In this hands-on session from the 2019 NSCA Coaches Conference, Scott Charland, Manager of Human Performance for Parkview Health Sports Medicine, introduces his “recipe” for movement patterns that focus on speed development. This can easily be placed into a warm-up session prior to a conditioning workout or sport practice.

For emerging athletes to move properly and develop athletic skills, they must first develop proficiency in fundamental motor skills. The ABCs of athleticism, therefore, must reflect the development of fundamental motor skills first, and specific athletic skills second.

Approximately 2 million youth from 6 - 12 years of age participate in football every year. This article discusses the importance of long-term athletic development (LTAD) for youth football athletes and the significance of a player development pathway for long-term success and longevity in the sport.

There is growing evidence that polarized endurance training is a promising method for optimizing a tactical athlete’s cardiovascular system, preparing for physical performance tests, allowing for a more full recovery during deployment, and allowing for safer return to duty after injury or deployment.

From the Essentials of Strength Training and Conditioning, this book excerpt explains the various stages of tissue healing in the rehabilitation process.

This infographic provides key takeaways from an article that describes the high-performance environment, allowing for a more accurate definition and representation of a modern high-performance director (HPD) in North American professional sport.

In this session from the NSCA’s 2017 Personal Trainers Conference, Andy Galpin teaches a unique approach to exercise selection that reduces programming time while allowing the selection to be individualized based on client needs.

Understanding attentional styles can improve coaching effectiveness by allowing the coach to provide appropriate cues or methods for each athlete.

The purpose of this article is to inform readers of a training tool which is both safe and effective in allowing swimmers to develop strength and power through a unique training protocol.

An emerging body of research has explored the potential ergogenic effects of noninvasive interset recovery strategies involving the application of cold substances to the extremities distal to exercising muscles (e.g., palms of the hands or the soles of the feet). It was suggested that such strategies may acutely enhance resistance training (RT) performance by augmenting excitation and motor unit recruitment of the working muscles through enhanced stimulation of the central nervous system, resulting in greater force production and the ability to perform more repetitions to fatigue. Moreover, peripheral stimuli such as distal cooling may acutely reduce the sensation of distress during RT, allowing individuals to tolerate more exercise and achieve higher training volumes. Although there is some evidence that interset distal cooling confers an ergogenic benefit during RT, certain methodological considerations, a paucity of longitudinal research, and contrasting findings call into question its effectiveness. Thus, the purpose of this review is to assess the current evidence regarding the effects of interset palm and sole cooling on RT performance outcomes.