Antitumoral materials with regenerative function obtained using a layer-by-layer technique

Denisa Ficai,¹ Maria Sonmez,^1,2 Madalina Georgiana Albu,² Dan Eduard Mihaiescu,¹ Anton Ficai,¹ Coralia Bleotu<sup>3

1</sup>Faculty of Applied Chemistry and Material Science, Politehnica University of Bucharest, ²Leather and Footwear Research Institute, National Research and Development Institute for Textiles and Leather, ³Stefan S Nicolau Institute of Virology, Romanian Academy, Bucharest, Romania

Abstract: A layer-by layer technique was successfully used to obtain collagen/hydroxyapatite-magnetite-cisplatin (COLL/HA_n-Fe₃O₄-CisPt, n=1–7) composite materials with a variable content of hydroxyapatite intended for use in the treatment of bone cancer. The main advantages of this system are the possibility of controlling the rate of delivery of cytostatic agents, the presence of collagen and hydroxyapatite to ensure more rapid healing of the injured bone tissue, and the potential for magnetite to be a passive antitumoral component that can be activated when an appropriate external electromagnetic field is applied. In vitro cytotoxicity assays performed on the COLL/HA_n-Fe₃O₄-CisPt materials obtained using a layer-by layer method confirmed their antitumoral activity. Samples with a higher content of hydroxyapatite had more antitumoral activity because of their better absorption of cisplatin and consequently a higher amount of cisplatin being present in the matrices.

Keywords: multifunctional materials, antitumoral activity, scaffold, bone grafts