AASCRYL PLUS – Polyglactin Triclosan-Coated Sutures
AASCRYL PLUS is an advanced synthetic absorbable braided suture made from Polyglactin 910 and coated with Triclosan, an antibacterial agent designed to reduce microbial colonization on the suture surface. This innovative design supports improved wound protection and helps reduce the risk of surgical site infections (SSI).
The braided structure of AASCRYL PLUS ensures superior knot security, flexibility, and reliable performance during surgical procedures. The Triclosan coating provides an additional layer of safety by inhibiting bacterial growth around the suture site, supporting a cleaner healing environment.
Designed for modern surgical needs, AASCRYL PLUS combines the dependable performance of Polyglactin sutures with antimicrobial protection. The suture maintains tensile strength during the critical healing phase and is absorbed gradually through hydrolysis, ensuring predictable and safe absorption.
Key Features
– Polyglactin 910 braided absorbable suture
– Coated with Triclosan for antibacterial protection
– Helps reduce microbial colonization
– Excellent knot security and handling
– Smooth tissue passage
– Predictable absorption profile
– Reduced risk of surgical site contamination
Indications
AASCRYL PLUS is suitable for:
– General surgery
– Gastrointestinal procedures
– Gynecological surgeries
– Orthopedic procedures
– Urological surgeries
– Procedures with higher infection risk
– Soft tissue approximation and ligation
Absorption Profile
– Tensile strength retention: Approximately 50–60% at 2–3 weeks
– Complete absorption: Typically within 56–70 days
Applications
AASCRYL PLUS is recommended in procedures where infection control is critical and antimicrobial protection is beneficial. Its antibacterial properties make it particularly valuable in contaminated or infection-prone surgical environments.
Manufactured under strict regulatory compliance, AASCRYL PLUS provides surgeons with reliable wound closure and enhanced protection against microbial colonization.