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.

Development of grip strength is often overlooked in traditional resistance training programs, but small program adjustments that target grip strength can be of benefit athletes.

Specificity of training involves an analysis of physiological, anatomical, and psychological needs for an activity. This article explains how to create a well-designed program that takes exercise specificity into account.

Many processes and applications are used for recovery programs but there are certain factors that must be taken into consideration before determining the optimal course of action.

Managing workload and optimizing athlete performance while promoting injury-free participation is simplified using the eight tips in this article.

The purpose of this article is to describe the cause of hamstring injuries in sprinters and present a biomechanical intervention, or drill, that can be used to prevent hamstring injuries while transitioning sprint athletes toward the utilization of frontside mechanics.

This article is the second of a series of articles on strength training practices for rowing and seeks to provide information on periodization strategies for rowers of different competitive levels and schedules, as well as include sample periodization plans and sample programs.

This article provides an overview of a resistance training program for tactical strength and conditioning facilitators in large law enforcement academy settings.

This article focuses on a program for a Paralympic athlete born with a congenital limb deficiency (transradial peromelia) of the right arm.

The “priority training system” is one method first responders can use to ensure adequate exercise while not overexerting to the point that they are too fatigued to perform their jobs.