Kinematic Analysis of the Landing Phase onto an Elevated Surface in Box Drop Plyometric Push Ups

Authors

Michael J. TankovichFollow
Laura Moore, Armstrong Atlantic State UniversityFollow
Bryan Riemann, Armstrong Atlantic State UniversityFollow
George J. Davies, Armstrong Atlantic State UniversityFollow

Document Type

Article

Publication Date

6-3-2011

Publication Title

Medicine & Science in Sports & Exercise

DOI

10.1249/01.MSS.0000402319.33232.de

ISSN

1530-0315

Abstract

Previous research concerning loading and kinematics of box drop plyometric push ups (DPU) has not assessed the vertical ground reaction forces (vGRF) and kinematics of the landing phase onto an elevated surface during DPU. Landing phase is defined as the time from contact with the boxes to propulsion off the boxes.

PURPOSE: To compare the flight height, peak vGRF, and elbow flexion during the landing phase of DPU from 3.8cm (1.5 in), 7.6cm (3 in), and 10.2cm (4.5 in) heights.

METHODS: Ten active male subjects (86.0±11.6 kg, 1.82±.07 m, 25±3 yrs) performed four repetitions of each DPU variation in a counterbalanced order. DPU were completed with each upper extremity placed over separate force plates. Boxes were placed on the individual force plates just outside of the subjects self-selected hand separation for the push ups. An electromagnetic tracking system (Motion Monitor, IST, Inc) collected kinematics of the trunk and dominant elbow. From the push up position, peak flight (maximal vertical trunk position during flight), peak vGRF, elbow flexion at ground contact (GC), and elbow displacement (difference between elbow position at GC and peak flexion) were calculated.

RESULTS: Significant differences in peak flight (P

CONCLUSION: Based on peak flight, as box height increases, the higher the subjects must propel their trunk to land on the boxes. In addition, as the box height increased the subjects landed with more elbow flexion. This may indicate that the difficulty of landing on the higher boxes prompted subjects to compensate with more elbow flexion but not enough to affect peak flight. Future research needs to examine DPU from greater heights to determine if kinematics and forces change with an increase in the height of the boxes in DPU.

Comments

© 2011 American College of Sports Medicine

Recommended Citation

Tankovich, Michael J., Laura Moore, Bryan Riemann, George J. Davies. 2011. "Kinematic Analysis of the Landing Phase onto an Elevated Surface in Box Drop Plyometric Push Ups." Medicine & Science in Sports & Exercise, 43 (5): 833: American College of Sports Medicine (ACSM). doi: 10.1249/01.MSS.0000402319.33232.de source: https://journals.lww.com/acsm-msse/Fulltext/2011/05001/Kinematic_Analysis_of_the_Landing_Phase_onto_an.2382.aspx
https://digitalcommons.georgiasouthern.edu/health-kinesiology-facpubs/222