Class
Article
College
Emma Eccles Jones College of Education and Human Services
Department
Kinesiology & Health Sciences
Faculty Mentor
Talin Louder
Presentation Type
Poster Presentation
Abstract
- The aquatic environment may contribute to enhanced muscle strength by promoting cerebral blood flow and cortical activation, potentially driven by hydrostatic pressure-induced cephalad fluid shifts and sensory stimulation during static water immersion.
Location
Logan, UT
Start Date
4-8-2025 11:30 AM
End Date
4-8-2025 12:20 PM
Included in
Apr 8th, 11:30 AM
Apr 8th, 12:20 PM
Effect of Prolonged Water Immersion on Isometric Mid-Thigh Pull Performance
Logan, UT
- The aquatic environment may contribute to enhanced muscle strength by promoting cerebral blood flow and cortical activation, potentially driven by hydrostatic pressure-induced cephalad fluid shifts and sensory stimulation during static water immersion.