The importance of recognizing a closed-chain activity lies in the fact that the motions of multiple joints are coupled. Weakness at any one joint will consequently limit performance of the entire movement.

This article provides four exercises that are specifically designed to assist in building efficient posterior chain strength that can ultimately improve quality of life, ability, and performance for the older adult.

NSCA Coach 11.4 shares how strength training of the posterior chain in athletes can reduce injury risk and aid rehabilitation. Visit us online to read more about exercise research.

This article provides an understanding of the role the core plays during execution of athletic movements, as well as provides evidence-based concepts that help to strengthen the core and maximize movement performance.

This excerpt from NSCA’s Essentials of Personal Training discusses the importance of education on proper running surfaces, appropriate footwear, and the benefits of cross-training in addressing overuse of the knee.

This article will focus on three common areas of injuries that occur with ice hockey players and some recommended strategies for the strength and conditioning professional.

The aim of this article is to highlight the functional importance of the foot, and to provide recommendations for foot conditioning.

Learn about the hip rotators as they relate to performance training. In this session from the NSCA’s 2016 National Conference, Michael Griffith explains the limitations of the hip external rotators and how this can impede performance and lead to injury. This session will also provide eccentric drills and exercises for the hip rotators.

In this session from the NSCA’s 2016 TSAC Annual Training, Ryan Massimo demonstrates foundational movement techniques that engage the body as a single coordinated system, complement the movements the body performs on the job and in life, and help to build optimal and usable strength, power, mobility, and durability.

Multidirectional ground reaction forces (GRFs) and jump tests within baseball pitchers provide insight into athletic ability and coordination to produce lower-body force and power. Lower-body power is a biomechanical feature that denotes physiological capacity through dynamic and passive tissue stretch-shortening in transferring energy from the ground through the kinetic chain. Optimized lower-body power may lessen the magnitude of forces on the upper extremity. Insufficient lower-body power may create a greater risk of upper-body injury. Lower-body power and its relationship to ball velocity have been minimally investigated, yet some research points to a correlation between jumping ability and fastball velocity. Because pitching is unilateral, practitioners should consider unilateral jumps to determine the extent of bilateral asymmetry or stride to drive leg differences that can guide training to remediate deficiencies. The purposes of this brief review are to (a) examine factors that influence vertical jump performance among baseball players, (b) examine research on pitching multidirectional GRFs, and (c) examine literature concerning jump performances to baseball pitching performance. Collectively, this review can assist coaches and practitioners in lower-body power testing and training for baseball pitchers.