Clinical Research Directory

Effects of Carbohydrates Versus Carbohydrates + Protein on Resistance Training Outcomes

Higher energy and carbohydrate intakes have been hypothesized to enhance resistance training adaptations, yet empirical evidence remains mixed. This study investigated whether supplemental carbohydrate-energy intake improves muscle hypertrophy, strength, and fatigue resistance in resistance-trained men. Twenty resistance-trained men completed a quasi-randomized, double-blinded, counterbalanced crossover trial. Participants consumed either a daily protein-only supplement (30 g protein, 4 g carbohydrate) or a daily protein-plus-carbohydrate supplement (30 g protein, 54 g carbohydrate) for 8 weeks each, followed by crossover, while continuing their habitual training and diet. Primary outcomes included lean mass (dual-energy x-ray absorptiometry), muscle thickness and cross-sectional area (ultrasound), back squat one-repetition maximum, knee extensor peak torque, and fatigue index. The carbohydrate-protein supplement produced significantly higher daily energy and carbohydrate intake compared to the protein-only supplement, with no differences in protein intake, fat intake, or training volume. No significant between-condition differences were observed for any outcome. These results suggest that modest increases in carbohydrate-energy intake outside of an energy deficit are unlikely to meaningfully enhance muscle hypertrophy, strength, or fatigue resistance in trained men.

Low-Load BFR vs. High-Load Training on Biceps Hypertrophy

This study aimed to compare the effects of low-load blood flow restriction resistance exercise (BFR-RE) performed to voluntary failure with traditional high-load resistance exercise (HL-RE) and a control condition on biceps brachii muscle hypertrophy, muscle stiffness, and maximal strength in untrained young men. Participants completed an 8-week training program, with exercise performed three times per week. Outcomes were assessed using ultrasound imaging, elastography, and one-repetition maximum (1RM) testing. The study evaluates whether low-load BFR training can produce adaptations comparable to high-load resistance training.

Determining the Effect of Shoulder Flexion Angle on Latissimus Dorsi and Forearm Flexor Hypertrophy

The goal of this clinical trial is to learn the effect of training a muscle at a longer or shorter muscle length during resistance exercise in young and healthy adults. Participants will undergo two types of resistance training conditions that are randomly assigned to the left and right arm. The LATPULLDOWN (LPD) condition refers to performing an exercise that places the latissimus dorsi muscle at a long muscle length when the shoulder is elevated to 180° of shoulder flexion. The LATROW (LR) condition refers to performing an exercise that places the latissimus dorsi muscle at a shorter muscle length when the shoulder is elevated to 90° of shoulder flexion. The main questions the trial aims to answer are: 1. Does resistance training the latissimus dorsi muscle at a long muscle length result in greater muscle growth than training at a shorter muscle length? 2. Does resistance training the latissmus dorsi muscle at long or short muscle lengths result in regional muscle growth differences of the latissimus dorsi? We hypothesize that: 1. LAT PULLDOWN will induce greater hypertrophy compared to LAT ROW condition 2. LAT PULLDOWN will result in greater increases in 1RM compared to LATROW condition 3. LAT PULLDOWN and LAT ROW will result in angle specific differences in Isokinetic strength 4. LAT PULLDOWN will result in greater inferior Latissimus Dorsi hypertrophy 5. LAT ROW will result in greater superior Latissimus Dorsi hypertrophy The investigators will compare the change in muscle volume and muscular strength between the LAT PULLDOWN and LAT ROW training conditions, which each participant will have the left and right arm randomly assigned to either exclusively LAT PULLDOWN or LAT ROW conditions. Participants will: * Resistance train the left and right arm with two separate conditions; LAT PULLDOWN and LAT ROW for 12 weeks, with the first and last weeks dedicated to only strength testing (Isotonic and Isokinetic) and measuring muscle volume via magnetic resonance imaging (MRI) * Visit the gym for resistance training 2 times per week * Visit the UBC MRI Research Facility in weeks 1 and 12 for MRI of muscle volume

The Effect of Peak Force At Long and Short Muscle Lengths and the Impact on Muscle Growth and Strength

The goal of this clinical trial is to learn the effect of applying peak force/resistance to skeletal muscles during resistance exercise training in young and healthy adults. Participants will undergo two types of resistance training conditions that are randomly assigned to the left arm and leg and the right arm and leg. The LONG condition refers to Prime Fitness machines set to setting number '3' which applies peak force at a long muscle length. The SHORT condition refers to Prime Fitness machines set to setting number '2' which applies peak force at a short muscle length. The main questions the trial aims to answer are: 1. Does applying peak force at a longer or shorter muscle length during resistance exercise training result in greater muscle growth? 2. Does applying peak force at a longer or shorter muscle length during resistance exercise training result in greater muscle growth? We hypothesize that: 1. LONG will induce greater hypertrophy compared to SHORT conditions 2. LONG will result in greater increases in 1RM strength compared to SHORT 3. LONG and SHORT training will result in angle specific increases in isokinetic strength 4. Muscle oxygenation will decline to a greater degree during LONG compared to SHORT exercise and this will be maintained between weeks 1 and 12 of training The investigators will compare the change in muscle volume and muscular strength between the LONG and SHORT training conditions, which each participant will have the left arm and leg as well as the right arm and leg randomly assigned to either exclusively LONG or SHORT conditions. Participants will: * Resistance train the left and right arm and leg with two separate conditions; LONG and SHORT for 12 weeks, with the first and last weeks dedicated to only strength testing (Isotonic and Isokinetic) and measuring muscle volume via magnetic resonance imaging (MRI) * Visit the gym for resistance training 2 times per week * Visit the UBC MRI Research Facility in weeks 1 and 12 for MRI of muscle volume