Various methods of eccentric training that aim to increase muscle mass or reduce ground contact time during a landing task have been extensively researched and practically examined. However, multiple methods to implement eccentric training currently exist; they differ in execution and intended training adaptions. There is a clear differentiation between an eccentric muscle action and an eccentric motion whereby a motion alludes to a downward movement of an exercise. The proposed eccentric motions are dissipating eccentrics, deceleration eccentrics, overcoming eccentrics, maximal eccentrics, and rebound eccentrics. These motions formulate into training methods and cues to allow practitioners to clearly differentiate the various eccentric training methods used in research and practice. This review proposes a new conceptual framework that clearly outlines the different forms of eccentric motions that fall into a desired eccentric training method.

When considering applying advanced methods to affect and augment maximal power output, this excerpt from Developing Power explains three key points to consider.

Learn how to identify the risks to an athlete’s health and safety associated with overtraining, as well as how to help the athlete to return to normal when they have reached overtraining/fatigue. Bryan Mann, PhD, discusses recovery methods for the tactical athlete in this talk from the 2016 NSCA TSAC Annual Training.

A common obstacle to achieving recommended physical activity and desired training goals is time. This is true for recreationally trained adults and athletes, particularly at the collegiate level, where greater restrictions on practice time and training are in place. One possible solution is to implement time-saving and time efficient training routines and methods that may limit the amount of time needed to attain desired physiological adaptations—by decreasing the time needed to train and/or by increasing the frequency with which brief workouts are completed throughout the week (e.g., “microdosing”). To provide the most optimal training stimulus, the correct method must be used. Unfortunately, numerous terms describe routines and methods discussed in the current body of available literature, many of which may seem similar and lead to confusion. The purpose of this article is to outline the similarities and differences of the numerous timesaving and time-efficient training routines and methods. Ultimately, this article synthesizes the current research into practical recommendations as programming options for strength and conditioning coaches and personal trainers. The information provided may also serve as a foundation for future research opportunities in time-saving and time-efficient training.

The use of conditioning activities at maximal and sub-maximal intensities can increase subsequent sprint speed. This infographic describes how individuals’ responses can differ and suggestions to optimize post-activation potentiation (PAP) methods.

This article will look at the use of supplements, nutrition, compression socks, cryotherapy, and myofascial release as enhanced recovery methods for endurance runners.

This article, tailored to individuals who do not have access to traditional equipment, will explore the exercise methods that less-impacted populations utilize during the shutdowns, and examine how those training effects can benefit strength-, power-, and hypertrophy-minded athletes.

JC Santana, of the Institute of Human Performance, demonstrates some unconventional methods he uses to train combat athletes.

Paul Goodman, MS, CSCS, USAW, spoke at the NSCA's 2012 National Conference about developing the hockey athlete.

Learn about cluster sets, and how they can be used in program design for optimal athletic development. Greg Haff, President of the NSCA, shares examples of various set structures in this session from the NSCA 2016 National Conference.