2020 Publications

  • Akinnola OO, Vardakastani V, Kedgley AE. (2020). The effect of planar constraint on the definition of the wrist axes of rotation. Journal of Biomechanics,113, 110083. doi: 10.1016/j.jbiomech.2020.110083

  • Akinnola OO, Vardakastani V, Kedgley AE. (2020). Identifying tasks to elicit maximum voluntary contraction in the muscles of the forearm. Journal of Electromyography and Kinesiology, 55, 102463. doi: 10.1016/j.jelekin.2020.102463

  • Shah DS, Middleton C, Gurdezi S, Horwitz MD, Kedgley AE. (2020). The Effect of Surgical Treatments for Trapeziometacarpal Osteoarthritis on Wrist Biomechanics: A Cadaver Study. The Journal of Hand Surgery, 45(5), 389–398. doi: 10.1016/j.jhsa.2019.10.003

  • Shah DS, Horwitz MD, Kedgley AE. (2020). Extensor retinaculum excision does not affect wrist tendon forces: a cadaveric simulator study. Journal of Hand Surgery (European Volume), 45(9), 986–988. doi: 10.1177/1753193420928781

  • Nolte D, Ko S-T, Bull AMJ, Kedgley AE. (2020) Reconstruction of the lower limb bones from digitised anatomical landmarks using statistical shape modelling. Gait & Posture, 77, 269–275. doi: 10.1016/j.gaitpost.2020.02.010

  • Jones D, Wang L, Ghanbari A, Vardakastani V, Kedgley AE, Gardiner MD, Vincent TL, Culmer PR, Alazmani A. (2020) Design and Evaluation of Magnetic Hall Effect Tactile Sensors for Use in Sensorized Splints. Sensors, 20(4), 1123. MDPI AG. doi: 0.3390/s20041123

  • Rusli WMR & Kedgley AE. (2020) Statistical shape modelling of the first carpometacarpal joint reveals high variation in morphology. Biomechanics and modeling in mechanobiology, 19(4), 1203–1210. doi: 10.1007/s10237-019-01257-8

click on images to enlarge

A representative plot of the instantaneous helical axes (IHAs) (coloured axes) of the wrist during flexion-extension in the transverse (A), coronal (B), and sagittal (C) planes, as well as an isometric (D) view. The black vector is the screw displace

A representative plot of the instantaneous helical axes (IHAs) (coloured axes) of the wrist during flexion-extension in the transverse (A), coronal (B), and sagittal (C) planes, as well as an isometric (D) view. The black vector is the screw displacement axis that is derived from the IHAs.

Diagrammatic representation of safe zone measurement; indicating the arc and perimeter measurements with respect to the ECU tendon and distal ulna articular surface. ECU = extensor carpi ulnaris; K-wire = kirschner wires.

Diagrammatic representation of safe zone measurement; indicating the arc and perimeter measurements with respect to the ECU tendon and distal ulna articular surface. ECU = extensor carpi ulnaris; K-wire = kirschner wires.

Mean muscle forces of the APL, FCR, and ECU across 9 specimens during FE-5030 and RUD-15 in the intact specimens (dashed lines) and following trapeziectomy (solid lines). Error bars represent 1 SD. The asterisk (*) represents statistically significan

Mean muscle forces of the APL, FCR, and ECU across 9 specimens during FE-5030 and RUD-15 in the intact specimens (dashed lines) and following trapeziectomy (solid lines). Error bars represent 1 SD. The asterisk (*) represents statistically significant differences between trapeziectomy and intact cases (P < .01).