Movements progressed from light- and slowly-controlled stretches<

Movements progressed from light- and slowly-controlled stretches

pulled through a full range Screening Library research buy of motion, to moderate- and high-intensity skipping and bounding on each leg (Table 1). All participants were visibly sweating after completion of the DS session. Testing for SS consisted of a single bout of stretching which involved seven major muscle groups of the lower extremity. Each muscle group was stretched using one repetition on each side of the body for 30 s (total duration = 7 min) (Table 2). The emphasis was placed on holding each stretch to a point of “mild discomfort.” This duration of stretching fell within the recommendations set forth by the American College of Sports Medicine Guidelines to Testing and Prescriptions 9th ed.23 of 15–60 s. The control session (Con) involved 5 min of general aerobic warm-up, then no stretching (rest) for 7 min. Thus, the period of time post general aerobic warm-up that would otherwise be spent stretching (i.e., SS and DS), was spent sitting

in a chair for 7 min. Vertical jumping was performed on a 0.6 m × 0.4 m force platform Selisistat price (Kistler, Type 9290AD, Winterthur, Switzerland). The GRF-trace was sampled at a frequency of 1000 Hz, and filtered using a fourth-order Butterworth low pass filter with a 17 Hz cutoff frequency. A Vertec device (Vertec Sports Imports, Hilliard, OH, USA) was placed directly above the center of the force platform as a means for practical motivation and to maximize the Cell press trajectory of the Fz trace. Participants performed a CMJ by rapidly moving downward (knee and hip flexion combined with dorsiflexion at the ankle), immediately followed by a fast upward movement of the hip, knee, and ankle extensors (e.g., “triple extension”) while simultaneously reaching with her favored arm to displace the vanes on the Vertec, much in the same way as she would jump at the net to spike/tip a volleyball during competition. The two highest of three CMJ jump trials were averaged and used for statistical analysis. The resulting vertical force and displacement data from the GRF-time curve were extracted and used to measure the dependent

variables, and is in accordance with previous methods.20 and 24 The Fz was defined as the point where the positive acceleration curve from the GRF-trace exceeded body weight by 7.5 N. Change in TTT was determined as the time at which the force in the propulsive phase began (point where Fz increased 7.5 N above athlete’s body weight) minus the time at the point of toe-off (point where no Fz trace is detected). Fpk was defined as the highest attainable value of the positive acceleration curve over a 20 ms period. RFDavg was determined as the difference (Δforce/Δtime) in the slope of the GRF-time record. A Shapiro–Wilk test was first used to evaluate all data normality. Since all data presented normal distribution (p > 0.

Comments are closed.