Scientific Publications Database
Article Title: Selected Heat-Sensitive Antibiotics Are Not Inactivated During Polymethylmethacrylate Curing and Can Be Used in Cement Spacers for Periprosthetic Joint InfectionAuthors: Carli, Alberto, V; Sethuraman, Arvinth S.; Bhimani, Samrath J.; Ross, Frederick P.; Bostrom, Mathias P. G.
Journal: JOURNAL OF ARTHROPLASTY Volume 33 Issue 6
Date of Publication:2018
Abstract:
Background: Antibiotic use in polymethylmethacrylate (PMMA) spacers has historically been limited to those which are heat-stable and thus retain their antimicrobial properties after exposure to the high temperatures which occur during PMMA curing.Methods: This study examines the requirement of heat stability by measuring temperatures of Palacos and Simplex PMMA as they cure inside commercial silicone molds of the distal femur and proximal tibia. Temperature probes attached to thermocouples were placed at various depths inside the molds and temperatures were recorded for 20 minutes after PMMA introduced and a temperature curve for each PMMA product was determined. A heat-stable antibiotic, vancomycin, and a heat-sensitive antibiotic, ceftazidime, were placed in a programmable thermocycler and exposed to the same profile of PMMA curing temperatures. Antimicrobial activity against Staphylococcus aureus was compared for heat-treated antibiotics vs room temperature controls.Results: Peak PMMA temperatures were significantly higher in tibial (115.2 degrees C) vs femoral (85.1 degrees C; P < .001) spacers. In the hottest spacers, temperatures exceeded 100 degrees C for 3 minutes. Simplex PMMA produced significantly higher temperatures (P < .05) compared with Palacos. Vancomycin bioactivity did not change against S aureus with heat exposure. Ceftazidime bioactivity did not change when exposed to femoral temperature profiles and was reduced only 2-fold with tibial profiles.Conclusion: The curing temperatures of PMMA in knee spacers are not high enough or maintained long enough to significantly affect the antimicrobial efficacy of ceftazidime, a known heat-sensitive antibiotic. Future studies should investigate if more heat-sensitive antibiotics could be used clinically in PMMA spacers. (C) 2018 Elsevier Inc. All rights reserved.