User menu

Nitrate Intake Promotes Shift in Muscle Fiber Type Composition during Sprint Interval Training in Hypoxia.

Bibliographic reference De Smet, Stefan ; Van Thienen, Ruud ; Deldicque, Louise ; James, Ruth ; Sale, Craig ; et. al. Nitrate Intake Promotes Shift in Muscle Fiber Type Composition during Sprint Interval Training in Hypoxia.. In: Frontiers in Physiology, Vol. 7, no. 7, p. 233 (2016)
Permanent URL http://hdl.handle.net/2078.1/175538
  1. Allemeier, J. Appl. Physiol., 77, 2385 (1994)
  2. Álvares Thiago Silveira, Conte Carlos Adam, Paschoalin Vânia Margaret Flosi, Silva Joab Trajano, Meirelles Cláudia de Mello, Bhambhani Yagesh N., Gomes Paulo Sergio Chagas, Acute l-arginine supplementation increases muscle blood volume but not strength performance, 10.1139/h11-144
  3. Baguet Audrey, Everaert Inge, De Naeyer Hélène, Reyngoudt Harmen, Stegen Sanne, Beeckman Sam, Achten Eric, Vanhee Lander, Volkaert Anneke, Petrovic Mirko, Taes Youri, Derave Wim, Effects of sprint training combined with vegetarian or mixed diet on muscle carnosine content and buffering capacity, 10.1007/s00421-011-1877-4
  4. Bailey S. J., Fulford J., Vanhatalo A., Winyard P. G., Blackwell J. R., DiMenna F. J., Wilkerson D. P., Benjamin N., Jones A. M., Dietary nitrate supplementation enhances muscle contractile efficiency during knee-extensor exercise in humans, 10.1152/japplphysiol.00046.2010
  5. Bailey Stephen J., Varnham Richard L., DiMenna Fred J., Breese Brynmor C., Wylie Lee J., Jones Andrew M., Inorganic nitrate supplementation improves muscle oxygenation, O2uptake kinetics, and exercise tolerance at high but not low pedal rates, 10.1152/japplphysiol.01141.2014
  6. Bakkman L., Sahlin K., Holmberg H.-C., Tonkonogi M., Quantitative and qualitative adaptation of human skeletal muscle mitochondria to hypoxic compared with normoxic training at the same relative work rate, 10.1111/j.1748-1716.2007.01683.x
  7. Bishop D., Edge J., Thomas C., Mercier J., Effects of high-intensity training on muscle lactate transporters and postexercise recovery of muscle lactate and hydrogen ions in women, 10.1152/ajpregu.00863.2007
  8. Bogdanis, J. Appl. Physiol., 80, 876 (1996)
  9. Breese B. C., McNarry M. A., Marwood S., Blackwell J. R., Bailey S. J., Jones A. M., Beetroot juice supplementation speeds O2 uptake kinetics and improves exercise tolerance during severe-intensity exercise initiated from an elevated metabolic rate, 10.1152/ajpregu.00295.2013
  10. Calbet J. A. L., De Paz J. A., Garatachea N., Cabeza de Vaca S., Chavarren J., Anaerobic energy provision does not limit Wingate exercise performance in endurance-trained cyclists, 10.1152/japplphysiol.00128.2002
  11. Clark S. A., Effects of live high, train low hypoxic exposure on lactate metabolism in trained humans, 10.1152/japplphysiol.00799.2003
  12. Coggan Andrew R., Leibowitz Joshua L., Kadkhodayan Ana, Thomas Deepak P., Ramamurthy Sujata, Spearie Catherine Anderson, Waller Suzanne, Farmer Marsha, Peterson Linda R., Effect of acute dietary nitrate intake on maximal knee extensor speed and power in healthy men and women, 10.1016/j.niox.2014.08.014
  13. Desplanches Dominique, Amami Myriam, Dupré-Aucouturier Sylvie, Valdivieso Paola, Schmutz Silvia, Mueller Matthias, Hoppeler Hans, Kreis Roland, Flück Martin, Hypoxia refines plasticity of mitochondrial respiration to repeated muscle work, 10.1007/s00421-013-2783-8
  14. Edge J., Effects of chronic NaHCO3 ingestion during interval training on changes to muscle buffer capacity, metabolism, and short-term endurance performance, 10.1152/japplphysiol.01534.2005
  15. Edge Johann, Bishop David, Goodman Carmel, The effects of training intensity on muscle buffer capacity in females, 10.1007/s00421-005-0068-6
  16. Faiss Raphaël, Girard Olivier, Millet Grégoire P, Advancing hypoxic training in team sports: from intermittent hypoxic training to repeated sprint training in hypoxia: Table 1, 10.1136/bjsports-2013-092741
  17. Faiss Raphael, Léger Bertrand, Vesin Jean-Marc, Fournier Pierre-Etienne, Eggel Yan, Dériaz Olivier, Millet Grégoire P., Significant Molecular and Systemic Adaptations after Repeated Sprint Training in Hypoxia, 10.1371/journal.pone.0056522
  18. FAISS RAPHAEL, WILLIS SARAH, BORN DENNIS-PETER, SPERLICH BILLY, VESIN JEAN-MARC, HOLMBERG HANS-CHRISTER, MILLET GRÉGOIRE P., Repeated Double-Poling Sprint Training in Hypoxia by Competitive Cross-country Skiers : , 10.1249/mss.0000000000000464
  19. Ferguson Scott K., Hirai Daniel M., Copp Steven W., Holdsworth Clark T., Allen Jason D., Jones Andrew M., Musch Timothy I., Poole David C., Impact of dietary nitrate supplementation via beetroot juice on exercising muscle vascular control in rats : Beetroot juice and exercising muscle blood flow, 10.1113/jphysiol.2012.243121
  20. Friedmann Birgit, Frese Falko, Menold Elmar, Bärtsch Peter, Effects of acute moderate hypoxia on anaerobic capacity in endurance-trained runners, 10.1007/s00421-007-0473-0
  21. Galvin Harvey M, Cooke Karl, Sumners David P, Mileva Katya N, Bowtell Joanna L, Repeated sprint training in normobaric hypoxia, 10.1136/bjsports-2013-092826
  22. Geiser J., Vogt M., Billeter R., Zuleger C., Belforti F., Hoppeler H., Training High - Living Low: Changes of Aerobic Performance and Muscle Structure with Training at Simulated Altitude, 10.1055/s-2001-18521
  23. Gore C. J., Hahn A. G., Aughey R. J., Martin D. T., Ashenden M. J., Clark S. A., Garnham A. P., Roberts A. D., Slater G. J., Mckenna M. J., Live high:train low increases muscle buffer capacity and submaximal cycling efficiency, 10.1046/j.1365-201x.2001.00906.x
  24. Green, J. Appl. Physiol., 86, 1745 (1999)
  25. Harmer, J. Appl. Physiol., 89, 1793 (2000)
  26. Harris R.C, Marlin D.J, Dunnett M, Snow D.H, Hultman E, Muscle buffering capacity and dipeptide content in the Thoroughbred horse, Greyhound dog and man, 10.1016/0300-9629(90)90180-z
  27. Haseler, J. Appl. Physiol., 86, 2013 (1999)
  28. Hernández Andrés, Schiffer Tomas A., Ivarsson Niklas, Cheng Arthur J., Bruton Joseph D., Lundberg Jon O., Weitzberg Eddie, Westerblad Håkan, Dietary nitrate increases tetanic [Ca2+]iand contractile force in mouse fast-twitch muscle : Dietary nitrate and contractile function, 10.1113/jphysiol.2012.232777
  29. Hill C. A., Harris R. C., Kim H. J., Harris B. D., Sale C., Boobis L. H., Kim C. K., Wise J. A., Influence of β-alanine supplementation on skeletal muscle carnosine concentrations and high intensity cycling capacity, 10.1007/s00726-006-0364-4
  30. Holliss B. A., Fulford J., Vanhatalo A., Pedlar C. R., Jones A. M., Influence of intermittent hypoxic training on muscle energetics and exercise tolerance, 10.1152/japplphysiol.01331.2012
  31. Hoppeler H., Klossner S., Vogt M., Training in hypoxia and its effects on skeletal muscle tissue : Physiological and molecular mechanism of hypoxia, 10.1111/j.1600-0838.2008.00831.x
  32. Kelly J., Vanhatalo A., Bailey S. J., Wylie L. J., Tucker C., List S., Winyard P. G., Jones A. M., Dietary nitrate supplementation: effects on plasma nitrite and pulmonary O2 uptake dynamics during exercise in hypoxia and normoxia, 10.1152/ajpregu.00068.2014
  33. Kendrick Iain P., Kim Hyo Jeong, Harris Roger Charles, Kim Chang Keun, Dang Viet H., Lam Thanh Q., Bui Toai T., Wise John A., The effect of 4 weeks β-alanine supplementation and isokinetic training on carnosine concentrations in type I and II human skeletal muscle fibres, 10.1007/s00421-009-0998-5
  34. Larsen Filip J., Schiffer Tomas A., Borniquel Sara, Sahlin Kent, Ekblom Björn, Lundberg Jon O., Weitzberg Eddie, Dietary Inorganic Nitrate Improves Mitochondrial Efficiency in Humans, 10.1016/j.cmet.2011.01.004
  35. Lundberg Jon O., Weitzberg Eddie, Gladwin Mark T., The nitrate–nitrite–nitric oxide pathway in physiology and therapeutics, 10.1038/nrd2466
  36. Mannion A. F., Jakeman P. M., Dunnett M., Harris R. C., Willan P. L. T., Carnosine and anserine concentrations in the quadriceps femoris muscle of healthy humans, 10.1007/bf00376439
  37. Mannion A. F., Jakeman P. M., Willan P. L. T., Effects of isokinetic training of the knee extensors on high-intensity exercise performance and skeletal muscle buffering, 10.1007/bf00571457
  38. Martins Karen J. B., St-Louis Mathieu, Murdoch Gordon K., MacLean Ian M., McDonald Pamela, Dixon Walter T., Putman Charles T., Michel Robin N., Nitric oxide synthase inhibition prevents activity-induced calcineurin-NFATc1 signalling and fast-to-slow skeletal muscle fibre type conversions : NO involvement in skeletal muscle fibre type transformations, 10.1113/jphysiol.2011.223370
  39. Masschelein E., Van Thienen R., Wang X., Van Schepdael A., Thomis M., Hespel P., Dietary nitrate improves muscle but not cerebral oxygenation status during exercise in hypoxia, 10.1152/japplphysiol.01253.2011
  40. McGinnis Graham, Kliszczewiscz Brian, Barberio Matthew, Ballmann Christopher, Peters Bridget, Slivka Dustin, Dumke Charles, Cuddy John, Hailes Walter, Ruby Brent, Quindry John, Acute Hypoxia and Exercise-Induced Blood Oxidative Stress, 10.1123/ijsnem.2013-0188
  41. McLean Blake D., Gore Christopher J., Kemp Justin, Application of ‘Live Low-Train High’ for Enhancing Normoxic Exercise Performance in Team Sport Athletes, 10.1007/s40279-014-0204-8
  42. MELISSA LORI, MacDOUGALL J. DUNCAN, TARNOPOLSKY MARK A., CIPRIANO NICK, GREEN HOWARD J., Skeletal muscle adaptations to training under normobaric hypoxic versus normoxic conditions : , 10.1097/00005768-199702000-00012
  43. Mizuno, J. Appl. Physiol., 68, 496 (1990)
  44. Montero David, Lundby Carsten, Enhanced Performance after Repeated Sprint Training in Hypoxia : False or Reality?, 10.1249/mss.0000000000000711
  45. Mora Leticia, Sentandreu Miguel Angel, Toldrá Fidel, Hydrophilic Chromatographic Determination of Carnosine, Anserine, Balenine, Creatine, and Creatinine, 10.1021/jf0703809
  46. Morales-Alamo D., Ponce-Gonzalez J. G., Guadalupe-Grau A., Rodriguez-Garcia L., Santana A., Cusso M. R., Guerrero M., Guerra B., Dorado C., Calbet J. A. L., Increased oxidative stress and anaerobic energy release, but blunted Thr172-AMPK  phosphorylation, in response to sprint exercise in severe acute hypoxia in humans, 10.1152/japplphysiol.00415.2012
  47. Mosher Scott L., Sparks S. Andy, Williams Emily L., Bentley David J., Mc Naughton Lars R., Ingestion of a Nitric Oxide Enhancing Supplement Improves Resistance Exercise Performance : , 10.1519/jsc.0000000000001437
  48. Muggeridge David J., Howe Christopher C. F., Spendiff Owen, Pedlar Charles, James Philip E., Easton Chris, A Single Dose of Beetroot Juice Enhances Cycling Performance in Simulated Altitude : , 10.1249/mss.0b013e3182a1dc51
  49. Nevill, J. Appl. Physiol., 67, 2736 (1989)
  50. Nordsborg N. B., Siebenmann C., Jacobs R. A., Rasmussen P., Diaz V., Robach P., Lundby C., Four weeks of normobaric "live high-train low" do not alter muscular or systemic capacity for maintaining pH and K+ homeostasis during intense exercise, 10.1152/japplphysiol.01353.2011
  51. Parolin, Am. J. Physiol. Endocrinol. Metab., 277, 890 (1999)
  52. Porporato Paolo E., Dhup Suveera, Dadhich Rajesh K., Copetti Tamara, Sonveaux Pierre, Anticancer Targets in the Glycolytic Metabolism of Tumors: A Comprehensive Review, 10.3389/fphar.2011.00049
  53. Putman, Am. J. Physiol., 269, E458 (1995)
  54. PUYPE JOKE, VAN PROEYEN KAREN, RAYMACKERS JEAN-MARC, DELDICQUE LOUISE, HESPEL PETER, Sprint Interval Training in Hypoxia Stimulates Glycolytic Enzyme Activity : , 10.1249/mss.0b013e31829734ae
  55. Ross Angus, Leveritt Michael, Long-Term Metabolic and Skeletal Muscle Adaptations to Short-Sprint Training : Implications for Sprint Training and Tapering, 10.2165/00007256-200131150-00003
  56. Saltin B., Kim C. K., Terrados N., Larsen H., Svedenhag J., Rolf C. J., Morphology, enzyme activities and buffer capacity in leg muscles of Kenyan and Scandinavian runners, 10.1111/j.1600-0838.1995.tb00038.x
  57. Schmutz Silvia, Däpp Christoph, Wittwer Matthias, Durieux Anne-Cécile, Mueller Matthias, Weinstein Felix, Vogt Michael, Hoppeler Hans, Flück Martin, A hypoxia complement differentiates the muscle response to endurance exercise : Molecular specificity of hypoxia training, 10.1113/expphysiol.2009.051029
  58. Sloth M., Sloth D., Overgaard K., Dalgas U., Effects of sprint interval training on VO2maxand aerobic exercise performance: A systematic review and meta-analysis : Effects of sprint interval training on VO2max, 10.1111/sms.12092
  59. Smith Lori W., Smith John D., Criswell David S., Involvement of nitric oxide synthase in skeletal muscle adaptation to chronic overload, 10.1152/japplphysiol.00950.2001
  60. Suwa, J. Sport. Sci. Med., 14, 548 (2015)
  61. Suzuki Yasuhiro, Ito Osamu, Takahashi Hideyuki, Takamatsu Kaoru, The Effect of Sprint Training on Skeletal Muscle Carnosine in Humans, 10.5432/ijshs.2.105
  62. Terrados, J. Appl. Physiol., 68, 2369 (1990)
  63. Thomas C., Bishop D., Moore-Morris T., Mercier J., Effects of high-intensity training on MCT1, MCT4, and NBC expressions in rat skeletal muscles: influence of chronic metabolic alkalosis, 10.1152/ajpendo.00164.2007
  64. Thompson Christopher, Wylie Lee J., Fulford Jonathan, Kelly James, Black Matthew I., McDonagh Sinead T. J., Jeukendrup Asker E., Vanhatalo Anni, Jones Andrew M., Dietary nitrate improves sprint performance and cognitive function during prolonged intermittent exercise, 10.1007/s00421-015-3166-0
  65. Vanhatalo Anni, Fulford Jonathan, Bailey Stephen J., Blackwell James R., Winyard Paul G., Jones Andrew M., Dietary nitrate reduces muscle metabolic perturbation and improves exercise tolerance in hypoxia : Dietary nitrate and exercise in hypoxia, 10.1113/jphysiol.2011.216341
  66. Vanhatalo A., Jones A. M., Blackwell J. R., Winyard P. G., Fulford J., Dietary nitrate accelerates postexercise muscle metabolic recovery and O2 delivery in hypoxia, 10.1152/japplphysiol.00096.2014
  67. Vogt, J. Appl. Physiol., 91, 173 (2001)
  68. Webb A. J., Patel N., Loukogeorgakis S., Okorie M., Aboud Z., Misra S., Rashid R., Miall P., Deanfield J., Benjamin N., MacAllister R., Hobbs A. J., Ahluwalia A., Acute Blood Pressure Lowering, Vasoprotective, and Antiplatelet Properties of Dietary Nitrate via Bioconversion to Nitrite, 10.1161/hypertensionaha.107.103523
  69. Wehrlin Jon Peter, Hallén Jostein, Linear decrease in $$\dot V\hbox{O}_{2\max}$$ and performance with increasing altitude in endurance athletes, 10.1007/s00421-005-0081-9
  70. Weyand, J. Appl. Physiol., 86, 2059 (1999)
  71. Wylie L. J., Kelly J., Bailey S. J., Blackwell J. R., Skiba P. F., Winyard P. G., Jeukendrup A. E., Vanhatalo A., Jones A. M., Beetroot juice and exercise: pharmacodynamic and dose-response relationships, 10.1152/japplphysiol.00372.2013
  72. Zoll J., Exercise training in normobaric hypoxia in endurance runners. III. Muscular adjustments of selected gene transcripts, 10.1152/japplphysiol.00359.2005