Sacramento Bee, 2008 Retrieved June 5, 2010, from http://​search

Sacramento Bee, 2008. Retrieved June 5, 2010, from http://​search.​ebscohost.​com/​login.​aspx?​direct=​true&​db=​nfh&​AN=​2W62W663951 32. Edell D: Are Energy Drinks Safe? Cl-amidine nmr AthleticAdvisor.com. [http://​www.​athleticadvisor.​com/​weight_​room/​energy_​drinks.​htm] Competing https://www.selleckchem.com/products/Dasatinib.html interests The authors declare that they have no competing interests. Authors’ contributions CB conceived the idea of the study, participated in the design of the study, analysis of data, drafted the first version of the manuscript and participated in finalizing the manuscript. EH participated in the design

of the study, and had the major responsibility of recruiting subjects and coordinating the data collection and analysis of the data. He participated in developing the manuscript, discussing the findings and in finalizing the manuscript. Both authors gave suggestions, read the manuscript carefully,

fully agreed on its content and approved its final version.”
“Background Ergogenic aids are generally described as substances or techniques used to improve athletic performance. Nutrition supplements are often evaluated for their potential as ergogenic aides by testing an athlete’s physiological work capacity both before and after consumption of the supplement. For example, numerous studies have tested the efficacy of ingesting sodium bicarbonate or sodium citrate to enhance intracellular and extracellular Carbohydrate buffering capacity during high intensity exercise [1–3]. Theoretically, the ingestion of these substances can enhance the body’s buffering capacity by absorbing the hydrogen ion (H+) by-product from intramuscular https://www.selleckchem.com/products/chir-99021-ct99021-hcl.html ATP hydrolysis, as well as ATP production via sarcoplasmic glycolysis [4]. During high intensity non-steady-state exercise, the rate of H+ ion production exceeds the muscle fiber’s ability to buffer and/or remove the H+ ions from the sarcoplasm. As a result, both intracellular and extracellular pH can decrease and subsequently contribute to muscular fatigue [5]. Thus, an enhanced buffering capacity has the potential to ameliorate the impact of increased

H+ production on muscular work capacity during exercise. Recently, an alkalizing nutrition supplement, hereafter referred to as ANS (TAMER Laboratories, Inc., Shorline, WA USA), has been marketed to endurance athletes as a means for maximizing their intracellular and extracellular buffering capacity via a daily mineral-based supplement. According to the manufacturer, regular consumption of this product will supplement the body’s ability to buffer excess hydrogen ions resulting from metabolic acidosis during high intensity exercise. As a result, the manufacturer claims that users can expect to experience increased time to fatigue, lower blood lactate levels during steady-state exercise, as well as a more rapid recovery of muscular strength following an intense muscular effort.

Comments are closed.