Clinical Research Directory

Preventing Athlete Under-fueling Through Nutrition.

The goal is to improve nutrition screening and support for Division III athletes. The study will use standard, low-risk nutrition screening methods, such as measuring height, weight, grip strength, and body composition, as well as having athletes complete questionnaires. Dietitians trained in sports nutrition will provide nutrition advice based on these screenings. Data will be collected at three points during the season: before the season starts, mid-season, and after the season ends. This study builds on earlier research conducted at Case Western Reserve University that showed nutrition support can improve athletes' health and performance.

Characteristics of Performance in Collegiate Cheerleaders and Dancers

This study aims to investigate performance differences between collegiate cheerleaders and dancers classified as normal weight obese and those classified as normal weight lean. The study will assess differences in physical performance, lifestyle behaviors, muscle quality, and nutrition-related factors between groups. Performance testing, body composition assessment, and questionnaire-based measures will be used to characterize these relationships.

Body Composition and Lifestyle Factors in ROTC

This study aims to investigates the relationships between body composition, sleep, diet, and physical fitness in ROTC cadets. Further, it aims to evaluate the accuracy of body composition screening methods and identify lifestyle factors linked to performance. Methods include body composition testing, surveys, accelerometry, and fitness score collection from cadets.

Energy Availability and Its Impact in Elite Triathletes

This study investigates how energy availability affects performance, injury risk, and training outcomes in elite triathletes. Over two competitive seasons (2026-2027), 40 elite and sub-elite triathletes will be monitored through physiological tests, blood samples, and questionnaires. The goal is to identify markers of low energy availability and understand its impact on health and athletic performance. The study is observational and does not involve experimental treatments. Participants continue their regular training and diet while undergoing periodic assessments.

Impact of Diet-induced Change in Energy Balance on Metabolism in Endurance Athletes

Recent research has suggested that increasing levels of physical activity are associated with a reduction in the independent components that contribute to total energy expenditure (such as resting metabolic rate and non-exercise movement) - this occurs to conserve energy required for physical activity where energy provision becomes scarce. There are potential deleterious health and performance consequences of a reduced energy supply to fundamental metabolic processes, putting individuals regularly undertaking high levels of physical activity, such as endurance athletes, at risk. However, this association is largely based on observational data in only moderately active populations, and it is currently unclear what role energy balance status and biological sex has on this relationship. This research intends to address these unknowns by assessing the impact of diet-induced manipulation of energy balance (conditions of energy deficit and energy surplus) in individuals undertaking habitually high levels of physical activity on independent components of total energy expenditure (resting metabolism, exercise and non-exercise movement). Male and female athletes conducting regular moderate-to-high training volumes will undertake a randomised crossover study with a 7-day state of energy deficit and a 7-day state of energy surplus. Participants will continue to live and train as normal, but their diet will be controlled by specific food provision over the intervention periods in order to facilitate both conditions. Independent components of energy expenditure, markers of health, metabolism and performance will be measured to allow for comparison of conditions.

Bone Metabolism in Premenopausal Exercising Women

The main goal of this study is to examine how sex hormones and low energy availability affect the concentrations of bone remodelling markers at rest and after a running protocol. The research questions to be addressed are: 1: Does the ovarian hormone profile influence serum bone marker concentrations in women exercising resting and in response to to exercise? 2\. Are there differences in response to low energy availability in bone marker concentrations between eumenorrhoeic female athletes and oral contraceptive users? 3: Is the response of bone markers affected by different exercise stimuli: endurance or aerobic endurance? 4: Do bone markers return to baseline levels after 24 hours of high energy availability diet after 6 days of low energy availability?

Low Energy Availability and Cardiovascular Disease

Low energy availability (LEA) signifies a condition where the body lacks sufficient energy to support essential physiological functions crucial for maintaining optimal health (1). This energy insufficiency can be exacerbated by the demands of sports and exercise, resulting in negative impacts on various physiological, psychological, and sports performance (11, 8, 2). While LEA is commonly associated with cardiovascular abnormalities, such as early atherosclerosis, endothelial dysfunction, and lower blood pressure, the existing body of research faces limitations, including small sample sizes and primarily exploratory approaches (2). Additionally, despite a growing body of evidence suggesting a strong link between DNA methylation (an epigenetic modification influencing gene expression by tagging specific parts of the DNA code) and cardiovascular disease (9, 6), there has been no prior investigation exploring the interplay between DNA methylation, cardiovascular disease, and LEA. To better understand LEA and its effects on cardiovascular health, it is imperative to address these limitations through further research. Utilising more comprehensive markers of cardiovascular disease and expanding the scope of investigations will contribute to a great understanding of LEA and its implications on cardiovascular health (10).