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by Keyword: Bacteria growth inhibition

Fontana-Escartin, Adrian, El Hauadi, Karima, Perez-Madrigal, Maria M, Lanzalaco, Sonia, Turon, Pau, Aleman, Carlos, (2024). Mechanical and ex-vivo assessment of functionalized surgical sutures for bacterial infection monitoring European Polymer Journal 212, 113050

Surgical sutures are long-established medical devices that play an important role closing and healing damaged tissues and organs postoperatively. However, current commercial sutures are not able to detect infections at the wound site, which are quite frequent after surgery. In this work, we present mechanically stable smart sutures for the real-time monitoring of bacterial growth and biofilm formation. For this purpose, a conducting polymer named poly(3,4-ethylenedioxythiophene) (PEDOT), which is able to detect bacteria metabolites, was implemented as a coating onto commercial biostable sutures. A protecting hydrogel layer with adhesive properties, which was made of polydopamine-polyacrylamide (PDA-PAM), was used to prevent the detachment of the sensing coating of PEDOT upon looping and knotting the suture. The protective hydrogel preserved not only the knot mechanical properties of the suture but also the electrochemical response of the PEDOT-coating and, therefore, its ability to detect NADH from bacteria respiration. Ex-vivo assays using sutured swine intestine samples demonstrated that the suture with the PDA-PAM hydrogel layer detects the growth of bacteria in real tissues. As a proof of concept, sutures coated with PEDOT and protected with PDA-PAM were used to inhibit the local growth of bacteria in sutured intestines by applying controlled electrostimuli. Results evidenced that smart electro-responsive sutures can be used as multi-task devices focused on fighting bacterial infections, meaning not only monitoring but also hampering bacteria growth.

JTD Keywords: 4-ethylenedioxythiophene), Bacteria growth detection, Bacteria growth inhibition, Multi-task biomedical devices, Nanoparticles, Pape, Poly(3, Polydopamine-polyacrylamide, Sensor, Smart suture