This article discusses current tactical and youth training literature into a 16-week JROTC strength and conditioning model for high school students. Visit NSCA online to learn more about athletic performance.
TSAC FacilitatorsExercise TechniqueProgram designOrganization and AdministrationTesting and EvaluationBasic Pathophysiology and Science of Health Status or Condition and Disorder or DiseaseProfessional DevelopmentMesocycleStrength TrainingInjury PreventionMilitary TrainingHigh School AthleticsOccupational PerformanceArmy Fitness Test (AFT)ROTCHolistic Health and Fitness (H2F)
This article is a review of the research relating to the tactical population from presentations and research from the 65th Annual Meeting of the American College of Sports Medicine (ACSM).
An evidence-based movement assessment could hold Marines accountable for mobility and stability by systematically assessing movement patterns. This article (part three of a four-part series) explains one way that this could be accomplished.
TSAC FacilitatorsExercise TechniqueProgram designfitness for Marinesmovement assessmentFMS
Soldiers must be physically prepared to meet a broad range of challenges. This article is designed to help identify risks and discuss recommended strategies to implement in order to minimize those injury risks at the company, commander, and soldier level.
TSAC FacilitatorsProgram designOrganization and AdministrationRisk FactorReturn to DutyPhysical Readiness TrainingMusculoskeletal Injuries
This TSAC Report column summarizes physical training outcomes for firefighters and practical guidance on program design and results. Visit NSCA online to read more on firefighter fitness and tactical performance in the fire service.
TSAC FacilitatorsExercise ScienceProgram designOrganization and AdministrationTesting and EvaluationClient Consultation|AssessmentSafetyEmergency ProceduresBasic Pathophysiology and Science of Health Status or Condition and Disorder or DiseaseProfessional Developmentmuscular strengthaerobic capacityfirefightersfitness adaptationstactical circuit programsmultimodal high-intensity interval training (HIIT)periodizationhigh-intensity functional training (HIFT)
This article takes a closer look at training strength and stiffness in connective tissues.
CoachesExercise ScienceExercise TechniqueProgram designBasic Pathophysiology and Science of Health Status or Condition and Disorder or DiseaseConnective TissueStretch Shortening CycleRehabilitationACLTendonLigamentPlyometrics
This article will demonstrate why personal trainers should consider the use of blood flow restriction (BFR) and BFR technology for appropriate medically-screened clients that provides an objective way to apply pressure, whether that is through manual or automated cuffs.
Personal trainersExercise ScienceProgram designTesting and EvaluationClient Consultation|AssessmentSafetyBasic Pathophysiology and Science of Health Status or Condition and Disorder or DiseaseProfessional DevelopmentBFRcapillarizationhypertrophymuscle fatigueaerobic exerciseresistance trainingblood flow restrictionMulti-joint exercise
Because fitness test results are part of performance evaluations, smaller service members have an advantage in terms of attaining promotions, despite evidence that suggests that greater body size, strength, power, and load carrying capacity is correlated with tactical performance.
TSAC FacilitatorsTesting and Evaluationbody mass biasreliability of fitness testsallometric scalingTSACfitness testing
Deloading is widespread, but its application is often inconsistent and undervalued. That gap caught Lee Bell’s attention after discovering there was no consensus definition. Bell is a Senior Lecturer at Sheffield Hallam University who focuses on the deloading, overtraining, and overreaching spectrum. He explains how overtraining and overreaching are sometimes used synonymously. That confusion is compounded further by associations with overtraining syndrome (OTS). Instead, Bell frames overreaching as a “window of opportunity” when used intentionally. For example, a planned overreach can be functional or non-functional based on recovery. Bell also examines opportunities and tradeoffs in modern periodization models. He contrasts flexible and fluid approaches with more traditional, rigid programming; each approach has implications for athlete trust and recovery. Looking ahead, Bell envisions a collaborative approach to sport science driven by coaching needs. He reflects on recent coaching survey data and the key themes that emerged for the future. Hear his perspective on next steps in velocity-based training, individualized periodization, and variability.
Reach out to Lee via Instagram: @lee3ell and LinkedIn: @lee-bell| Find Eric on Instagram: @ericmcmahoncscs and LinkedIn: @ericmcmahoncscs
→ Read the SCJ article co-authored by Lee Bell referenced in this episode: A Practical Approach to Deloading: Recommendations and Considerations for Strength and Physique Sports.
As Director of Sport Science at the University of Nevada, Las Vegas (UNLV), Heather Farmer spearheads comprehensive integration efforts. This includes ensuring every stakeholder, from sport performance staff to academic advisors, has a seat at the table. Farmer also outlines developing an internship and graduate assistantship program to meet staffing needs and offer opportunities for practical experience. She recounts how leveraging relationships — not data — has been her key to scalability. Additionally, Farmer recognizes that to make an impact, she must meet athletes and sport coaches where they are, which she uncovers through “highlights” and “hurdles.” She suggests that sport scientists with strength and conditioning backgrounds, like herself, are uniquely equipped to excel due to their communication skills. Farmer and McMahon also discuss avoiding “analysis paralysis” and how to incorporate data to elevate the student-athlete experience — an unignorable factor as athletes bring an element of “self” in the age of name, image and likeness (NIL).
Reach out to Heather by email at: heather.farmer@unlv.edu | Find Eric on Instagram: @ericmcmahoncscs or LinkedIn: @ericmcmahoncscs