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Falkel JE, Hagerman FC, Hikida RS: Skeletal muscle adaptations during early phase of heavy-resistance training in men and women. J Appl Physiol 1994, 76:1247–1255.PubMed 39. Aswar U, Mohan V, Bhaskaran S, Bodhankar L: Study of Galactomannan on Androgenic and Anabolic Activity in Male Rats. Pharmacology Online 2008, 56–65. 40. Ratamess NA: Adaptations to Anaerobic Training Programs. Essentials of Strength Training and Conditioning 2008, 3:94–119. Competing interests The authors declare that they have no competing interests. Authors’ contributions CW is the principal investigator. CP & BB assisted in data collection and coordinated the study. CP, CW, & LT analyzed data & wrote the manuscript. RK assisted in the grant preparation and securing grant funding. DW & LT analyzed blood variables. BC, LT, &
CF consulted on study design, manuscript review and preparation. All authors have read and approved the final manuscript.”
“Introduction Tennis is an intermittent sport with the actual playing time being 17-28% of total match duration [1]. The remainder www.selleckchem.com/products/Liproxstatin-1.html of the time is recovery between points and games. On average, the rallies last 4.3-7.7 sec in men’s Grand Slam tournament matches [2]. At the stroke frequency of approximately 0.75 shots. sec-1 [2], the cumulative effect of the repetitive short-term high-intensity efforts throughout prolonged tennis matches could result in significant neuromuscular fatigue [1, 3], which in turn may impair certain aspects of Phosphoglycerate kinase skilled performance [4, 5]. Indeed, the stroke accuracy was significantly decreased in competitive tennis players near the point of volitional fatigue [6]. Stroke accuracy and velocity were also significantly decreased after a strenuous training session (average rating of
perceived exertion (RPE) 15.9/20) in well-trained tennis players [7]. One of the potential factors that may influence the skilled tennis performance is neural function. The central activation failure, changes in neurotransmitter levels and Temozolomide mw disturbance in excitation-contraction coupling have been suggested to play an important role in the development of fatigue in prolonged tennis matches [3, 8]. The decline in maximal voluntary contraction and electromyographic activity of knee extensor muscles occurred progressively during a 3-hour tennis match, indicating a decreasing number of motor units that are voluntarily recruited [3]. The impairments in neural functions in lower limbs may lead to the slower acceleration in movement and the inability to reach the optimal stroke position.