A combination of oral l-citrulline and l-arginine improved 10-min full-power cycling test performance in male collegiate soccer players: a randomized crossover trial

[1]  Toshio Hayashi,et al.  Administration of L-arginine plus L-citrulline or L-citrulline alone successfully retarded endothelial senescence , 2018, PloS one.

[2]  Toshio Hayashi,et al.  The effects on plasma L-arginine levels of combined oral L-citrulline and L-arginine supplementation in healthy males , 2017, Bioscience, biotechnology, and biochemistry.

[3]  M. Morita,et al.  Oral L-citrulline supplementation enhances cycling time trial performance in healthy trained men: Double-blind randomized placebo-controlled 2-way crossover study , 2016, Journal of the International Society of Sports Nutrition.

[4]  M. Trujillo,et al.  Interplay between oxidant species and energy metabolism , 2015, Redox biology.

[5]  P. Cutrufello,et al.  The effect of l-citrulline and watermelon juice supplementation on anaerobic and aerobic exercise performance , 2015, Journal of sports sciences.

[6]  Andrew M. Jones,et al.  l-Citrulline supplementation improves O2 uptake kinetics and high-intensity exercise performance in humans. , 2015, Journal of applied physiology.

[7]  B. Sitek,et al.  Effects of 1-Methylnicotinamide (MNA) on Exercise Capacity and Endothelial Response in Diabetic Mice , 2015, PloS one.

[8]  Yurii B. Shvetsov,et al.  Common Genetic Variation In Cellular Transport Genes and Epithelial Ovarian Cancer (EOC) Risk , 2015, PloS one.

[9]  L. Spriet,et al.  Beetroot juice supplementation does not improve performance of elite 1500-m runners. , 2014, Medicine and science in sports and exercise.

[10]  M. Kuzuya,et al.  Oral supplementation with a combination of L-citrulline and L-arginine rapidly increases plasma L-arginine concentration and enhances NO bioavailability. , 2014, Biochemical and Biophysical Research Communications - BBRC.

[11]  A. Jones Dietary Nitrate Supplementation and Exercise Performance , 2014, Sports Medicine.

[12]  E. Aguayo,et al.  Watermelon juice: potential functional drink for sore muscle relief in athletes. , 2013, Journal of agricultural and food chemistry.

[13]  K. Fukunaga,et al.  Oral l-Citrulline administration improves memory deficits following transient brain ischemia through cerebrovascular protection , 2013, Brain Research.

[14]  C. Jung,et al.  Arginase as a potential target in the treatment of cardiovascular disease: reversal of arginine steal? , 2013, Cardiovascular research.

[15]  A. Vanhatalo,et al.  Influence of dietary nitrate supplementation on exercise tolerance and performance. , 2013, Nestle Nutrition Institute workshop series.

[16]  L. V. van Loon,et al.  No improvement in endurance performance after a single dose of beetroot juice. , 2012, International journal of sport nutrition and exercise metabolism.

[17]  H. El-Bassossy,et al.  Arginase inhibition alleviates hypertension associated with diabetes: effect on endothelial dependent relaxation and NO production. , 2012, Vascular pharmacology.

[18]  J. Blackwell,et al.  Influence of acute dietary nitrate supplementation on 50 mile time trial performance in well-trained cyclists , 2012, European Journal of Applied Physiology.

[19]  K. Morishita,et al.  Short-term effects of L-citrulline supplementation on arterial stiffness in middle-aged men. , 2012, International journal of cardiology.

[20]  A. Sureda,et al.  The Effect of Nitric-Oxide-Related Supplements on Human Performance , 2012, Sports Medicine.

[21]  L. V. van Loon,et al.  Nitrate supplementation's improvement of 10-km time-trial performance in trained cyclists. , 2012, International journal of sport nutrition and exercise metabolism.

[22]  Jamie R. Blackwell,et al.  Acute dietary nitrate supplementation improves cycling time trial performance. , 2011, Medicine and science in sports and exercise.

[23]  A. Verin,et al.  Angiotensin II-induced vascular endothelial dysfunction through RhoA/Rho kinase/p38 mitogen-activated protein kinase/arginase pathway. , 2011, American journal of physiology. Cell physiology.

[24]  Jonathan Fulford,et al.  Dietary nitrate supplementation reduces the O2 cost of walking and running: a placebo-controlled study. , 2011, Journal of applied physiology.

[25]  K. Sahlin,et al.  Dietary inorganic nitrate improves mitochondrial efficiency in humans. , 2011, Cell metabolism.

[26]  Jonathan Fulford,et al.  Dietary nitrate supplementation enhances muscle contractile efficiency during knee-extensor exercise in humans. , 2010, Journal of applied physiology.

[27]  A. Petróczi,et al.  Potentially fatal new trend in performance enhancement: a cautionary note on nitrite , 2010, Journal of the International Society of Sports Nutrition.

[28]  A. Sureda,et al.  l-Citrulline-malate influence over branched chain amino acid utilization during exercise , 2010, European Journal of Applied Physiology.

[29]  P. Jakeman,et al.  Citrulline Malate Enhances Athletic Anaerobic Performance and Relieves Muscle Soreness , 2010, Journal of strength and conditioning research.

[30]  D. Nieman Dietary nitrate supplementation reduces the O2 cost of low-intensity exercise and enhances tolerance to high-intensity exercise in humans , 2010 .

[31]  Jamie R. Blackwell,et al.  Dietary nitrate supplementation reduces the O2 cost of low-intensity exercise and enhances tolerance to high-intensity exercise in humans. , 2009, Journal of applied physiology.

[32]  W. Derave,et al.  Dietary arginine supplementation speeds pulmonary VO2 kinetics during cycle exercise. , 2009, Medicine and science in sports and exercise.

[33]  M. Heer,et al.  The effect of l‐arginine administration on muscle force and power in postmenopausal women , 2008, Clinical physiology and functional imaging.

[34]  W. Tsai,et al.  Supplements of L-arginine attenuate the effects of high-fat meal on endothelial function and oxidative stress. , 2008, International journal of cardiology.

[35]  A. Papavassiliou,et al.  Short-term treatment with L-arginine prevents the smoking-induced impairment of endothelial function and vascular elastic properties in young individuals. , 2008, International journal of cardiology.

[36]  M. Joyner,et al.  Nitric oxide and muscle blood flow in exercise. , 2008, Applied physiology, nutrition, and metabolism = Physiologie appliquee, nutrition et metabolisme.

[37]  M. Bartoli,et al.  Diabetes-induced Coronary Vascular Dysfunction Involves Increased Arginase Activity , 2008, Circulation research.

[38]  D. Jung,et al.  Pharmacokinetic and pharmacodynamic properties of oral L-citrulline and L-arginine: impact on nitric oxide metabolism. , 2008, British journal of clinical pharmacology.

[39]  S. Bröer,et al.  Amino acid transport across mammalian intestinal and renal epithelia. , 2008, Physiological reviews.

[40]  D. Erbaş,et al.  Effects of different resistance exercise protocols on nitric oxide, lipid peroxidation and creatine kinase activity in sedentary males. , 2007, Journal of sports science & medicine.

[41]  B. Ekblom,et al.  Effects of dietary nitrate on oxygen cost during exercise , 2007, Acta physiologica.

[42]  C. Dejong,et al.  Interorgan amino acid exchange in humans: consequences for arginine and citrulline metabolism. , 2007, The American journal of clinical nutrition.

[43]  C. Rasmussen,et al.  Pharmacokinetics, safety, and effects on exercise performance of L-arginine alpha-ketoglutarate in trained adult men. , 2006, Nutrition.

[44]  Christopher A. Evans,et al.  L-citrulline reduces time to exhaustion and insulin response to a graded exercise test. , 2006, Medicine and science in sports and exercise.

[45]  S. Nassir Ghaemi,et al.  Benefits and limitations of antidepressants and traditional mood stabilizers for treatment of bipolar depression. , 2005, Bipolar disorders.

[46]  C. Moinard,et al.  Almost all about citrulline in mammals , 2005, Amino Acids.

[47]  E. Closs,et al.  Plasma membrane transporters for arginine. , 2004, The Journal of nutrition.

[48]  J. Lundberg,et al.  Inorganic nitrate is a possible source for systemic generation of nitric oxide. , 2004, Free radical biology & medicine.

[49]  Chetwyn C H Chan,et al.  Visual Analogue Scale Correlates of Musculoskeletal Fatigue , 2004, Perceptual and motor skills.

[50]  I. Momken,et al.  Voluntary physical activity alterations in endothelial nitric oxide synthase knockout mice. , 2004, American journal of physiology. Heart and circulatory physiology.

[51]  C. Dejong,et al.  Renal metabolism of amino acids: its role in interorgan amino acid exchange. , 2004, The American journal of clinical nutrition.

[52]  G. Brabant,et al.  Oral L-arginine improves endothelial function in healthy individuals older than 70 years , 2003, Vascular medicine.

[53]  E. Clementi,et al.  Mitochondrial Biogenesis in Mammals: The Role of Endogenous Nitric Oxide , 2003, Science.

[54]  R. Henning,et al.  Protective role of endothelial nitric oxide synthase , 2003, The Journal of pathology.

[55]  L. Franco,et al.  Effect of Acute Exercise on Plasma Nitric Oxide Level in Humans , 2001, Medical Principles and Practice.

[56]  Matzkin,et al.  Effect of oral administration of high‐dose nitric oxide donor l‐arginine in men with organic erectile dysfunction: results of a double‐blind, randomized, placebo‐controlled study , 1999, BJU international.

[57]  Guoyao Wu,et al.  Intestinal mucosal amino acid catabolism. , 1998, The Journal of nutrition.

[58]  Å. Wennmalm,et al.  Both physical fitness and acute exercise regulate nitric oxide formation in healthy humans. , 1997, Journal of applied physiology.

[59]  M. Hori,et al.  Effect of acute dynamic exercise on circulating plasma nitric oxide level and correlation to norepinephrine release in normal subjects. , 1997, The American journal of cardiology.

[60]  M. Caldwell,et al.  Differential regulation of macrophage arginine metabolism: a proposed role in wound healing. , 1997, The American journal of physiology.

[61]  C. Leifert,et al.  Chemical generation of nitric oxide in the mouth from the enterosalivary circulation of dietary nitrate , 1995, Nature Medicine.

[62]  G. Zhao,et al.  Role of nitric oxide in the regulation of oxygen consumption in conscious dogs. , 1994, Circulation research.

[63]  J. F. Burke,et al.  Plasma arginine and citrulline kinetics in adults given adequate and arginine-free diets. , 1993, Proceedings of the National Academy of Sciences of the United States of America.

[64]  S. Tannenbaum,et al.  Splanchnic metabolism of dietary arginine in relation to nitric oxide synthesis in normal adult man. , 1993, Proceedings of the National Academy of Sciences of the United States of America.

[65]  H. Schmidt,et al.  Arginine is a physiological precursor of endothelium-derived nitric oxide. , 1988, European journal of pharmacology.

[66]  M. Miyashita,et al.  PWC75%HRmax: A Measure of Aerobic Work Capacity , 1985, Sports medicine.

[67]  H. G. Windmueller,et al.  Source and fate of circulating citrulline. , 1981, The American journal of physiology.

[68]  C Maxwell,et al.  Sensitivity and accuracy of the visual analogue scale: a psycho-physical classroom experiment. , 1978, British journal of clinical pharmacology.