Mesoporous titania coatings with carboxylated pores for complexation and slow delivery of strontium for osteogenic induction

ESCOBAR, ANE; MUZZIO, NICOLÁS E.; MARTÍNEZ-VILLACORTA, ÁNGEL M.; ABARRATEGI, ANDER; BINDINI, ELISA; GRZELCZAK, MAREK; BORDONI, ANDREA V.; ANGELOMÉ, PAULA C.; MOYA, SERGIO E.

APPLIED SURFACE SCIENCE

ELSEVIER SCIENCE BV

Año: 2020 vol. 510 p. 145172 - 145172

0169-4332

The release of bioactive Strontium ions (Sr2+) from titanium implants has a positive impact on osseointegration. It is however challenging to achieve a slow Sr2+ release over weeks until tissue regeneration. A hybrid mesoporous titania film (MTF) displaying carboxylic moieties in pore walls has been developed here for encapsulation and slow delivery of Sr2+. Mesoporous films are prepared by Evaporation Induced Self-Assembly. Vinyltrimethoxysilanes are co-condensed during film assembly and vinyl groups of silanes are reacted with mercaptosuccinic acid resulting in pores displaying carboxylic groups. Modified MTFs are loaded with Sr2+, which is retained both as non-complexed ion in the pores and complexed to the carboxylic acid groups. The complexation of Sr2+ to the carboxylic groups is proven by X-ray Photoelectron Spectroscopy and Infrared Spectroscopy. Inductively Coupled Plasma Mass Spectrometry shows that the non-complexed Sr2+ is released from the pores in approximately one day while complexed Sr2+ is released slowly over one week. The released Sr2+ has a positive effect on MC3T3-E1 pre-osteoblastic cell proliferation and the Alkaline Phosphatase test shows that at 15 days of culture in osteogenic medium the differentiation is enhanced due to the slow release of Sr2+ complexed to carboxylates.