Kinematic and kinetic considerations in the back squat among recreationally resistance-trained men
Description
Doctoral thesis (PhD) - Nord University, 2025
Has parts
Paper 1: van den Tillaar, R., Falch, H. N. & Larsen, S. (2024). Are Diminishing Potentiation and Large Extensor Moments the Cause for the Occurrence of the Sticking Region in Maximum Free-Weight Barbell Back Squats among Resistance-Trained Males? Journal of Human Kinetics, 91, 105-119. doi: 10.5114/jhk/185720. The article is available at https://hdl.handle.net/11250/3180910.Paper 2: Larsen, S., Kristiansen, E., Nygaard Falch, H., Estifanos Haugen, M., Fimland, M. S., & van den Tillaar, R. (2022). Effects of barbell load on kinematics, kinetics, and myoelectric activity in back squats. Sports biomechanics. doi: 10.1080/14763141.2022.2085164. Full text not available in Nord Open Research Archive.
Paper 3: Larsen, S., de Zee, M., Nygaard Falch, H., Kristiansen, B. & van den Tillaar, R. (Unpublished manuscript). Comparison of kinematics, muscle forces, and muscle-specific moments across different barbell loads in the back squat among resistance-trained men. Full text not available in Nord Open Research Archive.
Paper 4: Larsen, S., de Zee, M., Kristiansen, E. L., & van den Tillaar, R. (2024). A Biomechanical Comparison Between a High and Low Barbell Placement on Net Joint Moments, Kinematics, Muscle Forces, and Muscle-Specific Moments in 3 Repetition Maximum Back Squats. Journal of strength and conditioning research, 38(7), 1221–1230. doi: 10.1519/JSC.0000000000004790. Full text not available in Nord Open Research Archive.
Paper 5: Larsen, S., Zee, M., & Tillaar, R. V. D. (2025). The Impact of Stance Width on Kinematics and Kinetics During Maximum Back Squats. Journal of strength and conditioning research, 39(1). doi: 10.1519/JSC.0000000000004949. Full text not available in Nord Open Research Archive.