1. Sutures modified by incorporation of chlorhexidine and cinnamaldehyde: anti-Candida effect, bioavailability and mechanical properties
- Author
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Raphael Cavalcante COSTA, Yuri Wanderley CAVALCANTI, Ana Maria Gondim VALENÇA, and Leopoldina de Fátima Dantas de ALMEIDA
- Subjects
Sutures ,biology ,Polyglactin 910 ,Chemistry ,Chlorhexidine ,RK1-715 ,General Medicine ,biology.organism_classification ,Cinnamaldehyde ,Bioavailability ,chemistry.chemical_compound ,Saline solutions ,tensile strength ,Dentistry ,Candida albicans ,Ultimate tensile strength ,medicine ,Medicine ,drug liberation ,After treatment ,medicine.drug ,Nuclear chemistry - Abstract
Introduction Antimicrobial sutures are a therapeutic alternative for the control of oral infections. Objective Incorporate Chlorhexidine (CHX) and Cinnamaldehyde (CN) in sutures and evaluate the anti-Candida effect, release of antimicrobials and mechanical properties. Material and method Silk (S) and Polyglactin 910 (P) sutures were aseptically sectioned (20 mm) and immersed for incorporation in 0.12% CHX, 0.4% CN and 0.9% saline solutions under stirring for 60 minutes (n = 10 / group). Suspensions of 500 μL of Candida albicans (ATCC 90028/ 1 × 106 CFU/mL) were used to evaluate fungal adhesion after the 48 h period at 37°C. The release of CLX and CN were evaluated at 0, 24 and 48 hours (n=3/group) by UV-VIS spectrophotometer (275 nm). The tensile strength and displacement (n=5/group) were evaluated after incorporation (30 mm/min, 50N). Data were analyzed by Anova and Tukey (α = 5%). Result No anti-Candida effect was observed on S and P sutures incorporated with CLX and CN (p>0.05). However, progressive release was verified up to 48 after treatment with CLX (S = 0.075 / P = 0.073 μg/mL) and CN (S = 35.33 /P= 5.72 μg/mL). There was a decrease in tensile strength in S (CLX = 9.9 / CN = 9.9 N) and P (CLX = 14.4 / CN = 15.5 N) (p0.05). Conclusion The incorporation of CLX and CN did not have a positive effect on the biological and mechanical properties of the sutures evaluated.
- Published
- 2019
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