Tahayori, Behdad, Nelson, Arnold, Koceja, David. (1392). A Biomechanical Analysis of the Contributing Factors to Increases in Vertical Jump Height Following Exercise with Weighted Vests. سامانه مدیریت نشریات علمی, 1(1), 2-7. doi: 10.30476/jrsr.2014.41044
Behdad Tahayori; Arnold G. Nelson; David M. Koceja. "A Biomechanical Analysis of the Contributing Factors to Increases in Vertical Jump Height Following Exercise with Weighted Vests". سامانه مدیریت نشریات علمی, 1, 1, 1392, 2-7. doi: 10.30476/jrsr.2014.41044
Tahayori, Behdad, Nelson, Arnold, Koceja, David. (1392). 'A Biomechanical Analysis of the Contributing Factors to Increases in Vertical Jump Height Following Exercise with Weighted Vests', سامانه مدیریت نشریات علمی, 1(1), pp. 2-7. doi: 10.30476/jrsr.2014.41044
Tahayori, Behdad, Nelson, Arnold, Koceja, David. A Biomechanical Analysis of the Contributing Factors to Increases in Vertical Jump Height Following Exercise with Weighted Vests. سامانه مدیریت نشریات علمی, 1392; 1(1): 2-7. doi: 10.30476/jrsr.2014.41044
A Biomechanical Analysis of the Contributing Factors to Increases in Vertical Jump Height Following Exercise with Weighted Vests
1Department of Kinesiology, Louisiana State University, Baton Rouge, LA 70803, USA
Department of Kinesiology, Indiana University, Bloomington IN 47405, USA
2Department of Kinesiology, Louisiana State University, Baton Rouge, LA 70803, USA
3Department of Kinesiology, Louisiana State University, Baton Rouge, LA 70803, USA
Department of Kinesiology, Indiana University, Bloomington IN 47405, USA
چکیده
Background and objectives: It has been shown that a bout of jumping exercise with weighted vests increases the subsequent countermovement jump height. However, it is not clear whether the improvement in jump height is due to the enhancement of joint power or due to other mechanisms such as neural adaptations.Methods: To investigate this dichotomy, we tested the acute neuromechanical changes following a preloaded exercise protocol (3 sets of 5 consecutive CMJs with a weighed vest equal to 15% of the body mass of the participant) that successfully increased the subsequent jump height. On average, jump height increased 1.52 cm (5.4%) after this exercise as compared to CMJs prior to the exercise protocol.Results: A significant decrease in the time from the start of the movement to take off (pre-take off duration) was observed. This decrease was exclusively caused by exercising with a weighted vest, since such a change was not observed in the control sessions in which participants exercised without the weighted vest. Our data showed that jumpers leave the ground with some degrees of knee flexion and upon exercising with weighted vest this amount of flexion increased and hence an increase in the jump height. However, no significant changes in peak values of lower limb joint angle, velocity, moment and power were observed.Conclusion: It is suggested that for designing weighted vest exercise protocols with the aim of increasing jump height, the idea of modifying the timing of the movement should be considered as a cause of the enhancement. This novel idea adds another mechanism for increasing the jump height following weighted vest exercise, along with the general belief of muscle potentiation..
Bishop D. Warm up I. Potential Mechanisms and the Effects of Passive Warm Up on Exercise Performance. Sports Medicine 2003;33(6):439-56.
Bishop D. Warm up II performance changes following active warm up and how to struchture the warm up. Sports Medicine 2003;33(7):483-98.
Cornwell A, Nelson AG, Heise GD, Sidaway B. The acute effects of passive muscle stretching on vertical jump performance. Journal of Human Movement Studies 2001;40:307-24.
McNeal JR, Sands WA. Acute static stretching reduces lower extremity power in trained children. Pediatric Exercise Science 2003;15:139-45.
Cissik JM. Means and methods of speed training: Part II. Strength and conditioning journal 2005;27(1):18-25.
Sleivert G, Taingahue M. The relationship between maximal jump-squat power and sprint acceleration in athletes. European Journal of Applied Physiology 2004;91:46-52.
Morrissey MC, Harman EA, Frykman PN, Han KH. Early Phase Differential Effects of Slow and Fast Barbell Squat Training. The American Journal of Sports Medicine 1998;2 (2):221-30.
Thompsen AG, Kackley T, Palumbo MA, Faigenbaum AD. Acute effects of different warm-up protocols with and without a weighted vest on jumping performance in athletic women. Journal of strength and conditioning research 2007;21(1):52-6.
Faigenbaum AD, McFarland JE, Schwerdtman JA, Ratamess NA, Kang J, Hoffman JR. Dynamic warm-up protocols, with and without a weighted vest, and fitness performance in high school female athletes. Journal of athletic training 2006;41(4):357-63.
Burkett LN, Phillips WT, Ziuraitis J. The best warm-up for the vertical jump in college-age athletic men. Journal of strength and conditioning research 2005;19(3):673-6.
Siatras T, Papadopoulos G, Mameletzi D, Gerodimos V, Kellis S. Static and dynamic acute stretching effect on gymnastsâ speed in vaulting. Pediatric Exercise Science 2003;15(4):383-91.
Gourgoulis V, Aggelosussis N, Kasimatis P, Mavromatis G, Garas A. Effect of a submaximal half-squats warm-up program on vertical jumping ability. Journal of strength and conditioning research 2003;17(2):342-4.
Vanezis A, Lees A. A biomechanical analysis of good and poor performers of the vertical jump. Ergonomics 2005;48(11):1594-603.
Hatze H. Validity and reliability of methods of testing vertical jumping performance. Journal of applied biomechanics 1998;14:127-40.
Cavagna GA. Storage and Utilization of Elastic Energy in Skeletal Muscle. Exercise and Sport Sciences Reviews 1977;5(1):89-130.
Van Ingen Schenau GJ, de Groot G, de Boer RW. The control of speed in elite female speed skaters. Journal of Biomechanics 1985;18(2):91-6.
Van Ingen Schenau GJ. From rotation to translation: Constraints on multi-joint movements and the unique action of bi-articular muscles. Human Movement Science 1989;8(4):301-37.
Bobbert MF, Hoek E, van Ingen Schenau GJ, Sargeat AJ, Schreurs AW. A Model to Demonstrate the Power Transporting Role of Bi-articular Muscles. Journal of Physiology 1987;387:24P.