OBJECTIVE: To investigate associations between inertial sensor and stationary force plate measurements of hind limb lameness in horses. ANIMALS: 21 adult horses with no lameness or with mild hind limb lameness. PROCEDURES: Horses were instrumented with inertial sensors and evaluated for lameness with a stationary force plate while trotting in a straight line. Inertial sensor-derived measurements of maximum and minimum pelvic height differences between right and left halves of the stride were compared with vertical and horizontal ground reaction forces (GRFs). Stepwise linear regression was performed to investigate the strength of association between inertial sensor measurements of hind limb lameness and amplitude, impulse, and time indices of important events in the vertical and horizontal GRF patterns. RESULTS: Difference in minimum pelvic position was moderately (Ra(2) = 0.60) associated with the difference in peak vertical GRF but had little association with any horizontal GRF measurements. Difference in maximum pelvic position was strongly (Ra(2) = 0.77) associated with a transfer of vertical to horizontal ground reaction impulse in the second half of the stance but was not associated with difference in peak vertical GRF. CONCLUSIONS AND CLINICAL RELEVANCE: Inertial sensor-derived measurements of asymmetric pelvic fall (difference in minimum pelvic position) indicated a decrease in vertical GRF, but similar measurements of asymmetric pelvis rise (difference in maximum pelvic position) indicated a transfer of vertical to horizontal force impulse in the second half of the stance. Evaluation of both pelvic rise and fall may be important when assessing hind limb lameness in horses.
OBJECTIVE: To investigate associations between inertial sensor and stationary force plate measurements of hind limb lameness in horses. ANIMALS: 21 adult horses with no lameness or with mild hind limb lameness. PROCEDURES: Horses were instrumented with inertial sensors and evaluated for lameness with a stationary force plate while trotting in a straight line. Inertial sensor-derived measurements of maximum and minimum pelvic height differences between right and left halves of the stride were compared with vertical and horizontal ground reaction forces (GRFs). Stepwise linear regression was performed to investigate the strength of association between inertial sensor measurements of hind limb lameness and amplitude, impulse, and time indices of important events in the vertical and horizontal GRF patterns. RESULTS: Difference in minimum pelvic position was moderately (Ra(2) = 0.60) associated with the difference in peak vertical GRF but had little association with any horizontal GRF measurements. Difference in maximum pelvic position was strongly (Ra(2) = 0.77) associated with a transfer of vertical to horizontal ground reaction impulse in the second half of the stance but was not associated with difference in peak vertical GRF. CONCLUSIONS AND CLINICAL RELEVANCE: Inertial sensor-derived measurements of asymmetric pelvic fall (difference in minimum pelvic position) indicated a decrease in vertical GRF, but similar measurements of asymmetric pelvis rise (difference in maximum pelvic position) indicated a transfer of vertical to horizontal force impulse in the second half of the stance. Evaluation of both pelvic rise and fall may be important when assessing hind limb lameness in horses.
Authors: Ineke H Smit; Elin Hernlund; Harold Brommer; P René van Weeren; Marie Rhodin; Filipe M Serra Bragança Journal: Equine Vet J Date: 2021-06-23 Impact factor: 2.692
Authors: T Pfau; K Noordwijk; M F Sepulveda Caviedes; E Persson-Sjodin; A Barstow; B Forbes; M Rhodin Journal: Equine Vet J Date: 2017-07-03 Impact factor: 2.888
Authors: Stephan Bosch; Filipe Serra Bragança; Mihai Marin-Perianu; Raluca Marin-Perianu; Berend Jan van der Zwaag; John Voskamp; Willem Back; René van Weeren; Paul Havinga Journal: Sensors (Basel) Date: 2018-03-13 Impact factor: 3.576
Authors: A Byström; L Roepstorff; M Rhodin; F Serra Bragança; M T Engell; E Hernlund; E Persson-Sjödin; R van Weeren; M A Weishaupt; A Egenvall Journal: PLoS One Date: 2018-07-18 Impact factor: 3.240
Authors: Emma Persson-Sjodin; Elin Hernlund; Thilo Pfau; Pia Haubro Andersen; Karin Holm Forsström; Marie Rhodin Journal: PLoS One Date: 2019-08-13 Impact factor: 3.240
Authors: Filipe M Serra Bragança; Elin Hernlund; Maj H Thomsen; Nina M Waldern; Marie Rhodin; Anna Byström; P René van Weeren; Michael A Weishaupt Journal: Equine Vet J Date: 2020-09-24 Impact factor: 2.888
Authors: Jael B Pitts; Joanne Kramer; Shannon K Reed; Paul Schiltz; Lori Thombs; Kevin G Keegan Journal: PLoS One Date: 2020-02-18 Impact factor: 3.240