S. Shafaat Et Al. , "A physiologically relevant, estradiol-17 beta [E2]-responsive in vitro tissue-engineered model of the vaginal epithelium for vaginal tissue research," NEUROUROLOGY AND URODYNAMICS , vol.41, pp.905-917, 2022
Shafaat, S. Et Al. 2022. A physiologically relevant, estradiol-17 beta [E2]-responsive in vitro tissue-engineered model of the vaginal epithelium for vaginal tissue research. NEUROUROLOGY AND URODYNAMICS , vol.41 , 905-917.
Shafaat, S., MANGIR, N., Chapple, C., MacNeil, S., & Hearnden, V., (2022). A physiologically relevant, estradiol-17 beta [E2]-responsive in vitro tissue-engineered model of the vaginal epithelium for vaginal tissue research. NEUROUROLOGY AND URODYNAMICS , vol.41, 905-917.
Shafaat, Sarah Et Al. "A physiologically relevant, estradiol-17 beta [E2]-responsive in vitro tissue-engineered model of the vaginal epithelium for vaginal tissue research," NEUROUROLOGY AND URODYNAMICS , vol.41, 905-917, 2022
Shafaat, Sarah Et Al. "A physiologically relevant, estradiol-17 beta [E2]-responsive in vitro tissue-engineered model of the vaginal epithelium for vaginal tissue research." NEUROUROLOGY AND URODYNAMICS , vol.41, pp.905-917, 2022
Shafaat, S. Et Al. (2022) . "A physiologically relevant, estradiol-17 beta [E2]-responsive in vitro tissue-engineered model of the vaginal epithelium for vaginal tissue research." NEUROUROLOGY AND URODYNAMICS , vol.41, pp.905-917.
@article{article, author={Sarah Shafaat Et Al. }, title={A physiologically relevant, estradiol-17 beta [E2]-responsive in vitro tissue-engineered model of the vaginal epithelium for vaginal tissue research}, journal={NEUROUROLOGY AND URODYNAMICS}, year=2022, pages={905-917} }