Biomimetic Porous Coatings on a Biocompatible Ti-15Mo Alloy as a Platform for Local Delivery of Anticancer Drugs to Patient Tissues
Svetlana Gatina, Ruzil Farrakhov, Alfiz Gareev, Azat Sabitov, Nariman A. Enikeev, Natalia Anisimova, Mikhail Kiselevskiy

TL;DR
Researchers developed a titanium alloy scaffold with a special coating that can slowly release the cancer drug cisplatin directly into patient tissues, reducing harm to healthy cells.
Contribution
A novel biomimetic porous coating on Ti-15Mo alloy is proposed for enhanced local cisplatin delivery with improved cytotoxicity.
Findings
The PS coating showed high porosity (17%), large pore size (3.9 μm), and thickness (17.4 μm).
The PS coating exhibited superior corrosion resistance in Ringer solution.
Cisplatin-loaded PS coatings showed over 3 times more effective tumor cell suppression than standard cisplatin solutions.
Abstract
Background and Objectives: Currently, the development of local drug delivery systems for the treatment of cancer patients is a pressing issue. Such systems allow for the targeted delivery of anticancer drugs directly to the tumor site, ensuring prolonged drug release or reducing the risk of recurrence after tumor removal, minimizing the impact on healthy tissues and thereby reducing the overall toxic load on the body. This work is devoted to evaluating the prospects of using scaffolds based on low-modulus titanium Ti-15Mo alloy with a biomimetic coating as a platform for the local administration of the cytostatic drug cisplatin into the patient’s body. Methods: Porous coatings were obtained by plasma electrolytic oxidation in an aqueous solution of sodium phosphate and calcium acetate with the addition of various components. The influence of coating parameters on the corrosion…
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Taxonomy
TopicsMagnesium Alloys: Properties and Applications · Titanium Alloys Microstructure and Properties · Bone Tissue Engineering Materials
