Biocompatibility of Improved Beta Phase Titanium Copper Alloy for Intrauterine Gynaecological Application

Biocompatibility of Improved Beta Phase Titanium Copper Alloy for Intrauterine Gynaecological Application

  • Post by:
  • August 14, 2022
  • Comments off

The analytical study of the tissue biocompatibility status of intrauterine contraceptive beta phase Titanium Copper Alloy for gynecological application within the endometrium environment was investigated in comparative analysis with existing monoelement copper prototype Cu-T380(IUD).The biocompatibility assessment of the existing Cu-IUD380 evaluates problems of  fragmentation micro-structural load deformation – failure mode which cause expulsion phenomenon , tissue bio-corrosion  phenomenon, cell cytotoxicity phenomenon,  microbial pathogenic   skin rash reactions, Pelvic Inflammatory Disorders(PID) , with copper  allergenic cramp resulting in infection phenomenon. These adverse phenomenal effects of expulsion, corrosion, cytotoxicity and subsequent infection associated with copper Intrauterine Device necessitated the development of an optimally improved beta phase biomaterial alloy, Titanium Copper alloy (TiCu alloy). This research innovated the design and production of Beta((β) phase TiCu alloy in the categories of specimens; Ti0.5%Cu, Ti1.0%Cu, Ti2.0%Cu, Ti5.0%Cu, Ti10.0.0%Cu, Ti15.0%Cu and Ti17.0% Cu, using Copper element as the experimental control reference biomaterial. The Ti-Cu alloy specimens were produced by powder metallurgy technique in an inert environment. The biocompatibility of the manufactured samples was investigated by Cellular Adhesion Test and Mitochondria (MTT) Activity Test methods. Ti17%Cu recorded a higher cell viability of 155% and 0.029mg/L copper ion release which establish it (Ti-Cu) as a possible replacement to the existing prototype biomaterial (Cu-T380(IUD).

Keywords: Beta Phase Titanium Copper Alloy; Intrauterine Gynaecological Application; Biocompatibility

Authorship: Udeh O. U., Nwogbu C. C. and Nwogbu P. I. | FULL PDF

Categories: