020). Contemporary Training Practices of Norwegian Powerlifters. Journal of Strength and Conditioning Research, 10.1519/JSC.0000000000003584. Advance online publication, https://doi.org/10.1519/ JSC.0000000000003584

23

Contreras, B. (2017, January 2). An interview with Marte Elverum – A Women’s Norwegian Elite Powerlifter. Retrieved from https://bretcontreras.com/an-interview-with-marte-elverum-a-womens-norwegian-elite-powerlifter/

24

Cronin, J, McNair, PJ, and Marshall, RN. The effects of bungy weight training on muscle function and functional performance. The Journal of Sports Science, 21: 59–71, 2003.

25

Smith, C. M., Housh, T. J., Hill, E. C., Keller, J. L., Anders, J. P. V., Johnson, G. O., & Schmidt, R. J. (2019). Variable resistance training versus traditional weight training on the reflex pathway following four weeks of leg press training. Somatosensory & Motor Research, 36(3), 223–229.

26

Mina, M. A., Blazevich, A. J., Tsatalas, T., Giakas, G., Seitz, L. B., & Kay, A. D. (2019). Variable, but not free-weight, resistance back squat exercise potentiates jump performance following a comprehensive task-specific warm-up. Scandinavian Journal of Medicine & Science in Sports, 29(3), 380–392.

27

Rogers, N. L., Gene, J., Juesas, A., Gargallo, P., Gene, A., Salvador, R., … & Rogers, M. E. (2018). Squatting with elastic bands facilitates more weight used and time under muscle tension. Medicine & Science in Sports & Exercise, vol. 50: no. 5S: pp 50.

28

Colado JC & Triplett NT. (2008). Effects of a short-term resistance program using elastic bands versus weight machine for sedentary middle-aged women. Journal of Strength and Conditioning Research, September; 22(5): 1441–8.

29

Gomez-Tomas C, Chulvi-Medrano I, Carrasco JJ, & Alakhdar Y. (2018). Effect of 1-year elastic band resistance exercise program on cardiovascular risk profile in post-menopausal women. Menopause, September; 25 (9): 1002–1010.

30

Beynnon, B. D., Johnson, R. J., Fleming, B. C., Stankewich, C. J., Renström, P. A., & Nichols, C. E. (1997). The strain behavior of the anterior cruciate ligament during squatting and active flexion-extension: a comparison of an open and a closed kinetic chain exercise. The American Journal of Sports Medicine, 25(6), 823–829.

31

Komiyama, T., Muramatsu, Y., Hashimoto, T., & Kobayashi, H. (2016). Estimating the Effect of Dynamic Variable Resistance in Strength Training. In International Conference on Intelligent Robotics and Applications (pp. 26–35). Springer, Cham.

32

Kompf, J., & Arandjelović, O. (2016). Understanding and overcoming the sticking point in resistance exercise. Sports Medicine, 46(6), 751–762.

33

Janssen I & Ross R. (2001). Physical activity total and regional obesity: Dose-response considerations. Medicine & Science in Sports & Exercise, June; 33(6 Suppl): S521–7.

34

Wing RR. (1999.) Physical activity in the treatment of the adulthood overweight and obesity: current evidence and research issues. Medicine & Science in Sports & Exercise, November; 31(11 Suppl): S547–52.

35

Nishida, Y., Matsubara, T., Tobina, T., Shindo, M., Tokuyama, K., Tanaka, K., & Tanaka, H. (2010). Effect of low-intensity aerobic exercise on insulin-like growth factor-I and insulin-like growth factor-binding proteins in healthy men. International Journal of Endocrinology.

36

Hind, K., Truscott, J. G., & Evans, J. A. (2006). Low lumbar spine bone mineral density in both male and female endurance runners. Bone, 39(4), 880–885.

37

Schwarz, L., & Kindermann, W. (1989). β-Endorphin, catecholamines, and cortisol during exhaustive endurance exercise. International Journal of Sports Medicine, 10(05), 324–328.

38

Peeters, G. M. E. E., Van Schoor, N. M., Van Rossum, E. F. C., Visser, M., & Lips, P. T. A. M. (2008). The relationship between cortisol, muscle mass and muscle strength in older persons and the role of genetic variations in the glucocorticoid receptor. Clinical Endocrinology, 69(4), 673–682.

39

Neary, J. P., Malbon, L., & McKenzie, D. C. (2002). Relationship between serum, saliva and urinary cortisol and its implication during recovery from training. Journal of Science and Medicine in Sport, 5(2), 108–114.

40

Moyer, A. E., Rodin, J., Grilo, C. M., Cummings, N., Larson, L. M., & Rebuffé-Scrive, M. (1994). Stress-induced cortisol response and fat distribution in women. Obesity Research, 2(3), 255–262.

41

Marsh, J. D., Lehmann, M. H., Ritchie, R. H., Gwathmey, J. K., Green, G. E., & Schiebinger, R. J. (1998). Androgen receptors mediate hypertrophy in cardiac myocytes. Circulation, 98(3), 256–261.

42

Laughlin, G. A., Barrett-Connor, E., & Bergstrom, J. (2008). Low serum testosterone and mortality in older men. The Journal of Clinical Endocrinology & Metabolism, 93(1), 68–75.

43

Giltay, E. J., van der Mast, R. C., Lauwen, E., Heijboer, A. C., de Waal, M. W., & Comijs, H. C. (2017). Plasma testosterone and the course of major depressive disorder in older men and women. The American Journal of Geriatric Psychiatry, 25(4), 425–437.

44

Linnamo, V., Pakarinen, A., Komi, P. V., Kraemer, W. J., & Häkkinen, K. (2005). Acute hormonal responses to submaximal and maximal heavy resistance and explosive exercises in men and women. Journal of Strength and Conditioning Research, 19(3), 566.

45

Fry, A. C., & Lohnes, C. A. (2010). Acute testosterone and cortisol responses to high power resistance exercise. Human Physiology, 36(4), 457–461.

46

Mangine, G., Van Dusseldorp, T., Feito, Y., Holmes, A., Serafini, P., Box, A., & Gonzalez, A. (2018). Testosterone and cortisol responses to five high-intensity functional training competition workouts in recreationally active adults. Sports, 6(3), 62.

47

Crewther, B., Cronin, J., Keogh, J., & Cook, C. (2008). The salivary testosterone and cortisol response to three loading schemes. The Journal of Strength & Conditioning Research, 22(1), 250–255.

48

Walker S, Tiapale RS, Nyman K, Kraemer WJ, & Hakkinen K. (2011). Neuromuscular and hormonal responses to constant and variable resistance loadings. Medicine & Science in Sports & Exercise, January; 43(1): 26–33.

49

Nijem, R. M., Coburn, J. W., Brown, L. E., Lynn, S. K., & Ciccone, A. B. (2016). Electromyographic and force plate analysis of the deadlift performed with and without chains. The Journal of Strength & Conditioning Research, 30(5), 1177–1182.

50

Rasmussen, M. H. (2010). Obesity, growth hormone and weight loss. Molecular and Cellular Endocrinology, 316(2), 147–153.

51

Shaner AA, Vingren JL, Hatfield DL, Budnar RG Jr, Duplanty AA, & Hill DW. (2014). The acute hormonal response to free weight and machine weight resistance exercise. The Journal of Strength and Conditioning Research, April; 28 (4): 1032–40.

52

Jaquish J. & Alkire H. (2016). Stabilization Motor Reflex Activation and Acute Growth Hormone Response: A Systematic Review. Journal of Steroids and Hormonal Science, July; 7(3).

53

Striet, P. (2020, February 1). Running 101: Getting Started With Sprints. Retrieved March 5, 2020, from https://www.livestrong.com/article/557767-running-101-getting-started-with-sprints/

54

Jaquish, J., Singh, R., Hynote, E., & Conviser, J. (2012). Osteogenic Loading: A new modality to facilitate bone density development. Jaquish Industrial Research.

55

Heinonen, A., Kannus, P., Sievanen, H., Oja, P., Pasanen, M., Rinne, Ma., Uusi-Rasi, K., & Vuori, I. (1996). Randomised controlled trial of effect of high-impact exercise on selected risk factors for osteoporotic fractures. UKK Institute for Health Promotion Research. Lancet 1996; 348 (9038): 1343–1347.

56

Larson, P. (2019, June 13). Facts on Foot Strike. Retrieved from https://www.runnersworld.com/advanced/a20796790/facts-on-foot-strike Runners World.

57

Jespersen, J. G., Nedergaard, A., Andersen, L. L., Schjerling, P., & Andersen, J. L. (2011). Myostatin expression during human muscle hypertrophy and subsequent atrophy: increased myostatin with detraining. Scandinavian Journal of Medicine & Science in Sports, 21(2), 215–223.

58

Kawada, S. & Ishii, N. (2005). Skeletal muscle hypertrophy after chronic restriction of venous blood flow in rats. Medicine and Science in Sports and Exercise, 37(7), 1144–1150.

59

Nielsen, J. L., Aagaard, P., Bech, R. D., Nygaard, T., Hvid, L. G., Wernbom, M., … & Frandsen, U. (2012). Proliferation of myogenic stem cells in human skeletal muscle in response to low-load resistance training with blood flow restriction. The Journal of Physiology, 590(17), 4351–4361.

60

Нетреба А. И., Попов Д. В., Любаева Е. В., Бравый Я. Р., Простова А. Б., Лемешева Ю. С., Виноградова О. Л. (2007). Физиологические эффекты использования низкоинтенсивной силовой тренировки без расслабления в односуставном и многосуставном движениях. Российский физиологический журнал им. И. М. Сеченова. 93: 27–38.

61

Нетреба А. И., Попов Д. В., Бравый Я. Р., Мисина С. С., Виноградова О. Л. (2009). Физиологические эффекты низкоинтенсивной силовой тренировки без расслабления. Физиология человека, том 35: с. 97–102.

62

Lixandrão, Manoel E., et al. “Effects of exercise intensity and occlusion pressure after 12 weeks of resistance training with blood-flow restriction.” European Journal of Applied Physiology 115.12 (2015): 2471–2480.

63

Nishimura, A, Sugita, M, Kato, K, Fukuda, A, Sudo, A, and Uchida, A. Hypoxia increases muscle hypertrophy induced by resistance training. Int. J. Sports Physiol. Perform. 5: 497–508, 2010.

64

Contreras, B., & Schoenfeld, B. (2016, February 20). Tip: Use Continuous Tension for Muscle Gains. Retrieved January 14, 2020, from https://www.t-nation.com/training/tip-use-continuous-tension-for-muscle-gains

65

Feriche, B., García-Ramos, A., Morales-Artacho, A. J., & Padial, P. (2017). Resistance training using different hypoxic training strategies: a basis for hypertrophy and muscle power development. Sports Medicine-Open, 3(1), 12.

66

Moritani, T., Sherman, W. M., Shibata, M., Matsumoto, T., & Shinohara, M. (1992). Oxygen availability and motor unit activity in humans. European Journal of Applied Physiology and Occupational Physiology, 64(6), 552–556.

67

Stock, M. S., Beck, T. W., DeFreitas, J. M., & Dillon, M. A. (2011). Test – retest reliability of barbell velocity during the free-weight bench-press exercise. The Journal of Strength & Conditioning Research, 25(1), 171–177.

68

Saeterbakken, A. H., & Fimland, M. S. (2012). Muscle activity of the core during bilateral, unilateral, seated and standing resistance exercise. European Journal of Applied Physiology, 112(5), 1671–1678.

69

McDowell, M. A., Fryar, C. D., & Ogden, C. L. (2009). Anthropometric reference data for children and adults: United States, 1988–1994. Vital and health statistics. Series 11, Data from the national health survey, (249), 1–68.

70

US Food and Nutrition Board’s 2005 textbook. Dietary Reference Intakes for Energy, Carbohydrate, Fiber, Fat, Fatty Acids, Cholesterol, Protein, and Amino Acids. 275–277.

71

Merriam-Webster. (n. d.). Macronutrient. In Merriam-Webster.com dictionary. Retrieved March 9, 2020, from https://www.merriam-webster.com/dictionary/macronutrient

72

Antonio, J., Peacock, C. A., Ellerbroek, A., Fromhoff, B., & Silver, T. (2014). The effects of consuming a high protein diet (4.4 g/kg/d) on body composition in resistance-trained individuals. Journal of the International Society of Sports Nutrition, 11(1), 19.

73

Longland, T. M., Oikawa, S. Y., Mitchell, C. J., Devries, M. C., & Phillips, S. M. (2016). Higher compared with lower dietary protein during an energy deficit combined with intense exercise promotes greater lean mass gain and fat mass loss: a randomized trial. The American Journal of Clinical Nutrition, 103(3), 738–746.

74

Borman, A., T. R. Wood, H. C. Black, E. G. Anderson, M. J. Oesterling, M. Womack and W. C. Rose. (1946). The role of arginine in growth with some observations on the effects of argininic acid. J. Biol. Chem. 166: 585.

75

Rose, W. C. (1949). Amino acid, requirements of man. In Federation Proceedings. Federation of American Societies for Experimental Biology (Vol. 8, pp. 546–652).

76

Kopple, J. D., & Swendseid, M. E. (1975). Evidence that histidine is an essential amino acid in normal and chronically uremic man. The Journal of Clinical Investigation, 55(5), 881–891.

77

Kriengsinyos, W., Rafii, M., Wykes, L. J., Ball, R. O., & Pencharz, P. B. (2002). Long-term effects of histidine depletion on whole-body protein metabolism in healthy adults. The Journal of Nutrition, 132(11), 3340–3348.

78

Lucà-Moretti, M. (1998). A Comparative, Double-blind, Triple Crossover Net Nitrogen Utilization Study Confirms the Discovery of the Master Amino Acid Pattern. Age (years), 152(176), 41–5.

79

Hoffman, J. R., & Falvo, M. J. (2004). Protein – which is best? Journal of Sports Science & Medicine, 3(3), 118.

80

81

82

Lucà-Moretti, M. (1998). A Comparative, Double-blind, Triple Crossover Net Nitrogen Utilization Study Confirms the Discovery of the Master Amino Acid Pattern. Age (years), 152(176), 41–5.

83

Pasiakos, S. M., McClung, H. L., McClung, J. P., Margolis, L. M., Andersen, N. E., Cloutier, G. J., …& Young, A. J. (2011). Leucine-enriched essential amino acid supplementation during moderate steady state exercise enhances post-exercise muscle protein synthesis—. The American Journal of Clinical Nutrition, 94(3), 809–818.

84

Pan, A., Sun, Q., Bernstein, A. M., Schulze, M. B., Manson, J. E., Stampfer, M. J., & …Hu, F. B. (2012). Red meat consumption and mortality: results from 2 prospective cohort studies. Archives of internal medicine, 172(7), 555–563.

85

https://www.gizmodo.com.au/2012/03/red-meat-is-responsible-for-10-of-early-deaths/

86

Sinha, R., Cross, A. J., Graubard, B. I., Leitzmann, M. F., & Schatzkin, A. (2009). Meat intake and mortality: a prospective study of over half a million people. Archives of internal medicine, 169(6), 562–571.

87

Pesch, B., Kendzia, B., Gustavsson, P., Jöckel, K. H., Johnen, G., Pohlabeln, H., & Wichmann, H. E. (2012). Cigarette smoking and lung cancer – relative risk estimates for the major histological types from a pooled analysis of case – control studies. International Journal of Cancer, 131(5), 1210–1219.

88

Michaud, D. S., Augustsson, K., Rimm, E. B., Stampfer, M. J., Willett, W. C., & Giovannucci, E. (2001). A prospective study on intake of animal products and risk of prostate cancer. Cancer Causes & Control, 12(6), 557–567.

89

Dehghan, M., Mente, A., Zhang, X., Swaminathan, S., Li, W., Mohan, V., & Amma, L. I. (2017). Associations of fats and carbohydrate intake with cardiovascular disease and mortality in 18 countries from five continents (PURE): a prospective cohort study. The Lancet, 390(10107), 2050–2062.

90

Praagman, J., Beulens, J. W., Alssema, M., Zock, P. L., Wanders, A. J., Sluijs, I., & Van Der Schouw, Y. T. (2016). The association between dietary saturated fatty acids and ischemic heart disease depends on the type and source of fatty acid in the European Prospective Investigation into Cancer and Nutrition – Netherlands cohort, 2. The American Journal of Clinical Nutrition, 103(2), 356–365.

91

Ravnskov, U., Diamond, D. M., Hama, R., Hamazaki, T., Hammarskjöld, B., Hynes, N., …& McCully, K. S. (2016). Lack of an association or an inverse association between low-density-lipoprotein cholesterol and mortality in the elderly: a systematic review. BMJ open, 6(6), e010401.

92

Harcombe, Z., Baker, J. S., Cooper, S. M., Davies, B., Sculthorpe, N., DiNicolantonio, J. J., & Grace, F. (2015). Evidence from randomized, controlled trials did not support the introduction of dietary fat guidelines in 1977 and 1983: a systematic review and meta-analysis. Open Heart, 2(1), e000196.

93

Ramsden, C. E., Zamora, D., Majchrzak-Hong, S., Faurot, K. R., Broste, S. K., Frantz, R. P., …& Hibbeln, J. R. (2016). Re-evaluation of the traditional diet-heart hypothesis: analysis of recovered data from Minnesota Coronary Experiment (1968–73). BMJ, 353, i1246.

94

Sharman, M. J., Kraemer, W. J., Love, D. M., Avery, N. G., Gómez, A. L., Scheett, T. P., & Volek, J. S. (2002). A ketogenic diet favorably affects serum biomarkers for cardiovascular disease in normal-weight men. The Journal of Nutrition, 132(7), 1879–1885.

95

Yancy, W. S., Olsen, M. K., Guyton, J. R., Bakst, R. P., & Westman, E. C. (2004). A low-carbohydrate, ketogenic diet versus a low-fat diet to treat obesity and hyperlipidemia: a randomized, controlled trial. Annals of Internal Medicine, 140(10), 769–777.

96

Gardner, C. D., Kiazand, A., Alhassan, S., Kim, S., Stafford, R. S., Balise, R. R., …& King, A. C. (2007). Comparison of the Atkins, Zone, Ornish, and LEARN diets for change in weight and related risk factors among overweight premenopausal women: the A TO Z Weight Loss Study: a randomized trial. Jama, 297(9), 969–977.

97

Ho, K. Y., Veldhuis, J. D., Johnson, M. L., Furlanetto, R., Evans, W. S., Alberti, K. G., & Thorner, M. O. (1988). Fasting enhances growth hormone secretion and amplifies the complex rhythms of growth hormone secretion in man. The Journal of Clinical Investigation, 81(4), 968–975.

98

Твен, M. (1899). Мой дебют в роли литератора. Century Company.

99

Howard, et al. (2006). Low-fat dietary pattern and weight change over 7 years: the Women’s Health InitiativeDietary Modification Trial. JAMA. Jan 4;295(1):39–49.

100

Hatori, M, Vollmers, C, Zarrinpar A, DiTacchio L, Bushong EA, Gill S, Chaix A, Joens M, Fitzpatrick JAJ, Elisman MH, & Panda S. (2012). Time-restricted feeding without reducing caloric intake prevents metabolic diseases in mice fed a high-fat diet. Cell Metabolism. 15(6), 848–860.

101

Anton, S. D., Moehl, K., Donahoo, W. T., Marosi, K., Lee, S. A., Mainous III, A. G., …& Mattson, M. P. (2018). Flipping the metabolic switch: understanding and applying the health benefits of fasting. Obesity, 26(2), 254–268.

102

Mattson MP, Longo VD, Harvie M. Impact of intermittent fasting on health and disease processes. Ageing Res Rev 2017;39:46–58.

103

Scott, J. M., & Deuster, P. A. (2017). Ketones and Human Performance. Journal of special operations medicine: a peer reviewed journal for SOF medical professionals, 17(2), 112–116.

104

Alirezaei, M., Kemball, C. C., Flynn, C. T., Wood, M. R., Whitton, J. L., & Kiosses, W. B. (2010). Shortterm fasting induces profound neuronal autophagy. Autophagy, 6(6), 702–710.

105

Hartman, M. L., Veldhuis, J. D., Johnson, M. L., Lee, M. M., Alberti, K. G., Samojlik, E., & Thorner, M. O. (1992). Augmented growth hormone (GH) secretory burst frequency and amplitude mediate enhanced GH secretion during a two-day fast in normal men. The Journal of Clinical Endocrinology & Metabolism, 74(4), 757–765.

106

Klein, S., Sakurai, Y. O. I. C. H. I., Romijn, J. A., & Carroll, R. M. (1993). Progressive alterations in lipid and glucose metabolism during short-term fasting in young adult men. American Journal of Physiology, Endocrinology and Metabolism, 265(5), E801-E806.

107

Cheng, C. W., Adams, G. B., Perin, L., Wei, M., Zhou, X., Lam, B. S., …& Kopchick, J. J. (2014). Prolonged fasting reduces IGF-1/PKA to promote hematopoietic-stem-cell-based regeneration and reverse immunosuppression. Cell Stem Cell, 14(6), 810–823.

108

Habito, R. C., & Ball, M. J. (2001). Postprandial changes in sex hormones after meals of different composition. Metabolism-Clinical and Experimental, 50(5), 505–511.

109

Röjdmark, S., Asplund, A., & Rössner, S. (1989). Pituitary-testicular axis in obese men during short-term fasting. European Journal of Endocrinology, 121(5), 727–732.

110

Sutton, E. F., Beyl, R., Early, K. S., Cefalu, W. T., Ravussin, E., & Peterson, C. M. (2018). Early timerestricted feeding improves insulin sensitivity, blood pressure, and oxidative stress even without weight loss in men with prediabetes. Cell Metabolism, 27(6), 1212–1221.

111

Strauss, R.H., R. R. Lanese, and W. B. Malarkey. (1985). Weight loss in amateur wrestlers and its effect on serum testosterone levels. JAMA. 20;254:3337–8.

112

Kiddy, D.S. D. Hamilton-Failey, M. Seppala, R. Koistinen, V. H. James, M. J. Reed, and S. Franks. (1989) Diet-induced changes in sex hormone binding globulin and free testosterone in women with normal or polycystic ovaries: correlation with serum insulin and insulin-like growth factor-I. Clin Endocrinol (Oxf). 31:757–63.

113

Ho, K. Y., Veldhuis, J. D., Johnson, M. L., Furlanetto, R., Evans, W. S., Alberti, K. G., & Thorner, M.O. (1988). Fasting enhances growth hormone secretion and amplifies the complex rhythms of growth hormone secretion in man. The Journal of Clinical Investigation, 81(4), 968–975.

114

115

Moyer, A. E., Rodin, J., Grilo, C. M., Cummings, N., Larson, L. M., & Rebuffé-Scrive, M. (1994). Stressinduced cortisol response and fat distribution in women. Obesity Research, 2(3), 255–262.

116

Bhutani, S., Klempel, M. C., Berger, R. A., & Varady, K. A. (2010). Improvements in coronary heart disease risk indicators by alternate-day fasting involve adipose tissue modulations. Obesity, 18(11), 2152–2159.

117

Moro, T., Tinsley, G., Bianco, A., Marcolin, G., Pacelli, Q. F., Battaglia, G., …& Paoli, A. (2016). Effects of eight weeks of time-restricted feeding (16/8) on basal metabolism, maximal strength, body composition, inflammation, and cardiovascular risk factors in resistance-trained males. Journal of Translational Medicine, 14(1), 290.

118

Catenacci, V. A., Pan, Z., Ostendorf, D., Brannon, S., Gozansky, W. S., Mattson, M. P., …& Troy Donahoo, W. (2016). A randomized pilot study comparing zero-calorie alternate-day fasting to daily caloric restriction in adults with obesity. Obesity, 24(9), 1874–1883.

119

Trepanowski, J. F., Kroeger, C. M., Barnosky, A., Klempel, M. C., Bhutani, S., Hoddy, K. K., …& Ravussin, E. (2017). Effect of alternate-day fasting on weight loss, weight maintenance, and cardioprotection among metabolically healthy obese adults: a randomized clinical trial. JAMA Internal Medicine, 177(7), 930–938.

120

121

Calton, J. B. (2010). Prevalence of micronutrient deficiency in popular diet plans. Journal of the International Society of Sports Nutrition, 7(1), 24.

122

Mursu, J., Robien, K., Harnack, L. J., Park, K., & Jacobs, D. R. (2011). Dietary supplements and mortality rate in older women: the Iowa Women’s Health Study. Archives of Internal Medicine, 171(18), 1625–1633.

123

Key, T. J., Appleby, P. N., Spencer, E. A., Travis, R. C., Roddam, A. W., & Allen, N. E. (2009). Cancer incidence in vegetarians: results from the European Prospective Investigation into Cancer and Nutrition (EPIC-Oxford). The American Journal of Clinical Nutrition, 89(5), 1620S-1626S.

124

FitzGerald, S. J., Barlow, C. E., Kampert, J. B., Morrow, J. R., Jackson, A. W., & Blair, S. N. (2004). Muscular fitness and all-cause mortality: prospective observations. Journal of Physical Activity and Health, 1(1), 7–18.

125

Metter, E. J., Talbot, L. A., Schrager, M., & Conwit, R. (2002). Skeletal muscle strength as a predictor of all-cause mortality in healthy men. The Journals of Gerontology Series A: Biological Sciences and Medical Sciences, 57(10), B359-B365.

126

Artero, E. G., Lee, D. C., Ruiz, J. R., Sui, X., Ortega, F. B., Church, T. S., …& Blair, S. N. (2011). A prospective study of muscular strength and all-cause mortality in men with hypertension. Journal of the American College of Cardiology, 57(18), 1831–1837.

127

Rantanen, T., Masaki, K., He, Q., Ross, G. W., Willcox, B. J., & White, L. (2012). Midlife muscle strength and human longevity up to age 100 years: a 44-year prospective study among a decedent cohort. Age, 34(3), 563–570.

128

Jacobs, E. J., Newton, C. C., Wang, Y., Patel, A. V., McCullough, M. L., Campbell, P. T., & Gapstur, S. M. (2010). Waist circumference and all-cause mortality in a large US cohort. Archives of Internal Medicine, 170(15), 1293–1301.

129

Lucà-Moretti, M. (1998). A Comparative, Double-blind, Triple Crossover Net Nitrogen Utilization Study Confirms the Discovery of the Master Amino Acid Pattern. Age (years), 152(176), 41–5.

130

Hoffman, J. R., & Falvo, M. J. (2004). Protein – which is best? Journal of Sports Science & Medicine, 3(3), 118.

131

Levinson, C. A., Fewell, L., & Brosof, L. C. (2017). My Fitness Pal calorie tracker usage in the eating disorders. Eating Behaviors, 27, 14–16.

132

Bray, G. A., Redman, L. M., de Jonge, L., Covington, J., Rood, J., Brock, C., …& Smith, S. R. (2015). Effect of protein overfeeding on energy expenditure measured in a metabolic chamber. The American Journal of Clinical Nutrition, 101(3), 496–505.

133

Nestle, M. (2018). Unsavory truth: how food companies skew the science of what we eat. Basic Books.

134

Brody, J. E. (2018). Confused by Nutrition Research? Sloppy Science May Be to Blame. Retrieved January 29, 2020, from https://www.nytimes.com/2018/10/29/well/live/confused-by-nutrition-research-sloppy-science-may-be-to-blame.amp.html

135

Yank, V., Rennie, D., & Bero, L. A. (2007). Financial ties and concordance between results and conclusions in meta-analyses: retrospective cohort study. BMJ, 335(7631), 1202–1205.

136

Klein, S. (2017). A Brief History Of How Breakfast Got Its ‘Healthy’ Rep. Retrieved January 29, 2020, from https://www.huffpost.com/entry/breakfast-most-important-history_n_5910054

137

Kappeler, R., Eichholzer, M., & Rohrmann, S. (2013). Meat consumption and diet quality and mortality in NHANES III. European Journal of Clinical Nutrition, 67(6), 598.

138

Key, T. J., Appleby, P. N., Spencer, E. A., Travis, R. C., Roddam, A. W., & Allen, N. E. (2009). Mortality in British vegetarians: results from the European Prospective Investigation into Cancer and Nutrition (EPIC-Oxford). The American Journal of Clinical Nutrition, 89(5), 1613S-1619S.

139

Burkert, N. T., Muckenhuber, J., Großschädl, F., Rásky, E., & Freidl, W. (2014). Nutrition and health – the association between eating behavior and various health parameters: a matched sample study. PloS One, 9(2), e88278.

140

Mihrshahi, S., Ding, D., Gale, J., Allman-Farinelli, M., Banks, E., & Bauman, A. E. (2017). Vegetarian diet and all-cause mortality: Evidence from a large population-based Australian cohort-the 45 and Up Study. Preventive Medicine, 97, 1–7.

141

Grasgruber, P., Sebera, M., Hrazdira, E., Hrebickova, S., & Cacek, J. (2016). Food consumption and the actual statistics of cardiovascular diseases: an epidemiological comparison of 42 European countries. Food & Nutrition Research, 60(1), 31694.

142

Smith, A. M. (2006). Veganism and osteoporosis: a review of the current literature. International Journal of Nursing Practice, 12(5), 302–306.

143

Kerstetter, J. E., Wall, D. E., O’Brien, K. O., Caseria, D. M., & Insogna, K. L. (2006). Meat and soy protein affect calcium homeostasis in healthy women. The Journal of Nutrition, 136(7), 1890–1895.

144

Iguacel, I., Miguel-Berges, M. L., Gómez-Bruton, A., Moreno, L. A., & Julián, C. (2019). Veganism, vegetarianism, bone mineral density, and fracture risk: a systematic review and meta-analysis. Nutrition reviews, 77(1), 1–18.

145

146

Devries, M. C., Sithamparapillai, A., Brimble, K. S., Banfield, L., Morton, R. W., & Phillips, S. M. (2018). Changes in kidney function do not differ between healthy adults consuming higher-compared with lower-or normal-protein diets: a systematic review and meta-analysis. The Journal of Nutrition, 148(11), 1760–1775.

147

Mann, N. (2007). Meat in the human diet: An anthropological perspective. Nutrition & Dietetics, 64, S102-S107.

148

Sung, K. C., Huh, J. H., Ryu, S., Lee, J. Y., Scorletti, E., Byrne, C. D., … & Ko, S. B. (2019). Low Levels of Low-Density Lipoprotein Cholesterol and Mortality Outcomes in Non-Statin Users. Journal of Clinical Medicine, 8(10), 1571.

149

Siri-Tarino, P. W., Sun, Q., Hu, F. B., & Krauss, R. M. (2010). Meta-analysis of prospective cohort studies evaluating the association of saturated fat with cardiovascular disease. The American Journal of Clinical Nutrition, 91(3), 535–546.

150

Soliman, G. (2018). Dietary cholesterol and the lack of evidence in cardiovascular disease. Nutrients, 10(6), 780.

151

Louwman, M. W., van Dusseldorp, M., van de Vijver, F. J., Thomas, C. M., Schneede, J., Ueland, P. M., …& van Staveren, W. A. (2000). Signs of impaired cognitive function in adolescents with marginal cobalamin status. The American Journal of Clinical Nutrition, 72(3), 762–769.

152

Elsori, D. H., & Hammoud, M. S. (2018). Vitamin D deficiency in mothers, neonates and children. The Journal of Steroid Biochemistry and Molecular Biology, 175, 195–199.

153

Tuso, P. J., Ismail, M. H., Ha, B. P., & Bartolotto, C. (2013). Nutritional update for physicians: plant-based diets. The Permanente Journal, 17(2), 61.

154

Ludwig, D. S., Hu, F. B., Tappy, L., & Brand-Miller, J. (2018). Dietary carbohydrates: Role of quality and quantity in chronic disease. BMJ, 361, k2340.

155

Derbyshire, E. (2019). Could we be overlooking a potential choline crisis in the United Kingdom? BMJ Nutrition, Prevention & Health, bmjnph-2019.

156

Yildiz F (2005). Phytoestrogens in Functional Foods. Taylor & Francis Ltd. pp. 3–5, 210–211.

157

Siepmann, T., Roofeh, J., Kiefer, F. W., & Edelson, D. G. (2011). Hypogonadism and erectile dysfunction associated with soy product consumption. Nutrition, 27(7–8), 859–862.

158

Kraemer, W. J., Solomon-Hill, G., Volk, B. M., Kupchak, B. R., Looney, D. P., Dunn-Lewis, C., …& Maresh, C. M. (2013). The effects of soy and whey protein supplementation on acute hormonal responses to resistance exercise in men. Journal of the American College of Nutrition, 32(1), 66–74.

159

Tuso, P. J., Ismail, M. H., Ha, B. P., & Bartolotto, C. (2013). Nutritional update for physicians: plant-based diets. The Permanente Journal, 17(2), 61.

160

Prenen, J. A., Boer, P., & Dorhout Mees, E. J. (1984). Absorption kinetics of oxalate from oxalate-rich food in man. The American Journal of Clinical Nutrition, 40(5), 1007–1010.

161

Vida, C., M Gonzalez, E., & De la Fuente, M. (2014). Increase of oxidation and inflammation in nervous and immune systems with aging and anxiety. Current Pharmaceutical Design, 20(29), 4656–4678.

162

Cauza, E., Hanusch-Enserer, U., Strasser, B., Ludvik, B., Metz-Schimmerl, S., Pacini, G., …& Dunky, A. (2005). The relative benefits of endurance and strength training on the metabolic factors and muscle function of people with Type 2 diabetes mellitus. Archives of Physical Medicine and Rehabilitation, 86(8), 1527–1533.

163

Olson, T. P., Dengel, D. R., Leon, A. S., & Schmitz, K. H. (2006). Moderate resistance training and vascular health in overweight women. Medicine & Science in Sports & Exercise, 38(9), 1558–1564.

164

Rakobowchuk, M., McGowan, C. L., De Groot, P. C., Hartman, J. W., Phillips, S. M., & MacDonald, M. J. (2005). Endothelial function of young healthy males following whole body resistance training. Journal of Applied Physiology, 98(6), 2185–2190.

165

Cornelissen, V. A., & Fagard, R. H. (2005). Effect of resistance training on resting blood pressure: a metaanalysis of randomized, controlled trials.

166

Steele, J., Fisher, J., & Bruce-Low, S. (2012). Resistance training to momentary muscular failure improves cardiovascular fitness in humans: a review of acute physiological responses and chronic physiological adaptations. Journal of Exercise Physiology Online, 15(3), 53–80.

167

Laurson, K. R., Eisenmann, J. C., & Welk, G. J. (2011). Body fat percentile curves for US children and adolescents. American Journal of Preventive Medicine, 41(4), S87-S92.

168

Borrud, L. G., Flegal, K. M., Freedman, D. S., Li, Y., & Ogden, C. L. (2011). Smoothed percentage body fat percentiles for US children and adolescents, 1999–2004, https://stacks.cdc.gov/view/cdc/13173/Print

169

Combest, T. M., Howard, R. S., & Andrews, A. M. (2017). Comparison of Circumference Body Composition Measurements and Eight-Point Bioelectrical Impedance Analysis to Dual Energy X-Ray Absorptiometry to Measure Body Fat Percentage. Military Medicine, 182(7), e1908-e1912.

170

171

Sjöström M, Johansson C, Lorentzon R. (1988). Muscle pathology in m. quadriceps of marathon runners. Early signs of strain disease or functional adaptation? Acta Physiol Scanda, 132(4): 537–41.

172

Damas F, Libardi CA, Ugrinowitsch C. (2018). The development of skeletal hypertrophy through resistance training: the role of muscle damage and muscle protein synthesis. Eur J Appl Physiol. 118(3): 485–500.

173

Kraemer WJ, Adams K, Cafarelli E, Dudley GA, Dooly C. Feigenbaum MS, Fleck SJ, Franklin B, Fry AC, Hoffman JR, Newton RU, Potteiger J, Stone MH, Ratamess NA, Triplett-McBride T, American College of Sports Medicine. (2002). American College of Sports Medicine position stand. Progression models in resistance training for healthy adults. Med Sci Sports Exerc,34(2): 364–80.

174

Liu Y, Schlumberger A, Wirth K, Schmidtbleicher D, & Steinacker JM.(2003). Different effects on human skeletal myosin heavy chain isoform expression: strength vs. combination training. Journal of Applied Physiology. 94(6): 2282–8.

175

Lüthi, J. M., Howald, H., Claassen, H., Rösler, K., Vock, P., & Hoppeler, H. (1986). Structural changes in skeletal muscle tissue with heavy-resistance exercise. International Journal of Sports Medicine, 7(03), 123–127.

176

Schoenfeld BJ. The mechanisms of muscle hypertrophy and their application to resistance training. (2010). J Strength Cond Res. Oct;24(10):2857–72.

177

Barak, Y., Ayalon, M., & Dvir, Z. (2004). Transferability of strength gains from limited to full range of motion”. American College of Sports Medicine. 36(8):1413–1420.

178

Johnston, B (2005). The Effects of Fatigue from Limited Range Exercise on Full Range Function. Journal of Exercise Physiology. 8(5):15–21.

179

Mookerjee, S., & Ratamess N. (1999). Comparison of Strength Differences and Joint Action Durations Between Full and Partial Range-of-Motion Bench Press Exercise. Journal of Strength and Conditioning Research, 13(1), 76–81. National Strength & Conditioning Association.

180

Van Den Tillaar, R., & Ettema, G. (2010). The “sticking period” in a maximum bench press. Journal of Sports Sciences, 28(5), 529–535.

181

Glass, S. C., & Armstrong, T. (1997). Electromyographical activity of the pectoralis muscle during incline and decline bench presses. Journal of Strength and Conditioning Research, 11, 163–167.

182

Hulmi, J. J., Kovanen, V., Selänne, H., Kraemer, W. J., Häkkinen, K., & Mero, A. A. (2009). Acute and long-term effects of resistance exercise with or without protein ingestion on muscle hypertrophy and gene expression. Amino Acids, 37(2), 297–308.

183

Willoughby, D. S., Stout, J. R., & Wilborn, C. D. (2007). Effects of resistance training and protein plus amino acid supplementation on muscle anabolism, mass, and strength. Amino Acids, 32(4), 467–477.

184

Hoffman, J. R., Ratamess, N. A., Tranchina, C. P., Rashti, S. L., Kang, J., & Faigenbaum, A. D. (2009). Effect of protein-supplement timing on strength, power, and body-composition changes in resistancetrained men. International journal of Sport Nutrition and Exercise Metabolism, 19(2), 172–185.

185

MacDougall, J. D., Gibala, M. J., Tarnopolsky, M. A., MacDonald, J. R., Interisano, S. A., & Yarasheski, K. E. (1995). The time course for elevated muscle protein synthesis following heavy resistance exercise. Canadian Journal of Applied Physiology, 20(4), 480–486.

186

Johnston, C. S., Day, C. S., & Swan, P. D. (2002). Postprandial thermogenesis is increased 100 % on a high-protein, low-fat diet versus a high-carbohydrate, low-fat diet in healthy, young women. Journal of the American College of Nutrition, 21(1), 55–61.

187

188

189

190

Howard, et al. (2006). Low-fat dietary pattern and weight change over 7 years: the Women’s Health Initiative Dietary Modification Trial. JAMA. Jan 4;295(1):39–49.

191

TODAY Study Group. (2010). Design of a family-based lifestyle intervention for youth with type 2 diabetes: the TODAY study. International Journal of Obesity (2005), 34(2), 217.

192

Thorpe, G. L. (1957). Treating overweight patients. Journal of the American Medical Association, 165(11), 1361–1365.

193

Pope, HG. Katz, DL. (1994). Psychiatric and Medical Effects of Anabolic-Androgenic Steroid Use: A Controlled Study of 160 Athletes. Arch Gen Psychiatry. 51(5):375–382.

194

Kail, RV. Cavanaugh, JC. (2010). Human Development: A Lifespan View (5th ed.). Cengage Learning. p. 296.

195

Kouri, E. M., Pope, J. H., Katz, D. L., & Oliva, P. (1995). Fat-free mass index in users and nonusers of anabolic-androgenic steroids. Clinical journal of sport medicine: official Journal of the Canadian Academy of Sport Medicine, 5(4), 223–228.

196

Burns, K. (2019, May 15). Caster Semenya and the Twisted Politics of Testosterone. Retrieved from https://www.wired.com/story/caster-semenya-and-the-twisted-politics-of-testosterone/

197

W. E. Buckley, C. E. Yesalis, 3rd, K. E. Friedl, W. A. Anderson, A. L. Streit, J. E. Wright. JAMA. (1988) Estimated prevalence of anabolic steroid use among male high school seniors; 260(23): 3441–3445.Anabolic steroid use by male and female middle school students. Pediatrics. 101(5): E6.

198

Schuelke, M., Wagner, K. R., Stolz, L. E., Hübner, C., Riebel, T., Kömen, W., …& Lee, S. J. (2004). Myostatin mutation associated with gross muscle hypertrophy in a child. New England Journal of Medicine, 350(26), 2682–2688.

199

Barr, J. G., Veena, S. R., Kiran, K. N., Wills, A. K., Winder, N. R., Kehoe, S., …& Krishnaveni, G. V. (2010). The relationship of birth weight, muscle size at birth and post-natal growth to grip strength in 9-year-old Indian children: findings from the Mysore Parthenon study. Journal of Developmental Origins of Health and Disease, 1(5), 329–337.

200

Sewell, D., Griffin, M., & Watkins, P. (2014). Sport and exercise science: An introduction. Routledge.

201

Ratamess, N. A. (2011). ACSM’s foundations of strength training and conditioning. Wolters Kluwer Health/Lippincott Williams & Wilkins.

202

Thomopoulos, S., Williams, G. R., Gimbel, J. A., Favata, M., & Soslowsky, L. J. (2003). Variation of biomechanical, structural, and compositional properties along the tendon to bone insertion site. Journal of Orthopaedic Research, 21(3), 413–419.

203

Wilson, A., & Lichtwark, G. (2011). The anatomical arrangement of muscle and tendon enhances limb versatility and locomotor performance. Philosophical Transactions of the Royal Society B: Biological Sciences, 366(1570), 1540–1553.

204

Dengel, D. R., Raymond, C. J., & Bosch, T. A. (2017). Assessment of muscle mass. Body Composition: Health and Performance in Exercise and Sport. Boca Raton, FL: Taylor & Francis Group.

205

Kamp, P. (2019, November 13). Body Fat Percentage Distribution for Men and Women in the United States. Retrieved February 3, 2020.

206

Laurson, K. R., Eisenmann, J. C., & Welk, G. J. (2011). Body fat percentile curves for US children and adolescents. American Journal of Preventive Medicine, 41(4), S87-S92.

207

Borrud, L. G., Flegal, K. M., Freedman, D. S., Li, Y., & Ogden, C. L. (2011). Smoothed percentage body fat percentiles for US children and adolescents, 1999–2004.

208

Costill, D. L., E. F. Coyle, W. F. Fink, G. R. Lesmes, and F. A. Witzmann. (1979). Adaptations in skeletal muscle following strength training. J. Appl. Physiol. 46(1): 96–99.

209

Tesch, P. A. and L. Larsson. (1982). Muscle hypertrophy in bodybuilders. Eur. J. Appl. Physiol. 49: 301–306.

210

Sola, O. M., D. L. Christensen, and A. W. Martin. (1973). Hypertrophy and hyperplasia of adult chicken anterior latissimus dorsi muscles following stretch with and without denervation. Exp. Neurol. 41: 76–100.

211

Winchester, P. K., M. E. Davis, S. E. Alway, and W. J. Gonyea. (1991). Satellite cell activation of the stretch-enlarged anterior latissimus dorsi muscle of the adult quail. Am. J. Physiol. 260: C206-C212.

212

Gajdosik, R. L. 2001, “Passive extensibility of skeletal muscle: review of the literature with clinical implications,” Clin.Biomech.(Bristol., Avon.), vol. 16, no. 2, pp. 87–101.

213

Millward, D. J. 1995, “A protein-stat mechanism for regulation of growth and maintenance of the lean body mass,” Nutr.Res.Rev., vol. 8, no. 1, pp. 93–120.

214

Yamada, S., N. Buffinger, J. Dimario, and R. C. Strohman. (1989). Fibroblast growth factor is stored in fiber extracellular matrix and plays a role in regulating muscle hypertrophy. Med. Sci. Sports Exerc. 21(5): S173-S180.

215

Nygaard, E. and E. Nielsen. (1978). Skeletal muscle fiber capillarisation with extreme endurance training in man. Swimming Medicine IV(vol. 6, pp. 282–293). University Park Press, Baltimore.

216

Spernoga, S. G., Uhl, T. L., Arnold, B. L., & Gansneder, B. M. (2001). Duration of maintained hamstring flexibility after a one-time, modified hold-relax stretching protocol. Journal of Athletic Training, 36(1), 44.

217

Staples AW, Burd NA, West DW, Currie KD, Atherton PJ, Moore DR, Rennie MJ, Macdonald MJ, Baker SK, Phillips SM. (2011). Carbohydrate does not augment exercise-induced protein accretion versus protein alone. Med Sci Sports Exerc.;43(7):1154–1161.

218

Koopman R, Beelen M, Stellingwerff T, Pennings B, Saris WH, Kies AK, Kuipers H, Van Loon LJ. (2007). Coingestion of carbohydrate with protein does not further augment postexercise muscle protein synthesis. Am J Physiol Endocrinol Metab.;293(3): E833–842.

219

Glynn EL, Fry CS, Timmerman KL, Drummond MJ, Volpi E, Rasmussen BB. (2013). Addition of carbohydrate or alanine to an essential amino acid mixture does not enhance human skeletal muscle protein anabolism. J Nutr.;143(3):307–314.

220

Hamer HM, Wall BT, Kiskini A, De Lange A, Groen BBL, Bakker JA, Gijsen AP, Verdijk LB, Van Loon LJC. (2013). Carbohydrate co-ingestion with protein does not further augment post-prandial muscle protein accretion in older men. Nutr Metab;10(1):15.

221

Cuthbertson D Smith K Babraj J et al. (2005). Anabolic signaling deficits underlie amino acid resistance of wasting, aging muscle. FASEB Journal; 19:422–424.

222

Greenhaff, P. L., Karagounis, L. G., Peirce, N., Simpson, E. J., Hazell, M., Layfield, R., ……& Rennie, M. J. (2008). Disassociation between the effects of amino acids and insulin on signaling, ubiquitin ligases, and protein turnover in human muscle. American Journal of Physiology-Endocrinology and Metabolism, 295(3), E595-E604.

223

Volpi, E., Kobayashi, H., Sheffield-Moore, M., Mittendorfer, B., & Wolfe, R. R. (2003). Essential amino acids are primarily responsible for the amino acid stimulation of muscle protein anabolism in healthy elderly adults. The American Journal of Clinical Nutrition, 78(2), 250–258.

224

Moore, D. R., Churchward-Venne, T. A., Witard, O., Breen, L., Burd, N. A., Tipton, K. D., & Phillips, S. M. (2014). Protein ingestion to stimulate myofibrillar protein synthesis requires greater relative protein intakes in healthy older versus younger men. Journals of Gerontology Series A: Biomedical Sciences and Medical Sciences, 70(1), 57–62.

225

Paddon-Jones, D., Campbell, W. W., Jacques, P. F., Kritchevsky, S. B., Moore, L. L., Rodriguez, N. R., & van Loon, L. J. (2015). Protein and healthy aging. The American Journal of Clinical Nutrition, 101(6), 1339S-1345S.

226

US Food and Nutrition Board’s 2005 textbook. Dietary Reference Intakes for Energy, Carbohydrate, Fiber, Fat, Fatty Acids, Cholesterol, Protein, and Amino Acids. 275–277.

227

Figueiredo, V. C., & Cameron-Smith, D. (2013). Is carbohydrate needed to further stimulate muscle protein synthesis/hypertrophy following resistance exercise? Journal of the International Society of Sports Nutrition, 10(1), 42.

228

Steen, J. (2017, November 6). We Found Out If Carbs Really Make You Look ‘Puffy’ And Retain Water. Retrieved March 7, 2020, from https://www.huffingtonpost.com.au/2017/11/05/do-carbs-make-you-retain-water_a_23265193/#:~: text=%22Carbohydrate%20intake%20can%20lead%20to, in%20 providing%20energy%20between%20meals

229

Morita, N., Iizuka, K., Okita, K., Oikawa, T., Yonezawa, K., Nagai, T., …& Kawaguchi, H. (2004). Exposure to pressure stimulus enhances succinate dehydrogenase activity in L6 myoblasts. American Journal of Physiology-Endocrinology and Metabolism, 287(6), E1064-E1069.

230

Ivy, J. L. (2004). Regulation of muscle glycogen repletion, muscle protein synthesis and repair following exercise. Journal of Sports Science & Medicine, 3(3), 131.

231

Low SY, Rennie MJ, and Taylor PM. (1997). Signaling elements involved in amino acid transport responses to altered muscle cell volume. FA SEB J 11: 1111–1117.

232

Schoenfeld, B. J., & Contreras, B. (2014). The muscle pump: potential mechanisms and applications for enhancing hypertrophic adaptations. Strength & Conditioning Journal, 36(3), 21–25.

233

Kerksick, C. M., Arent, S., Schoenfeld, B. J., Stout, J. R., Campbell, B., Wilborn, C. D., …& Willoughby, D. (2017). International society of sports nutrition position stand: nutrient timing. Journal of the International Society of Sports Nutrition, 14(1), 33.

234

Haff, G. G., Koch, A. J., Potteiger, J. A., Kuphal, K. E., Magee, L. M., Green, S. B., & Jakicic, J. J. (2000). Carbohydrate supplementation attenuates muscle glycogen loss during acute bouts of resistance exercise. International Journal of Sport Nutrition and Exercise Metabolism, 10(3), 326–339.

235

Sheffield-Moore, M., Wiktorowicz, J. E., Soman, K. V., Danesi, C. P., Kinsky, M. P., Dillon, E. L., …& Lynch, J. P. (2013). Sildenafil increases muscle protein synthesis and reduces muscle fatigue. Clinical and Translational Science, 6(6), 463–468.

236

Glynn, E. L., Fry, C. S., Drummond, M. J., Timmerman, K. L., Dhanani, S., Volpi, E., & Rasmussen, B. B. (2010). Excess leucine intake enhances muscle anabolic signaling but not net protein anabolism in young men and women. The Journal of Nutrition, 140(11), 1970–1976.

237

Ivy, J. L. (2004). Regulation of muscle glycogen repletion, muscle protein synthesis and repair following exercise. Journal of Sports Science & Medicine, 3(3), 131.

238

NHANES 2015–2016 Overview. (2018, October 30). Retrieved February 3, 2020, from https://wwwn.cdc.gov/nchs/nhanes/continuousnhanes/overview.aspx? BeginYear=2015

239

Chevan, J. (2008). Demographic determinants of participation in strength training activities among US adults. The Journal of Strength & Conditioning Research, 22(2), 553–558.

240

Kamp, P. (2019, November 13). Body Fat Percentage Distribution for Men and Women in the United States. Retrieved February 3, 2020, from https://dqydj.com/body-fat-percentage-distribution-men-women/

241

W. E. Buckley, C. E. Yesalis, 3rd, K. E. Friedl, W. A. Anderson, A. L. Streit, J. E. Wright. (1988) Estimated prevalence of anabolic steroid use among male high school seniors; 260(23): 3441–3445. Anabolic steroid use by male and female middle school students. Pediatrics. 101(5): E6.

242

Petrella, J. K., Kim, J. S., Mayhew, D. L., Cross, J. M., & Bamman, M. M. (2008). Potent myofiber hypertrophy during resistance training in humans is associated with satellite cell-mediated myonuclear addition: a cluster analysis. Journal of Applied Physiology, 104(6), 1736–1742.

243

244

Carpinelli, R., & Otto, R. (1999). Strength training: Single versus multiple sets. Sports Medicine, 27(6), 409–416.

245

Schoenfeld, B. J., Ratamess, N. A., Peterson, M. D., Contreras, B., & Tiryaki-Sonmez, G. (2015). Influence of resistance training frequency on muscular adaptations in well-trained men. The Journal of Strength & Conditioning Research, 29(7), 1821–1829.

246

247

248

249

Gentil, P., Fisher, J. & Steele, J. A (2017). Review of the Acute Effects and Long-Term Adaptations of Single– and Multi-Joint Exercises during Resistance Training. Sports Med 47, 843–855.

250

Nogueira, W., Gentil, P., Mello, S. N. M., Oliveira, R. J., Bezerra, A. J. C., & Bottaro, M. (2009). Effects of power training on muscle thickness of older men. International journal of Sports Medicine, 30(03), 200–204.

251

Gullett, J. C., Tillman, M. D., Gutierrez, G. M., & Chow, J. W. (2009). A biomechanical comparison of back and front squats in healthy trained individuals. The Journal of Strength & Conditioning Research, 23(1), 284–292.