Clinical Research Directory

Indirect Biomarkers and Exercise Induced Muscle Damage

The purpose of this study is to investigate the magnitude of changes in biomarkers of exercise-induced muscle damage following an acute bout of eccentric exercise of the knee extensors performed on an isokinetic dynamometer. Moreover, these biomarkers will be assessed at different time points after the initial intervention, checking the repeated bout effect phenomenon.

Effects of a 5-Week Probiotic Supplementation Intervention on Markers of Delayed Onset Muscle Soreness

The purpose of this study is to evaluate how probiotic supplementation (PS) influences post-exercise recovery in healthy, physically active young adults. Researchers aim to determine if the Lactobacillus casei probiotic strain reduces symptoms of delayed onset muscle soreness (DOMS) based on perceived muscle soreness, pressure pain threshold, and power output following exercise induced muscle damage (EIMD).

Acute Cryotherapy on Musculoskeletal Function and Biomarkers

In 2020, Dubois and Esculier proposed a paradigm shift in the acute management of musculoskeletal injuries, advocating for the transition from the traditional PRICE protocol- Protect, Rest, Ice, Compression, Elevation-to the more holistic PEACE \& LOVE framework. This updated model emphasizes Protection, Elevation, Avoiding anti-inflammatories, Compression, and Education, followed by Load, Optimism, Vascularization, and Exercise. Notably, the PEACE \& LOVE approach omits the use of ice, a decision that has sparked considerable debate. While the rationale centers on avoiding interference with the natural inflammatory and regenerative processes, this omission stands in contrast to a substantial body of animal research suggesting that cryotherapy can mitigate secondary tissue injury by reducing inflammation and metabolic activity. Despite its widespread clinical use, human studies have yet to provide conclusive evidence supporting or refuting the efficacy of cryotherapy in acute injury management, leaving clinicians to navigate between tradition, emerging evidence, and evolving philosophies of care. Even though it is important to consider natural inflammation for a better regenerative process, animal models have shown that the original injury can elicit oxidative stress, which will enhance cellular damage (secondary damage) and inflammation. Clinically, it is unknown if this secondary damage would increase functional impairment. Therefore, this proposal will determine if cryotherapy can decrease secondary damage, after exercise-induced muscle damage, and if this decrease is associated to lower inflammation, oxidative stress and functional impairments.

Walk It Off! the Influence of Physical Activity Level on the Recovery from Damaging Resistance Exercise

After completing novel activity or exercise we may experience exercise-induced muscle damage (EIMD), resulting in a period of reduced muscle function and delayed onset muscle soreness (DOMS). DOMS is characterized by muscle pain and tenderness that typically resolves within a week. While the precise cause of DOMS is unknown, there is growing evidence implicating damage to the connective tissue that surrounds our muscle fibers and is related to a small amount of inflammation. This inflammation is a normal part of our body's ability to recovery from injuries and may be visualized through the use of ultrasound technology. A variety of recovery techniques have been proposed that may help with the recovery of DOMS such as massage and electrical muscle stimulation, but these are not always accessible. Therefore, we are interested in investigating whether the number of daily steps can affect how you experience DOMS.