Patellar Tendon Force Differs Depending on Jump‐Landing Tasks and Estimation Methods

Abstract

Patellar tendinopathy is a chronic overuse injury of the patellar tendon which is prevalent in jump‐landing activities. Sports activities can require jumping not only with a vertical component but also in a forward direction. It is yet unknown how jumping in the forward direction may affect patellar tendon forces. The main purpose of this study was to compare PTF between landings preceded by a vertical jump and a forward jump in volleyball players. The second purpose was to compare two different estimation methods of the patellar tendon force. Fifteen male volleyball players performed vertical and forward jump‐landing tasks at a controlled jump height, while kinetics and kinematics were recorded. Patellar tendon forces were calculated through two estimation methods based on inverse dynamic and static optimization procedures, using a musculoskeletal model. Results showed that forward jump‐landing generated higher patellar tendon forces compared to vertical jump‐landing for both estimation methods. Surprisingly, although the static optimization method considered muscle co‐contraction, the inverse kinematic method provided statistically significant higher patellar tendon force values. These findings highlight that limiting the forward velocity component of the aerial phase appears to reduce the load on the patellar tendon during landing and may help to prevent patellar tendinopathy.