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Notice: The NSCA website is scheduled to undergo system maintenance from 12:00 AM - 2:30 AM EST. During this time, there may be short service interruptions across the site and some parts of the site may not be accessible. We apologize for any inconvenience while we work to improve the website experience and security.
This PTQ article discusses current research examining the relationship between training volume and muscle hypertrophy and provides guidelines for optimizing training outcomes. Visit NSCA online to read more on exercise science and sport performance.
Personal trainersExercise ScienceProgram designTesting and EvaluationClient Consultation|AssessmentProfessional DevelopmentSustainable ExercisePerformance Training(SAID)Specific Adaptation to Imposed DemandsStrength TrainingTraining VolumeHypertrophyMuscle Growth
Knowing when to train and how much time to devote to training each of the three energy systems is an important ingredient of success in endurance sports. This knowledge is also reflected in a well-designed and scientifically-based training plan.
CoachesExercise Sciencekinetic selectendurance exerciseendurance trainingstrength and conditioning
The exerciser with 8 to 12 months of training experience can begin to include exercise complexes that combine trunk movement patterns with multijoint movements. Single-plane and multiplane movements can be performed using both open- and closed-chain exercises.
CoachesExercise ScienceProgram designexercise complexescore trainingstrength and conditioningmultijoint movements
Live high/train low: what changes can be expected, what dose is required, and is it preferable to other training models for improving performance in endurance sports such as running, swimming, and cycling?
CoachesExercise ScienceProgram designhypoxiaaltitude acclimatizationaltitude trainingaltitude;endurance trainingtrain highlive lowtrain lowLive high
Bone tissue is “alive” and is a dynamic tissue that can respond to resistance training. In addition to the obvious effects of resistance training on muscle mass and strength, resistance training may lead to decreased risk for osteoporosis, fractures, and falls in later life.
CoachesExercise Sciencekinetic selectresistance training adaptations
In the final part of this four-part series on proper movement, the author recommends that the US Marine Corps screen the movement quality of each Marine and educate them on how to move correctly in order to reduce the risk of injury.
TSAC FacilitatorsExercise TechniqueProgram designHIITmovement assessmentfitness for Marinesinjury prevention
This article highlights the scientific evidence on exercises like the seated leg extension, leg curl, and adduction machines to highlight their potential benefits on enhanced performance and potentially reducing injury risk.
Personal trainersExercise ScienceProgram designSafetyPTQinjury riskseated leg extensionseated leg curladduction machinepersonal training
A high-performance program brings a team of rehabilitation and performance professionals together under a common set of principles directed toward success. In this session from the 2015 TSAC Annual Training, Charlie Weingroff discusses how to create a high-performance program that can be highly successful and valuable.
TSAC FacilitatorsCoachesProgram designHigh PerformanceProgrammingStrength and ConditioningProgram Design