Clinical Research Directory

Short-term Effects of Caffeine and a Multi-ingredient Pre-workout on Exercise Performance

The investigators are conducting a study to see how a commercial pre-workout supplement, coffee, and water affect how well people perform. The study is conducted across four visits. The first visit is to assess the participants, and the next three visits are for testing. Each participant will drink a randomly assigned beverage 45 minutes before testing. Throughout the study, the participants will complete three testing days-each at least three days apart-so they can try all three drinks. The first test is the Wingate test, where the participants pedal as fast as they can for 30 seconds against a set resistance. The second test is a 1-mile treadmill run/walk on an incline, where the participant tries to complete the distance as fast as possible. The third test measures reaction time using light-up buttons to see how quickly a participant responds by touching them. These tests will help determine if any of the drinks improve performance. The results can help people choose the best drink for their workouts or races.

Effects of an Elderberry-Based Functional Beverage on Exercise Performance, Muscle Structure, and the Gut-Muscle Axis

Introduction: Increasing sedentary lifestyle, microbiota imbalance and exercise-induced muscle fatigue are among the main causes of metabolic stress and performance decline, even in young individuals. The potential effects of functional foods-particularly polyphenol and anthocyanin-rich beverages-on both gut microbiota and muscle performance have attracted attention in recent years. In this context, intervention studies focused on the gut-muscle axis represent a promising and valuable area of research. Objective: This study aims to investigate the effects of a functional beverage enriched with anthocyanins and polyphenols -extracted from Sambucus nigra L. (black elderberry)- combined with a regular exercise program on muscle performance, muscle morphology, fatigue level, and gut microbiota composition in healthy individuals. Method: This 12-week double-blind, randomized, placebo-controlled trial will include participants adhering to a berry-free diet. Participants will be randomly assigned to two groups: the intervention group will consume a functional elderberry beverage formulated with high-purity anthocyanins obtained via supercritical CO₂ extraction; the control group will receive a placebo beverage with matched taste and energy content but without active compounds. Both groups will engage in a structured combined exercise program (3 days/week). Pre- and post-intervention assessments will include gut microbiota profiling (16S rRNA sequencing), short-chain fatty acid analysis, systemic biomarkers, muscle morphology (via ultrasound), exercise performance, and body composition. Mediator analyses will be used to explore the role of the gut-muscle axis in the observed effects. Unique value: This project represents one of the few human-based intervention studies systematically evaluating the interaction between functional beverages, exercise, and microbiota through the lens of muscle fiber-type-specific adaptations. Furthermore, by integrating mediator analyses and multi-level outcome measures, the study aims to elucidate the physiological relevance of the gut-muscle axis in a holistic manner. The development, standardization, and sensory evaluation of the elderberry-based beverage also contribute valuable insights to functional product innovation.