Pressure distribution on the anatomic landmarks of the knee and the effect of kneepads |
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| Affiliation: | 1. Department of Orthopedics, Faculty of Medicine, Universidad de los Andes, Santiago, Chile;2. School of Kinesiology, Faculty of Medicine, Universidad de los Andes, Santiago, Chile;3. Knee Surgery Unit, Clínica Dávila, Santiago, Chile;4. Knee Surgery Unit, Military Hospital, Santiago, Chile;5. Knee Surgery Unit, Clínica Meds, Santiago, Chile;1. Orthopaedic Research Lab, Radboud University Medical Center, Nijmegen, The Netherlands;2. Department of Orthopaedic Surgery, Via Sana Clinic, Mill, The Netherlands;3. Laboratory for Biomechanical Engineering, University of Twente, Enschede, The Netherlands |
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| Abstract: | This study examines stress transmitted to anatomic landmarks of the knee (patella, combined patella tendon and tibial tubercle) while in static kneeling postures without kneepads and while wearing two kneepads commonly worn in the mining industry. Ten subjects (7 male, 3 female) simulated postures utilized in low-seam mines: kneeling in full flexion; kneeling at 90° of knee flexion; and kneeling on one knee while in one of three kneepad states (no kneepads, non-articulated kneepads, and articulated kneepads). For each posture, peak and mean pressure on the anatomic landmarks of the knee were obtained. The majority of the pressure was found to be transmitted to the knee via the combined patellar tendon and tibial tubercle rather than through the patella. While the kneepads tested decreased the maximum pressure experienced at the combined patellar tendon and tibial tubercle, peak pressures of greater than 25 psi were still experienced over structures commonly injured in mining (e.g. bursa sac – bursitis/Miner’s Knee). The major conclusion of this study is that novel kneepad designs that redistribute the stresses at the knee across a greater surface area and to other regions of the leg away from key structures of the knee are needed. |
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