Inci, I. Et Al. 2013. Gelatin cryogels crosslinked with oxidized dextran and containing freshly formed hydroxyapatite as potential bone tissue-engineering scaffolds. JOURNAL OF TISSUE ENGINEERING AND REGENERATIVE MEDICINE , vol.7, no.7 , 584-588.

Inci, I., Kirsebom, H., Galaev, I. Y., Mattiasson, B., & Piskin, E., (2013). Gelatin cryogels crosslinked with oxidized dextran and containing freshly formed hydroxyapatite as potential bone tissue-engineering scaffolds. JOURNAL OF TISSUE ENGINEERING AND REGENERATIVE MEDICINE , vol.7, no.7, 584-588.

Inci, Ilyas Et Al. "Gelatin cryogels crosslinked with oxidized dextran and containing freshly formed hydroxyapatite as potential bone tissue-engineering scaffolds," JOURNAL OF TISSUE ENGINEERING AND REGENERATIVE MEDICINE , vol.7, no.7, 584-588, 2013

Inci, Ilyas Et Al. "Gelatin cryogels crosslinked with oxidized dextran and containing freshly formed hydroxyapatite as potential bone tissue-engineering scaffolds." JOURNAL OF TISSUE ENGINEERING AND REGENERATIVE MEDICINE , vol.7, no.7, pp.584-588, 2013

Inci, I. Et Al. (2013) . "Gelatin cryogels crosslinked with oxidized dextran and containing freshly formed hydroxyapatite as potential bone tissue-engineering scaffolds." JOURNAL OF TISSUE ENGINEERING AND REGENERATIVE MEDICINE , vol.7, no.7, pp.584-588.

@article{article, author={Ilyas Inci Et Al. }, title={Gelatin cryogels crosslinked with oxidized dextran and containing freshly formed hydroxyapatite as potential bone tissue-engineering scaffolds}, journal={JOURNAL OF TISSUE ENGINEERING AND REGENERATIVE MEDICINE}, year=2013, pages={584-588} }