Publication detail

Self-hardening and thermoresponsive alpha tricalcium phosphate/pluronic pastes

MAAZOUZ, Y. MONTUFAR JIMENEZ, E. MALBERT, J. ESPANOL, M. GINEBRA, M.

Original Title

Self-hardening and thermoresponsive alpha tricalcium phosphate/pluronic pastes

Type

journal article in Web of Science

Language

English

Original Abstract

Although calcium phosphate cements (CPCs) are used for bone regeneration in a wide range of clinical applications, various physicochemical phenomena are known to hinder their potential use in minimally invasive surgery or in highly vascularized surgical sites, mainly because of their lack of injectability or their low washout resistance. The present work shows that the combination of CPCs with an inversethermoresponsive hydrogel is a good strategy for finely tuning the cohesive and rheological properties of CPCs to achieve clinical acceptable injectability to prevent phase separation during implantation and cohesion to avoid washout of the paste. The thermoresponsive CPC developed combines alphatricalcium phosphate with an aqueous solution of pluronic F127, which exhibits an inverse thermoresponsive behaviour, with a gelling transformation at around body temperature. These novel CPCs exhibited temperature-dependent properties. Addition of the polymer enhanced the injectability of the paste, even at a low liquid-to-powder ratio, and allowed the rheological properties of the cement to be tuned, with the injection force decreasing with the temperature of the paste. Moreover, the cohesion of the paste was also temperature-dependent and increased as the temperature of the host medium increased due to gelling induced in the paste. The thermoresponsive cement exhibited excellent cohesion and clinically acceptable setting times at 37 C, irrespective of the initial temperature of the paste. The addition of pluronic F127 slightly delayed the setting reaction in the early stages but did not hinder the full transformation to calcium-deficient hydroxyapatite. Moreover, the frozen storage of premixed thermoresponsive cement pastes was explored, the main physicochemical properties of the cements being maintained upon thawing, even after 18 months of frozen storage. This avoids the need to mix the cement in the operating theatre and allows its use off-the-shelf. The reverse thermoresponsive cements studied herein open up new perspectives in the surgical field, where the sequential gelling/hardening of these novel cements could allow for a better and safer clinical application.

Keywords

Calcium phosphate cement Injectability Cohesion Pluronic Thermoresponsive Hydroxyapatite

Authors

MAAZOUZ, Y.; MONTUFAR JIMENEZ, E.; MALBERT, J.; ESPANOL, M.; GINEBRA, M.

Released

1. 2. 2017

ISBN

1878-7568

Periodical

Acta Biomaterialia

Year of study

49

Number

1

State

United Kingdom of Great Britain and Northern Ireland

Pages from

563

Pages to

574

Pages count

12

BibTex

@article{BUT141922,
  author="Yassine {Maazouz} and Edgar Benjamin {Montufar Jimenez} and Julien {Malbert} and Montserrat {Espanol} and Maria-Pau {Ginebra}",
  title="Self-hardening and thermoresponsive alpha tricalcium phosphate/pluronic pastes",
  journal="Acta Biomaterialia",
  year="2017",
  volume="49",
  number="1",
  pages="563--574",
  doi="10.1016/j.actbio.2016.11.043",
  issn="1878-7568"
}