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Full-Text Articles in Exercise Science
The Effect Of Omega-3 Fatty Acids On Recovery From Traumatic Brain Injury, Sarah Wampler
The Effect Of Omega-3 Fatty Acids On Recovery From Traumatic Brain Injury, Sarah Wampler
Honors Projects
Past research has been conducted on rats and mice to determine behavioral and physiological effects of omega-3 fatty acids on recovery from traumatic brain injury (TBI). These studies found that omega-3s can be helpful for recovery from TBI, however, the results did not carry over to human clinical trials. This paper aimed to compare and analyze the results of these studies through meta-analysis to help explain why omega-3 fatty acids were not as effective for human recovery from head injury. A systematic literature search was completed to obtain all studies that looked at this effect. Some of the articles acquired …
Volumetric Muscle Loss: The Role Of Physical Activity And Autologous Repair On Force Recovery And Signaling Pathways, Richard Perry
Volumetric Muscle Loss: The Role Of Physical Activity And Autologous Repair On Force Recovery And Signaling Pathways, Richard Perry
Graduate Theses and Dissertations
Volumetric muscle loss affects both military and civilian persons. The hallmark of this injury is incomplete muscle regeneration, excessive fibrosis, and chronic inflammatory signaling resulting in permanent functional loss. Since permanent functional loss drastically reduces quality of life, many studies have been conducted to improve force recovery. Current scientific literature considers a repair strategy of either devitalized scaffolds infused with growth factors or viable tissue plus activating factors to be the more promising interventions for optimal force recovery. PURPOSE The purpose of this study is to incorporate autologous repair and physical activity and observe the effects of muscle force recovery …
Intermittent Pneumatic Compression Boot Use Elevates Blood Lactate During Subsequent Exercise, Richard T. Marcello, Lucas Fortini, Beau K. Greer
Intermittent Pneumatic Compression Boot Use Elevates Blood Lactate During Subsequent Exercise, Richard T. Marcello, Lucas Fortini, Beau K. Greer
Exercise Science Faculty Publications
The purpose of the present study was to investigate the influence of intermittent pneumatic compression (IPC) boot use between submaximal cycling trials on heart rate (HR) and blood lactate concentrations. Ten healthy participants (9M; 1F) performed two consecutive 60 minute rides at 60% of functional threshold power with a 30 minute rest between rides. The rest period was spent in a supine position using IPC boots (BOOT) or sitting in a similar position without boots (CON). HRs were collected every 15 minutes during cycling rides, and lactate was measured at the 30-minute mark during both rides. An identical trial was …