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European Journal of Nutrition
Published in: European Journal of Nutrition 8/2019

01-12-2019 | Sarcopenia | Review

Supplements with purported effects on muscle mass and strength

Authors: Pedro L. Valenzuela, Javier S. Morales, Enzo Emanuele, Helios Pareja-Galeano, Alejandro Lucia

Published in: European Journal of Nutrition | Issue 8/2019

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Abstract

Purpose

Several supplements are purported to promote muscle hypertrophy and strength gains in healthy subjects, or to prevent muscle wasting in atrophying situations (e.g., ageing or disuse periods). However, their effectiveness remains unclear.

Methods

This review summarizes the available evidence on the beneficial impacts of several popular supplements on muscle mass or strength.

Results

Among the supplements tested, nitrate and caffeine returned sufficient evidence supporting their acute beneficial effects on muscle strength, whereas the long-term consumption of creatine, protein and polyunsaturated fatty acids seems to consistently increase or preserve muscle mass and strength (evidence level A). On the other hand, mixed or unclear evidence was found for several popular supplements including branched-chain amino acids, adenosine triphosphate, citrulline, β-Hydroxy-β-methylbutyrate, minerals, most vitamins, phosphatidic acid or arginine (evidence level B), weak or scarce evidence was found for conjugated linoleic acid, glutamine, resveratrol, tribulus terrestris or ursolic acid (evidence level C), and no evidence was found for other supplements such as ornithine or α-ketoglutarate (evidence D). Of note, although most supplements appear to be safe when consumed at typical doses, some adverse events have been reported for some of them (e.g., caffeine, vitamins, α-ketoglutarate, tribulus terrestris, arginine) after large intakes, and there is insufficient evidence to determine the safety of many frequently used supplements (e.g., ornithine, conjugated linoleic acid, ursolic acid).

Conclusion

 In summary, despite their popularity, there is little evidence supporting the use of most supplements, and some of them have been even proven ineffective or potentially associated with adverse effects.
Literature
1.
2.
3.
4.
5.
Millward DJ, Garlick PJ, Stewart RJ, Nnanyelugo DO, Waterlow JC (1975) Skeletal-muscle growth and protein turnover. Biochem J 150(2):235–243PubMedPubMedCentral
6.
7.
8.
9.
10.
11.
12.
13.
14.
15.
16.
17.
18.
19.
20.
21.
22.
23.
24.
25.
26.
27.
28.
Green JM, Wickwire PJ, McLester JR, Gendle S, Hudson G, Pritchett RC, Laurent CM (2007) Effects of caffeine on repetitions to failure and ratings of perceived exertion during resistance training. Int J Sports Physiol Perform 2(3):250–259PubMed
29.
30.
31.
Maughan RJ, Burke LM, Dvorak J, Larson-Meyer DE, Peeling P, Phillips SM, Rawson ES, Walsh NP, Garthe I, Geyer H, Meeusen R, van Loon LJC, Shirreffs SM, Spriet LL, Stuart M, Vernec A, Currell K, Ali VM, Budgett RG, Ljungqvist A, Mountjoy M, Pitsiladis YP, Soligard T, Erdener U, Engebretsen L (2018) IOC consensus statement: dietary supplements and the high-performance athlete. Br J Sports Med 52(7):439–455. https://​doi.​org/​10.​1136/​bjsports-2018-099027 CrossRefPubMed
32.
33.
34.
Wyss M, Kaddurah-Daouk R (2000) Creatine and creatinine metabolism. Physiol Rev 80(3):1107–1213PubMed
35.
Walker JB (1979) Creatine: biosynthesis, regulation, and function. Adv Enzymol Relat Areas Mol Biol 50:177–242PubMed
36.
Balsom PD, Söderlund K, Ekblom B (1994) Creatine in humans with special reference to creatine supplementation. Sports Med 18(4):268–280PubMed
37.
38.
39.
40.
41.
42.
43.
44.
45.
46.
Johnston AP, Burke DG, MacNeil LG, Candow DG (2009) Effect of creatine supplementation during cast-induced immobilization on the preservation of muscle mass, strength, and endurance. J Strength Cond Res 23(1):116–120PubMed
47.
Hespel P, Op’t Eijnde B, Van Leemputte M, Ursø B, Greenhaff PL, Labarque V, Dymarkowski S, Van Hecke P, Richter EA (2001) Oral creatine supplementation facilitates the rehabilitation of disuse atrophy and alters the expression of muscle myogenic factors in humans. J Physiol 536(Pt 2):625–633PubMedPubMedCentral
48.
Burke DG, Candow DG, Chilibeck PD, MacNeil LG, Roy BD, Tarnopolsky MA, Ziegenfuss T (2008) Effect of creatine supplementation and resistance-exercise training on muscle insulin-like growth factor in young adults. Int J Sport Nutr Exerc Metab 18(4):389–398PubMed
49.
50.
51.
52.
53.
54.
55.
56.
57.
58.
Moon A, Heywood L, Rutherford S, Cobbold C (2013) Creatine supplementation: can it improve quality of life in the elderly without associated resistance training? Curr Aging Sci 6(3):251–257PubMed
59.
60.
Gotshalk LA, Volek JS, Staron RS, Denegar CR, Hagerman FC, Kraemer WJ (2002) Creatine supplementation improves muscular performance in older men. Med Sci Sports Exerc 34(3):537–543PubMed
61.
Pritchard NR, Kalra PA (1998) Renal dysfunction accompanying oral creatine supplements. Lancet 351(9111):1252–1253PubMed
62.
63.
64.
Stamler JS, Meissner G (2001) Physiology of nitric oxide in skeletal muscle. Physiol Rev 81(1):209–237PubMed
65.
66.
67.
68.
69.
70.
71.
72.
73.
74.
75.
76.
77.
78.
79.
Morton RW, Murphy KT, McKellar SR, Schoenfeld BJ, Henselmans M, Helms E, Aragon AA, Devries MC, Banfield L, Krieger JW, Phillips SM (2017) A systematic review, meta-analysis and meta-regression of the effect of protein supplementation on resistance training-induced gains in muscle mass and strength in healthy adults. Br J Sports Med. https://​doi.​org/​10.​1136/​bjsports-2017-097608 CrossRefPubMed
80.
81.
82.
83.
84.
Phillips SM, Moore DR, Tang JE (2007) A critical examination of dietary protein requirements, benefits, and excesses in athletes. Int J Sport Nutr Exerc Metab 17 Suppl:S58-76PubMed
85.
86.
87.
88.
89.
90.
91.
Volek JS, Volk BM, Gómez AL, Kunces LJ, Kupchak BR, Freidenreich DJ, Aristizabal JC, Saenz C, Dunn-Lewis C, Ballard KD, Quann EE, Kawiecki DL, Flanagan SD, Comstock BA, Fragala MS, Earp JE, Fernandez ML, Bruno RS, Ptolemy AS, Kellogg MD, Maresh CM, Kraemer WJ (2013) Whey protein supplementation during resistance training augments lean body mass. J Am Coll Nutr 32(2):122–135. https://​doi.​org/​10.​1080/​07315724.​2013.​793580 CrossRefPubMed
92.
Cribb PJ, Williams AD, Carey MF, Hayes A (2006) The effect of whey isolate and resistance training on strength, body composition, and plasma glutamine. Int J Sport Nutr Exerc Metab 16(5):494–509PubMed
93.
Demling RH, DeSanti L (2000) Effect of a hypocaloric diet, increased protein intake and resistance training on lean mass gains and fat mass loss in overweight police officers. Ann Nutr Metab 44(1):21–29. doi:12817PubMed
94.
Candow DG, Burke NC, Smith-Palmer T, Burke DG (2006) Effect of whey and soy protein supplementation combined with resistance training in young adults. Int J Sport Nutr Exerc Metab 16(3):233–244PubMed
95.
Wilborn CD, Taylor LW, Outlaw J, Williams L, Campbell B, Foster CA, Smith-Ryan A, Urbina S, Hayward S (2013) The effects of pre- and post-exercise whey vs. casein protein consumption on body composition and performance measures in collegiate female athletes. J Sports Sci Med 12(1):74–79PubMedPubMedCentral
96.
Institute-of-Medicine (2005) Dietary reference intakes for energy, carbohydrate, fiber, fat, fatty acids, cholesterol, protein, and amino acids. National Academies Press, Washington
97.
Jäger R, Kerksick CM, Campbell BI, Cribb PJ, Wells SD, Skwiat TM, Purpura M, Ziegenfuss TN, Ferrando AA, Arent SM, Smith-Ryan AE, Stout JR, Arciero PJ, Ormsbee MJ, Taylor LW, Wilborn CD, Kalman DS, Kreider RB, Willoughby DS, Hoffman JR, Krzykowski JL, Antonio J (2017) International society of sports nutrition position stand: protein and exercise. J Int Soc Sports Nutr 14:20. https://​doi.​org/​10.​1186/​s12970-017-0177-8 CrossRefPubMedPubMedCentral
98.
99.
100.
101.
102.
103.
104.
105.
Smith GI, Atherton P, Reeds DN, Mohammed BS, Rankin D, Rennie MJ, Mittendorfer B (2011) Omega-3 polyunsaturated fatty acids augment the muscle protein anabolic response to hyperinsulinaemia-hyperaminoacidaemia in healthy young and middle-aged men and women. Clin Sci (Lond) 121(6):267–278. https://​doi.​org/​10.​1042/​CS20100597 CrossRef
106.
107.
108.
109.
110.
111.
Visser M, Pahor M, Taaffe DR, Goodpaster BH, Simonsick EM, Newman AB, Nevitt M, Harris TB (2002) Relationship of interleukin-6 and tumor necrosis factor-alpha with muscle mass and muscle strength in elderly men and women: the Health ABC Study. J Gerontol A Biol Sci Med Sci 57(5):M326–M332PubMed
112.
Kris-Etherton PM, Harris WS, Appel LJ, Committee AHAN (2002) Fish consumption, fish oil, omega-3 fatty acids, and cardiovascular disease. Circulation 106(21):2747–2757PubMed
113.
From the Joint FAO/WHO Expert Consultation on Fats and Fatty Acids in Human Nutrition (2008) Interim summary of conclusions and dietary recommendations on total fat and fatty acids. Joint FAO/WHO Expert Consultation on Fats and Fatty Acids in Human Nutrition, Geneva
114.
115.
116.
117.
118.
119.
120.
121.
Shimomura Y, Murakami T, Nakai N, Nagasaki M, Harris RA (2004) Exercise promotes BCAA catabolism: effects of BCAA supplementation on skeletal muscle during exercise. J Nutr 134(6 Suppl):1583S–1587SPubMed
122.
123.
124.
Kobayashi H, Kato H, Hirabayashi Y, Murakami H, Suzuki H (2006) Modulations of muscle protein metabolism by branched-chain amino acids in normal and muscle-atrophying rats. J Nutr 136(1 Suppl):234S–236SPubMed
125.
126.
127.
128.
129.
130.
131.
Bratusch-Marrain P, Waldhäusl W (1979) The influence of amino acids and somatostatin on prolactin and growth hormone release in man. Acta Endocrinol (Copenh) 90(3):403–408
132.
133.
134.
Devries MC, McGlory C, Bolster DR, Kamil A, Rahn M, Harkness L, Baker SK, Phillips SM (2018) Protein leucine content is a determinant of shorter- and longer-term muscle protein synthetic responses at rest and following resistance exercise in healthy older women: a randomized, controlled trial. Am J Clin Nutr 107(2):217–226. https://​doi.​org/​10.​1093/​ajcn/​nqx028 CrossRefPubMed
135.
136.
137.
138.
Ispoglou T, King RF, Polman RC, Zanker C (2011) Daily l-leucine supplementation in novice trainees during a 12-week weight training program. Int J Sports Physiol Perform 6(1):38–50PubMed
139.
140.
141.
142.
143.
144.
145.
146.
147.
Jordan AN, Jurca R, Abraham EH, Salikhova A, Mann JK, Morss GM, Church TS, Lucia A, Earnest CP (2004) Effects of oral ATP supplementation on anaerobic power and muscular strength. Med Sci Sports Exerc 36(6):983–990PubMed
148.
149.
150.
151.
Wilson JM, Joy JM, Lowery RP, Roberts MD, Lockwood CM, Manninen AH, Fuller JC, De Souza EO, Baier SM, Wilson SM, Rathmacher JA (2013) Effects of oral adenosine-5′-triphosphate supplementation on athletic performance, skeletal muscle hypertrophy and recovery in resistance-trained men. Nutr Metab (Lond) 10(1):57. https://​doi.​org/​10.​1186/​1743-7075-10-57 CrossRef
152.
153.
154.
155.
156.
157.
158.
159.
160.
161.
Bouillanne O, Melchior JC, Faure C, Paul M, Canouï-Poitrine F, Boirie Y, Chevenne D, Forasassi C, Guery E, Herbaud S, Le Corvoisier P, Neveux N, Nivet-Antoine V, Astier A, Raynaud-Simon A, Walrand S, Cynober L, Aussel C (2018) Impact of 3-week citrulline supplementation on postprandial protein metabolism in malnourished older patients: the Ciproage randomized controlled trial. Clin Nutr. https://​doi.​org/​10.​1016/​j.​clnu.​2018.​02.​017 CrossRefPubMed
162.
163.
164.
165.
166.
167.
168.
169.
Hwang P, Morales Marroquín FE, Gann J, Andre T, McKinley-Barnard S, Kim C, Morita M, Willoughby DS (2018) Eight weeks of resistance training in conjunction with glutathione and l-Citrulline supplementation increases lean mass and has no adverse effects on blood clinical safety markers in resistance-trained males. J Int Soc Sports Nutr 15(1):30. https://​doi.​org/​10.​1186/​s12970-018-0235-x CrossRefPubMedPubMedCentral
170.
171.
Van Koevering M, Nissen S (1992) Oxidation of leucine and alpha-ketoisocaproate to beta-hydroxy-beta-methylbutyrate in vivo. Am J Physiol 262(1 Pt 1):E27–E31PubMed
172.
173.
174.
Vukovich MD, Stubbs NB, Bohlken RM (2001) Body composition in 70-year-old adults responds to dietary beta-hydroxy-beta-methylbutyrate similarly to that of young adults. J Nutr 131(7):2049–2052PubMed
175.
176.
177.
178.
179.
Portal S, Zadik Z, Rabinowitz J, Pilz-Burstein R, Adler-Portal D, Meckel Y, Cooper DM, Eliakim A, Nemet D (2011) The effect of HMB supplementation on body composition, fitness, hormonal and inflammatory mediators in elite adolescent volleyball players: a prospective randomized, double-blind, placebo-controlled study. Eur J Appl Physiol 111(9):2261–2269. https://​doi.​org/​10.​1007/​s00421-011-1855-x CrossRefPubMed
180.
181.
182.
183.
Lukaski HC (2000) Magnesium, zinc, and chromium nutriture and physical activity. Am J Clin Nutr 72(2 Suppl):585S–593SPubMed
184.
Ford ES, Mokdad AH (2003) Dietary magnesium intake in a national sample of US adults. J Nutr 133(9):2879–2882PubMed
185.
186.
187.
Olza J, Aranceta-Bartrina J, González-Gross M, Ortega RM, Serra-Majem L, Varela-Moreiras G, Gil Á (2017) Reported dietary intake, disparity between the reported consumption and the level needed for adequacy and food sources of calcium, phosphorus, magnesium and vitamin d in the spanish population: findings from the ANIBES study. Nutrients 9 (2). https://​doi.​org/​10.​3390/​nu9020168 PubMedCentral
188.
189.
van Dronkelaar C, van Velzen A, Abdelrazek M, van der Steen A, Weijs PJM, Tieland M (2018) Minerals and sarcopenia; the role of calcium, iron, magnesium, phosphorus, potassium, selenium, sodium, and zinc on muscle mass, muscle strength, and physical performance in older adults: a systematic review. J Am Med Dir Assoc 19(1):6–11.e13. https://​doi.​org/​10.​1016/​j.​jamda.​2017.​05.​026 CrossRefPubMed
190.
191.
192.
193.
Dominguez LJ, Barbagallo M, Lauretani F, Bandinelli S, Bos A, Corsi AM, Simonsick EM, Ferrucci L (2006) Magnesium and muscle performance in older persons: the InCHIANTI study. Am J Clin Nutr 84(2):419–426PubMed
194.
195.
Lukaski HC, Nielsen FH (2002) Dietary magnesium depletion affects metabolic responses during submaximal exercise in postmenopausal women. J Nutr 132(5):930–935PubMed
196.
197.
Brilla LR, Haley TF (1992) Effect of magnesium supplementation on strength training in humans. J Am Coll Nutr 11(3):326–329PubMed
198.
199.
Newhouse IJ, Finstad EW (2000) The effects of magnesium supplementation on exercise performance. Clin J Sport Med 10(3):195–200PubMed
200.
201.
202.
Vallee BL, Falchuk KH (1993) The biochemical basis of zinc physiology. Physiol Rev 73(1):79–118PubMed
203.
Prasad AS, Mantzoros CS, Beck FW, Hess JW, Brewer GJ (1996) Zinc status and serum testosterone levels of healthy adults. Nutrition 12(5):344–348PubMed
204.
205.
Van Loan MD, Sutherland B, Lowe NM, Turnlund JR, King JC (1999) The effects of zinc depletion on peak force and total work of knee and shoulder extensor and flexor muscles. Int J Sport Nutr 9(2):125–135PubMed
206.
207.
Ghavami-Maibodi SZ, Collipp PJ, Castro-Magana M, Stewart C, Chen SY (1983) Effect of oral zinc supplements on growth, hormonal levels, and zinc in healthy short children. Ann Nutr Metab 27(3):214–219PubMed
208.
Neek LS, Gaeini AA, Choobineh S (2011) Effect of zinc and selenium supplementation on serum testosterone and plasma lactate in cyclist after an exhaustive exercise bout. Biol Trace Elem Res 144(1–3):454–462
209.
210.
Vincent JB (1999) Mechanisms of chromium action: low-molecular-weight chromium-binding substance. J Am Coll Nutr 18(1):6–12PubMed
211.
Hasten DL, Rome EP, Franks BD, Hegsted M (1992) Effects of chromium picolinate on beginning weight training students. Int J Sport Nutr 2(4):343–350PubMed
212.
Lukaski HC, Bolonchuk WW, Siders WA, Milne DB (1996) Chromium supplementation and resistance training: effects on body composition, strength, and trace element status of men. Am J Clin Nutr 63(6):954–965PubMed
213.
Volpe SL, Huang HW, Larpadisorn K, Lesser II (2001) Effect of chromium supplementation and exercise on body composition, resting metabolic rate and selected biochemical parameters in moderately obese women following an exercise program. J Am Coll Nutr 20(4):293–306PubMed
214.
Clancy SP, Clarkson PM, DeCheke ME, Nosaka K, Freedson PS, Cunningham JJ, Valentine B (1994) Effects of chromium picolinate supplementation on body composition, strength, and urinary chromium loss in football players. Int J Sport Nutr 4(2):142–153PubMed
215.
Campbell WW, Joseph LJ, Davey SL, Cyr-Campbell D, Anderson RA, Evans WJ (1999) Effects of resistance training and chromium picolinate on body composition and skeletal muscle in older men. J Appl Physiol 86(1):29–39PubMed
216.
217.
218.
219.
220.
221.
222.
223.
Buta B, Choudhury PP, Xue QL, Chaves P, Bandeen-Roche K, Shardell M, Semba RD, Walston J, Michos ED, Appel LJ, McAdams-DeMarco M, Gross A, Yasar S, Ferrucci L, Fried LP, Kalyani RR (2016) The association of vitamin D deficiency and incident frailty in older women: the role of cardiometabolic diseases. J Am Geriatr Soc. https://​doi.​org/​10.​1111/​jgs.​14677 CrossRefPubMedPubMedCentral
224.
Fuller JC, Baier S, Flakoll P, Nissen SL, Abumrad NN, Rathmacher JA (2011) Vitamin D status affects strength gains in older adults supplemented with a combination of β-hydroxy-β-methylbutyrate, arginine, and lysine: a cohort study. J Parenter Enteral Nutr 35(6):757–762. https://​doi.​org/​10.​1177/​0148607111413903​ CrossRef
225.
226.
227.
Farrokhyar F, Sivakumar G, Savage K, Koziarz A, Jamshidi S, Ayeni OR, Peterson D, Bhandari M (2017) Effects of Vitamin D supplementation on serum 25-hydroxyvitamin D concentrations and physical performance in athletes: a systematic review and meta-analysis of randomized controlled trials. Sports Med. https://​doi.​org/​10.​1007/​s40279-017-0749-4 CrossRefPubMed
228.
229.
230.
Beaudart C, Buckinx F, Rabenda V, Gillain S, Cavalier E, Slomian J, Petermans J, Reginster JY, Bruyère O (2014) The effects of vitamin D on skeletal muscle strength, muscle mass, and muscle power: a systematic review and meta-analysis of randomized controlled trials. J Clin Endocrinol Metab 99(11):4336–4345. https://​doi.​org/​10.​1210/​jc.​2014-1742 CrossRefPubMed
231.
Agergaard J, Trøstrup J, Uth J, Iversen JV, Boesen A, Andersen JL, Schjerling P, Langberg H (2015) Does vitamin-D intake during resistance training improve the skeletal muscle hypertrophic and strength response in young and elderly men?—a randomized controlled trial. Nutr Metab (Lond) 12:32. https://​doi.​org/​10.​1186/​s12986-015-0029-y CrossRef
232.
233.
234.
235.
Bjørnsen T, Salvesen S, Berntsen S, Hetlelid KJ, Stea TH, Lohne-Seiler H, Rohde G, Haraldstad K, Raastad T, Køpp U, Haugeberg G, Mansoor MA, Bastani NE, Blomhoff R, Stølevik SB, Seynnes OR, Paulsen G (2016) Vitamin C and E supplementation blunts increases in total lean body mass in elderly men after strength training. Scand J Med Sci Sports 26(7):755–763. https://​doi.​org/​10.​1111/​sms.​12506 CrossRefPubMed
236.
Stunes AK, Syversen U, Berntsen S, Paulsen G, Stea TH, Hetlelid KJ, Lohne-Seiler H, Mosti MP, Bjørnsen T, Raastad T, Haugeberg G (2017) High doses of vitamin C plus E reduce strength training-induced improvements in areal bone mineral density in elderly men. Eur J Appl Physiol 117(6):1073–1084. https://​doi.​org/​10.​1007/​s00421-017-3588-y CrossRefPubMed
237.
Bobeuf F, Labonte M, Dionne IJ, Khalil A (2011) Combined effect of antioxidant supplementation and resistance training on oxidative stress markers, muscle and body composition in an elderly population. J Nutr Health Aging 15(10):883–889PubMed
238.
239.
Minisola S, Cianferotti L, Biondi P, Cipriani C, Fossi C, Franceschelli F, Giusti F, Leoncini G, Pepe J, Bischoff-Ferrari HA, Brandi ML (2017) Correction of vitamin D status by calcidiol: pharmacokinetic profile, safety, and biochemical effects on bone and mineral metabolism of daily and weekly dosage regimens. Osteoporos Int 28 (11):3239–3249. https://​doi.​org/​10.​1007/​s00198-017-4180-3 CrossRefPubMed
240.
241.
242.
243.
244.
245.
246.
247.
248.
Andre TL, Gann JJ, McKinley-Barnard SK, Song JJ, Willoughby DS (2016) eight weeks of phosphatidic acid supplementation in conjunction with resistance training does not differentially affect body composition and muscle strength in resistance-trained men. J Sports Sci Med 15(3):532–539PubMedPubMedCentral
249.
250.
Castillo L, Ajami A, Branch S, Chapman TE, Yu YM, Burke JF, Young VR (1994) Plasma arginine kinetics in adult man: response to an arginine-free diet. Metabolism 43(1):114–122PubMed
251.
Wideman L, Weltman JY, Patrie JT, Bowers CY, Shah N, Story S, Weltman A, Veldhuis JD (2000) Synergy of L-arginine and growth hormone (GH)-releasing peptide-2 on GH release: influence of gender. Am J Physiol Regul Integr Comp Physiol 279(4):R1455–R1466PubMed
252.
Wideman L, Weltman JY, Patrie JT, Bowers CY, Shah N, Story S, Veldhuis JD, Weltman A (2000) Synergy of l-arginine and GHRP-2 stimulation of growth hormone in men and women: modulation by exercise. Am J Physiol Regul Integr Comp Physiol 279(4):R1467–R1477PubMed
253.
Chromiak JA, Antonio J (2002) Use of amino acids as growth hormone-releasing agents by athletes. Nutrition 18(7–8):657–661PubMed
254.
255.
256.
Walberg-Rankin J, Hawkins CE, Fild DS, Sebolt DR (1994) The effect of oral arginine during energy restriction in male weight trainers. J Strength Cond Res 8(3):170–177
257.
258.
259.
Angeli G, Barros TLD, Barros DFLD, Lima M (2007) Investigation of the effects of oral supplementation of arginine in the increase of muscular strength and mass. Revista Brasileira de Medicina do Esporte 13(2):129–132
260.
261.
262.
Valayannopoulos V, Boddaert N, Chabli A, Barbier V, Desguerre I, Philippe A, Afenjar A, Mazzuca M, Cheillan D, Munnich A, de Keyzer Y, Jakobs C, Salomons GS, de Lonlay P (2012) Treatment by oral creatine, l-arginine and l-glycine in six severely affected patients with creatine transporter defect. J Inherit Metab Dis 35(1):151–157. https://​doi.​org/​10.​1007/​s10545-011-9358-9 CrossRefPubMed
263.
264.
265.
266.
Pariza MW, Park Y, Cook ME (2001) The biologically active isomers of conjugated linoleic acid. Prog Lipid Res 40(4):283–298PubMed
267.
268.
269.
Kreider RB, Ferreira MP, Greenwood M, Wilson M, Almada AL (2002) Effects of conjugated linoleic acid supplementation during resistance training on body composition, bone density, strength, and selected hematological markers. J Strength Cond Res 16(3):325–334PubMed
270.
271.
Curi R, Newsholme P, Procopio J, Lagranha C, Gorjão R, Pithon-Curi TC (2007) Glutamine, gene expression, and cell function. Front Biosci 12:344–357PubMed
272.
273.
Wernerman J (2008) Clinical use of glutamine supplementation. J Nutr 138 (10): 2040S–2044SPubMed
274.
275.
Hammarqvist F, Wernerman J, Ali R, von der Decken A, Vinnars E (1989) Addition of glutamine to total parenteral nutrition after elective abdominal surgery spares free glutamine in muscle, counteracts the fall in muscle protein synthesis, and improves nitrogen balance. Ann Surg 209(4):455–461PubMedPubMedCentral
276.
Stehle P, Zander J, Mertes N, Albers S, Puchstein C, Lawin P, Fürst P (1989) Effect of parenteral glutamine peptide supplements on muscle glutamine loss and nitrogen balance after major surgery. Lancet 1(8632):231–233PubMed
277.
Mok E, Eléouet-Da Violante C, Daubrosse C, Gottrand F, Rigal O, Fontan JE, Cuisset JM, Guilhot J, Hankard R (2006) Oral glutamine and amino acid supplementation inhibit whole-body protein degradation in children with Duchenne muscular dystrophy. Am J Clin Nutr 83(4):823–828PubMed
278.
Antonio J, Sanders MS, Kalman D, Woodgate D, Street C (2002) The effects of high-dose glutamine ingestion on weightlifting performance. J Strength Cond Res 16(1):157–160PubMed
279.
280.
281.
282.
Gleeson M (2008) Dosing and efficacy of glutamine supplementation in human exercise and sport training. J Nutr 138(10):2045S–2049SPubMed
283.
284.
Mattison JA, Wang M, Bernier M, Zhang J, Park SS, Maudsley S, An SS, Santhanam L, Martin B, Faulkner S, Morrell C, Baur JA, Peshkin L, Sosnowska D, Csiszar A, Herbert RL, Tilmont EM, Ungvari Z, Pearson KJ, Lakatta EG, de Cabo R (2014) Resveratrol prevents high fat/sucrose diet-induced central arterial wall inflammation and stiffening in nonhuman primates. Cell Metab 20(1):183–190. https://​doi.​org/​10.​1016/​j.​cmet.​2014.​04.​018 CrossRefPubMedPubMedCentral
285.
286.
287.
288.
289.
290.
291.
292.
293.
294.
295.
296.
Church DD, Schwarz NA, Spillane MB, McKinley-Barnard SK, Andre TL, Ramirez AJ, Willoughby DS (2016) l-Leucine increases skeletal muscle IGF-1 but does not differentially increase Akt/mTORC1 signaling and serum IGF-1 compared to ursolic acid in response to resistance exercise in resistance-trained men. J Am Coll Nutr 35(7):627–638. https://​doi.​org/​10.​1080/​07315724.​2015.​1132019 CrossRefPubMed
297.
298.
299.
300.
Ma Y, Guo Z, Wang X (2015) Tribulus terrestris extracts alleviate muscle damage and promote anaerobic performance of trained male boxers and its mechanisms: roles of androgen, IGF-1, and IGF binding protein-3. J Sport Health Sci 12:1–8
301.
Rogerson S, Riches CJ, Jennings C, Weatherby RP, Meir RA, Marshall-Gradisnik SM (2007) The effect of five weeks of Tribulus terrestris supplementation on muscle strength and body composition during preseason training in elite rugby league players. J Strength Cond Res 21(2):348–353. https://​doi.​org/​10.​1519/​R-18395.​1 CrossRefPubMed
302.
Antonio J, Uelmen J, Rodriguez R, Earnest C (2000) The effects of Tribulus terrestris on body composition and exercise performance in resistance-trained males. Int J Sport Nutr Exerc Metab 10(2):208–215PubMed
303.
304.
305.
306.
307.
Riedel E, Nündel M, Hampl H (1996) Alpha-Ketoglutarate application in hemodialysis patients improves amino acid metabolism. Nephron 74(2):261–265PubMed
308.
Wirén M, Permert J, Larsson J (2002) Alpha-ketoglutarate-supplemented enteral nutrition: effects on postoperative nitrogen balance and muscle catabolism. Nutrition 18(9):725–728PubMed
309.
Cynober L (2004) Ornithine alpha-ketoglutarate as a potent precursor of arginine and nitric oxide: a new job for an old friend. J Nutr 134 (10 Suppl):2858S–2862S. (discussion 2895S)PubMed
310.
Le Bricon T, Coudray-Lucas C, Lioret N, Lim SK, Plassart F, Schlegel L, De Bandt JP, Saizy R, Giboudeau J, Cynober L (1997) Ornithine alpha-ketoglutarate metabolism after enteral administration in burn patients: bolus compared with continuous infusion. Am J Clin Nutr 65(2):512–518PubMed
311.
312.
313.
314.
315.
Tujioka K, Yamada T, Aoki M, Morishita K, Hayase K, Yokogoshi H (2012) Dietary ornithine affects the tissue protein synthesis rate in young rats. J Nutr Sci Vitaminol (Tokyo) 58(4):297–302
316.
Evain-Brion D, Donnadieu M, Roger M, Job JC (1982) Simultaneous study of somatotrophic and corticotrophic pituitary secretions during ornithine infusion test. Clin Endocrinol (Oxf) 17(2):119–122
317.
Demura S, Yamada T, Yamaji S, Komatsu M, Morishita K (2010) The effect of l-ornithine hydrochloride ingestion on human growth hormone secretion after strength training. Adv Biosci Biotechnol 1:7–11
318.
Bucci L, Hickson JF, Pivarnik JM, Wolinsky I, McMahon JC, Turner SD (1990) Ornithine ingestion and growth hormone release in bodybuilders. Nutr Res 10(3):239–245
319.
320.
321.
322.
323.
Kantartzis K, Fritsche L, Bombrich M, Machann J, Schick F, Staiger H, Kunz I, Schoop R, Lehn-Stefan A, Heni M, Peter A, Fritsche A, Häring HU, Stefan N (2018) Effects of resveratrol supplementation on liver fat content in overweight and insulin-resistant subjects: a randomized, double-blind, placebo-controlled clinical trial. Diabetes Obes Metab. https://​doi.​org/​10.​1111/​dom.​13268 CrossRefPubMed
324.
Metadata
Title
Supplements with purported effects on muscle mass and strength
Authors
Pedro L. Valenzuela
Javier S. Morales
Enzo Emanuele
Helios Pareja-Galeano
Alejandro Lucia
Publication date
01-12-2019
Publisher
Springer Berlin Heidelberg
Keyword
Sarcopenia
Published in
European Journal of Nutrition / Issue 8/2019
Print ISSN: 1436-6207
Electronic ISSN: 1436-6215
DOI
https://doi.org/10.1007/s00394-018-1882-z

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