Strength and conditioning

The Strength and Conditioning Interest Group investigates how training, loading, and recovery strategies influence physiological and molecular adaptations that underpin athletic performance, injury risk and long-term development.

Our research spans strength, power, endurance, and team sport contexts, with a strong focus on understanding the mechanisms of adaptation and translating scientific evidence into practical solutions which support coaches, practitioners, and athletes.


Our research aligns to the remit of what it means to be an effective strength and conditioning practitioner.

Given we are interested in how various training, loading, and recovery strategies can influence physiological and molecular adaptations that underpin athletic performance, injury risk and long-term development outcomes across a range of differing populations.

Dr Carl Langan Evans
Programme Leader MSc Strength and Conditioning, RISES


Research

We investigate how training, loading, and recovery strategies can be manipulated to optimise physiological and molecular adaptations that underpin athletic performance, injury risk and long-term athlete development.

Our research examines the responses and adaptations to a wide range of training stimuli, including resistance exercise, sprint training, endurance training, and sport-specific conditioning, with the aim of generating evidence that informs contemporary strength and conditioning practice.

Our work spans elite sport, youth athlete development, and applied performance settings, supporting practitioners in the design, monitoring, and evaluation of training programmes.

This research is strengthened through collaborations with leading organisations including those in the Men's Premier and Women’s Super Leagues, Sport Institutes, Olympic and Paralympic National Governing Bodies, and Professional Sporting Organisations.

In addition, we partner with globally renowned industry partners such as Globus Corp. and VALD, collectively ensuring that our work addresses real-world challenges while maintaining scientific rigour.

A central focus of our research is understanding individual variability in training responses. We investigate the physiological, biomechanical, and molecular factors that influence adaptation, recovery, injury risk, and performance, with the goal of developing more personalised and effective approaches to athlete preparation.

Through close integration of laboratory and field-based research, we aim to advance both scientific understanding and practical application within strength and conditioning.

Ongoing projects

The Physiological and Biomechanical Basis of Elite Professional Boxing Punch Performance: Implications for Strength and Conditioning Assessments and Interventions

Anaerobic Speed Reserve in Professional Football: Optimising High-Intensity Interval Training Prescription and Individualised Performance Profiling

A Multidisciplinary Insight of Individualised Return to Performance Following ACL Reconstruction in Women's Football

Completed projects

The Biomechanical Underpinnings and Subsequent Physiological Adaptations of Accentuated-Eccentric Loading in Strength-Trained Males.

Publication spotlight

An investigation of movement dynamics and muscle activity during traditional and accentuated-eccentric squatting

The influence of aerobic capacity on the loads and intensities of mixed martial arts sparring bouts

Fitness testing and readiness practices among female football practitioners: A survey study

Effect of Six Weeks’ Isometric Strength Training Compared to Traditional Strength Training on Gains in Strength, Power, and Speed in Male Academy Soccer Players

Post‐Match Recovery Responses in Italian Serie A Youth Soccer Players: Effects of Manipulating Training Load 48 h After Match Play

Muscle soreness but not neuromuscular fatigue responses following downhill running differ according to the number of exercise bouts

Strength and Conditioning (S&C) Practices of Judo Athletes and S&C Coaches: A Survey-Based Investigation

Training loads and microcycle periodisation in Italian Serie A youth soccer players

Quantification of training and match load during non-congested and congested microcycles in academy football players: a UEFA Youth League team case study

A 12-Week Strength and Conditioning Intervention: An Individualized Case Series Approach for 3 Amateur and 3 Professional Female Golfers

Gastrocnemius medialis tendon properties do not differ between male academy soccer players and control participants but are related to jump performance