KAYA, C. S. Et Al. 2019. Intraoperative experiments combined with gait analyses indicate that active state rather than passive dominates the spastic gracilis muscle's joint movement limiting effect in cerebral palsy. CLINICAL BIOMECHANICS , vol.68 , 151-157.

KAYA, C. S., Bilgili, F., Akalan, N. E., Temelli, Y., Ates, F., & YÜCESOY, C. A., (2019). Intraoperative experiments combined with gait analyses indicate that active state rather than passive dominates the spastic gracilis muscle's joint movement limiting effect in cerebral palsy. CLINICAL BIOMECHANICS , vol.68, 151-157.

KAYA, CEMRE Et Al. "Intraoperative experiments combined with gait analyses indicate that active state rather than passive dominates the spastic gracilis muscle's joint movement limiting effect in cerebral palsy," CLINICAL BIOMECHANICS , vol.68, 151-157, 2019

KAYA, CEMRE S. Et Al. "Intraoperative experiments combined with gait analyses indicate that active state rather than passive dominates the spastic gracilis muscle's joint movement limiting effect in cerebral palsy." CLINICAL BIOMECHANICS , vol.68, pp.151-157, 2019

KAYA, C. S. Et Al. (2019) . "Intraoperative experiments combined with gait analyses indicate that active state rather than passive dominates the spastic gracilis muscle's joint movement limiting effect in cerebral palsy." CLINICAL BIOMECHANICS , vol.68, pp.151-157.

@article{article, author={CEMRE SU KAYA Et Al. }, title={Intraoperative experiments combined with gait analyses indicate that active state rather than passive dominates the spastic gracilis muscle's joint movement limiting effect in cerebral palsy}, journal={CLINICAL BIOMECHANICS}, year=2019, pages={151-157} }