| Issue Date | Title | Author(s) |
| 2015-03 | Classification of gait disorders following traumatic brain injury. | Williams, Gavin; Morris, Meg; Lai, Daniel; Schache, Anthony |
| 2014-03 | Classification of gait disorders following traumatic brain injury. Poster. | Williams, Gavin; Lai, Daniel; Schache, Anthony; Morris, Meg |
| 2018-06 | Deficits in ankle joint mechanics during running can be resolved with rehabilitation in people with traumatic brain injury. | Williams, Gavin; Schache, Anthony |
| 2016-01 | The distribution of positive work and power generation amongst the lower-limb joints during walking normalises following recovery from traumatic brain injury. | Williams, Gavin; Schache, Anthony |
| 2010-05 | Evaluation of a conceptual framework for retraining high-level mobility following traumatic brain injury: two case reports | Williams, Gavin; Schache, Anthony |
| 2017-08 | In vivo six-degree-of-freedom knee-joint kinematics in overground and treadmill walking following total knee arthroplasty. | Feller, Julian; de Steiger, Richard; Guan, Shanyuanye; Gray, Hans; Schache, Anthony; Pandy, Marcus |
| 2009-04 | Incidence of gait abnormalities after traumatic brain injury. | Williams, Gavin; Morris, Meg; Schache, Anthony; McCrory, Paul |
| 2014-10 | Lower-limb muscular strategies for increasing running speed. | Schache, Anthony; Williams, Gavin; Dorn, Tim; Brown, Nicholas; Pandy, Marcus |
| 2013-09 | Mobility following TBI: relationships with ankle joint power generation and motor skill level. | Williams, Gavin; Schache, Anthony; Morris, Meg |
| 2010-07 | People preferentially inrease hip joint power generation to walk faster following traumatic brain injury. | Williams, Gavin; Morris, Meg; Schache, Anthony; McCrory, Paul |
| 2013-04 | Running abnormalities after traumatic brain injury. | Williams, Gavin; Schache, Anthony; Morris, Meg |
| 2013-09 | Self-selected walking speed predicts ability to run following traumatic brain injury. | Williams, Gavin; Schache, Anthony; Morris, Meg |
| 2011-02 | Training conditions influence walking kinematics and self selected walking speed in patients with neurological impairments. | Williams, Gavin; Morris, Meg; Schache, Anthony; Clark, Ross; Moore, Liz; Fini, Natalie; McCrory, Paul |
