From the NSCA’s 2019 Tactical Annual Training, Nathan Dicks explains the Critical Speed Concept. He presents the normative data, parameters for tactical professionals, and how it can be modeled with load carriage for use in prescribing high-intensity interval training.

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.

Chris Morris, Director or Performance Science at the University of Kentucky, talks to the NSCA Coaching Program Manager, Eric McMahon, about the importance of capturing athlete readiness through data and technology. Topics under discussion include Dr. Morris’s time as a University of Kentucky football player turned PhD student, how sports science is critical to understanding athlete’s capacities on a much deeper view, and developing interpersonal relationships with athletes to create trust and buy-in. Find Dr. Morris on Twitter: @CMorrisPhD | Find Eric on Instagram: @ericmcmahoncscs or Twitter: @ericmcmahoncscs

From the 2020 NSCA Coaches Conference, Brian Buck, Director of Sports, and Bryce Patterson, Director of Education at Sparta Science, discuss how to understand data, create a repeatable and scalable system to address goals, and create a feedback loop to assess the effectiveness of a program.

This infographic summarizes a study on the set and rep ranges for compound resistance exercises in a split routine to maximize hypertrophic effects from training. A 5x10 and a 10x10 routine were assessed to determine their influence on several factors.

This article discusses how first responder organizations can optimize their training programs through scientific techniques, including the measurement of training load.

This excerpt from Strength Training briefly discusses glycemic index and glycemic load.

The purpose of this article is to discuss the gray area that should be considered when it comes to implementing weightlifting exercises.

This infographic explains how to build a load-velocity profile for velocity-based training (VBT), and is the second of a three part series explaining the theory behind and application of VBT.