Olivera, A.L.P., Alzapiedi, D.F., Solan, M.C., Karamanidis, K., Mileva, K.N. and James, D.C. (2020). Direct muscle electrical stimulation as a method for the in vivo assessment of force production in m. abductor hallucis. Journal of Biomechanics. 100, p. 109606.
Jones, GD, James, DC, Thacker, M, Perry, R and Green, DA (2019). Gait-Initiation Onset Estimation During Sit-to-Walk Comparing Healthy Individuals and Ambulatory Community-Dwelling Stroke Survivors. doi:10.18744/LSBU.002933
Mileva, K, Zaidell, L, James, DC, Bowtell, J, Pollock, RD, Newham, DJ and Sumners, DP (2019). Lower body acceleration and muscular responses to rotational and vertical whole-body vibration of different frequencies and amplitudes. Dose-Response. 17 (1).
Jones, GD, James, DC, Thacker, M and Green, DA (2018). Parameters that remain consistent independent of pausing before gait-initiation during normal rise-to-walk behaviour delineated by sit-to-walk and sit-to-stand-and-walk. PLoS ONE. 13 (10).
James, DC, Solan, MC and Mileva, KN (2018). Wide-pulse, high-frequency, low-intensity neuromuscular electrical stimulation has potential for targeted strengthening of an intrinsic foot muscle: a feasibility study. Journal of Foot and Ankle Research. 11.
McCrum, C, Oberländer, KD, Epro, G, Krauss, P, James, DC, Reeves, N and Karamanidis, K (2017). Loading rate and contraction duration effects on in vivo human Achilles tendon mechanical properties. Clinical Physiology and Functional Imaging. 38 (3), pp. 517-523.
Jones, GD, James, DC, Thacker, M and Green, DA (2016). Sit-to-stand-and-walk from 120% knee height: A novel approach to assess dynamic postural control independent of lead-limb. Journal of Visualized Experiments. 2016 (114).
Jones, GD, James, DC, Thacker, M, Jones, EJ and Green, DA (2016). Sit-to-walk and sit-to-stand-and-walk task dynamics are maintained during rising at an elevated seat-height independent of lead-limb in healthy individuals. Gait and Posture. 48 (July), pp. 226 - 229.
James, DC, Mileva, KN and Solan, MC (2015). 47 An acute session of high-frequency, low-intensity, wide-pulse electrical stimulation evokes fatigue adaptations in an intrinsic foot muscle. British Journal of Sports Medicine. 49 (Suppl).
James, DC, Chesters, T, Sumners, DP, Cook, DP, Green, DA and Mileva, KN (2012). Wide-pulse electrical stimulation to an intrinsic foot muscle induces acute functional changes in forefoot-rearfoot coupling behaviour during walking. International Journal of Sports Medicine. 34 (5), pp. 438-443.