BACKGROUND: Adding soluble particulate poragens to antimicrobial-loaded bone cement increases the permeability of the bone cement and increases the antimicrobial release, but the mechanical effect of adding poragens is not well known. QUESTIONS/PURPOSES: We therefore asked the following questions: (1) Does the poragen fraction in antimicrobial-loaded bone cement affect its antimicrobial release? (2) Does poragen fraction in antimicrobial-loaded bone cement affect its compressive strength; and (3) Does the effect on compressive strength change over time in elution? METHODS: Antimicrobial-loaded bone cement made in the proportions of 40 g polymer powder, 20 mL monomer liquid, 1 g tobramycin powder and one of six different doses of poragen powder (0, 1, 2, 4, 8, or 16 g of particulate xylitol per batch) was formed into standardized test cylinders and eluted for 30 days. We determined the cumulative recovered tobramycin and the change in compressive strength over 30 days of elution. RESULTS: Antimicrobial release progressively increased with increasing poragen fraction. Compressive strength progressively decreased with increasing poragen fraction and with increasing time in elution. Poragen fractions greater than 2 g per batch caused the compressive strength to decrease below 70 MPa over 30 days of elution. CLINICAL RELEVANCE: The use of poragens can increase elution of antimicrobials from antimicrobial-loaded bone cement. However, for implant fixation, to avoid deleterious reduction of compressive strength, the amount of poragen that can be added in addition to 1 g of antimicrobial powder may be limited to 2 g per batch.
BACKGROUND: Adding soluble particulate poragens to antimicrobial-loaded bone cement increases the permeability of the bone cement and increases the antimicrobial release, but the mechanical effect of adding poragens is not well known. QUESTIONS/PURPOSES: We therefore asked the following questions: (1) Does the poragen fraction in antimicrobial-loaded bone cement affect its antimicrobial release? (2) Does poragen fraction in antimicrobial-loaded bone cement affect its compressive strength; and (3) Does the effect on compressive strength change over time in elution? METHODS: Antimicrobial-loaded bone cement made in the proportions of 40 g polymer powder, 20 mL monomer liquid, 1 g tobramycin powder and one of six different doses of poragen powder (0, 1, 2, 4, 8, or 16 g of particulate xylitol per batch) was formed into standardized test cylinders and eluted for 30 days. We determined the cumulative recovered tobramycin and the change in compressive strength over 30 days of elution. RESULTS: Antimicrobial release progressively increased with increasing poragen fraction. Compressive strength progressively decreased with increasing poragen fraction and with increasing time in elution. Poragen fractions greater than 2 g per batch caused the compressive strength to decrease below 70 MPa over 30 days of elution. CLINICAL RELEVANCE: The use of poragens can increase elution of antimicrobials from antimicrobial-loaded bone cement. However, for implant fixation, to avoid deleterious reduction of compressive strength, the amount of poragen that can be added in addition to 1 g of antimicrobial powder may be limited to 2 g per batch.
Authors: K K Mäkinen; C A Bennett; P P Hujoel; P J Isokangas; K P Isotupa; H R Pape; P L Mäkinen Journal: J Dent Res Date: 1995-12 Impact factor: 6.116
Authors: Morgan B Giers; Chris S Estes; Alex C McLaren; Michael R Caplan; Ryan McLemore Journal: Clin Orthop Relat Res Date: 2012-10 Impact factor: 4.176
Authors: Christopher E Nelson; Arnold J Kim; Elizabeth J Adolph; Mukesh K Gupta; Fang Yu; Kyle M Hocking; Jeffrey M Davidson; Scott A Guelcher; Craig L Duvall Journal: Adv Mater Date: 2013-12-16 Impact factor: 30.849
Authors: Shou-Cang Shen; Wai Kiong Ng; Zhilong Shi; Leonard Chia; Koon Gee Neoh; Reginald Beng Hee Tan Journal: J Mater Sci Mater Med Date: 2011-07-24 Impact factor: 3.896
Authors: Ali Salehi; Ashley Cox Parker; Gladius Lewis; Harry S Courtney; Warren O Haggard Journal: Clin Orthop Relat Res Date: 2013-10 Impact factor: 4.176
Authors: Alex McLaren; Morgan B Giers; James Fraser; Luke Hosack; Michael R Caplan; Ryan McLemore Journal: Clin Orthop Relat Res Date: 2014-11 Impact factor: 4.176