Faculty Collaboration Database

Biomechanical Determinants of the Reactive Strength Index During Drop Jumps. Int J Sports Physiol Perform 2018 Jan 01;13(1):44-49

Date

04/20/2017

Pubmed ID

28422586

DOI

10.1123/ijspp.2017-0021

Scopus ID

2-s2.0-85041809991 (requires institutional sign-in at Scopus site)   33 Citations

Abstract

The Reactive Strength Index (RSI) is often used to quantify drop-jump (DJ) performance; however, not much is known about its biomechanical determinants. The purpose of this study was to investigate the correlations between the RSI and several biomechanical variables calculated from DJ performed with different initial drop heights. Twelve male NCAA Division I basketball players performed DJs from drop heights of 30, 45, and 60 cm. Force plates were used to calculate DJ performance parameters (ie, DJ height, contact time, and RSI) and DJ biomechanical variables (ie, vertical stiffness and eccentric/concentric energetics). Regression analyses were used to assess the correlations between variables at each drop height, and ANOVAs were used to assess the differences of all variables across drop heights. Follow-up analyses used 2 neural networks to determine if DJ performance and biomechanical data could accurately classify DJ trials by drop-height condition. Vertical-stiffness values were significantly correlated with RSI at each height but did not change across drop heights. Surprisingly, the RSI and other DJ parameters also did not vary across drop height, which resulted in the inability of these variables to accurately classify DJ trials. Given that vertical stiffness did not change across drop height and was highly correlated with RSI at each height, the RSI appears to reflect biomechanical behavior related to vertical stiffness during DJ. However, the inability of the RSI to accurately classify drop-height condition questions the use of RSI profiles established from DJs from different heights.

Author List

Kipp K, Kiely MT, Giordanelli MD, Malloy PJ, Geiser CF

Authors

Christopher Geiser BS,MS Assistant Professor/Athletic Training Director in the Exercise Science department at Marquette University
Kristof Kipp BS,MS,PhD Assistant Professor in the Physical Therapy department at Marquette University
Phillip Malloy in the CTSI department at Medical College of Wisconsin - CTSI

MESH terms used to index this publication - Major topics in bold

Basketball
Biomechanical Phenomena
Humans
Male
Motor Skills
Muscle Strength
Plyometric Exercise
Task Performance and Analysis