The development of biomaterials endowed with bioactive features relies on a simultaneous insight into a proper terminal sterilization process. FDA recommendations on sterility of biomaterials are very strict: a sterility assurance level (SAL) of 10–6 must be guaranteed for biomaterials to be used in human implants. In the present work, we have explored the potential of supercritical CO2 (scCO2) in the presence of H2O2 as a low-temperature sterilization process for thermoset materials and their bioactive surfaces. Different conditions allowing for terminal sterilization have been screened and a treatment time–amount of H2O2 relationship proposed. The selected terminal sterilization conditions did not notably modify the mechanical properties of the thermoset nor of their fiber-reinforced composites. This was confirmed by μCT analyses performed prior to and after the treatment. On the contrary, terminal sterilization in the presence of H2O2 induced a slight decrease in the surface hardness. The treatment of the thermoset material with scCO2 led to a reduction in the residual unreacted monomers content, as determined by means of high performance liquid chromatography (HPLC) analyses. Finally, it was found that a thermoset coated with a polysaccharide layer containing silver nanoparticles maintained a very high antimicrobial efficacy even after the scCO2-based terminal sterilization.

Terminal sterilization of BisGMA-TEGDMA thermoset materials and their bioactive surfaces by supercritical CO2

DONATI, IVAN;BENINCASA, MONICA;TURCO, GIANLUCA;SOLINAS, DARIO;KIKIC, IRENEO;PAOLETTI, SERGIO
2012-01-01

Abstract

The development of biomaterials endowed with bioactive features relies on a simultaneous insight into a proper terminal sterilization process. FDA recommendations on sterility of biomaterials are very strict: a sterility assurance level (SAL) of 10–6 must be guaranteed for biomaterials to be used in human implants. In the present work, we have explored the potential of supercritical CO2 (scCO2) in the presence of H2O2 as a low-temperature sterilization process for thermoset materials and their bioactive surfaces. Different conditions allowing for terminal sterilization have been screened and a treatment time–amount of H2O2 relationship proposed. The selected terminal sterilization conditions did not notably modify the mechanical properties of the thermoset nor of their fiber-reinforced composites. This was confirmed by μCT analyses performed prior to and after the treatment. On the contrary, terminal sterilization in the presence of H2O2 induced a slight decrease in the surface hardness. The treatment of the thermoset material with scCO2 led to a reduction in the residual unreacted monomers content, as determined by means of high performance liquid chromatography (HPLC) analyses. Finally, it was found that a thermoset coated with a polysaccharide layer containing silver nanoparticles maintained a very high antimicrobial efficacy even after the scCO2-based terminal sterilization.
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11368/2537345
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