Litcius/Paper detail

An Accelerated Wound‐Healing Surgical Suture Engineered with an Extracellular Matrix

Agustina Setiawati, Dongyoon Jang, Daeyon Cho, Shin‐Gyu Cho, Hayan Jeong, Sung‐Min Park, Jungsug Gwak, Soo Ryeon Ryu, Won Hee Jung, Bong‐Gun Ju, Kwang‐Hwan Jung, Oh‐Sun Kwon, Kwanwoo Shin

2021Advanced Healthcare Materials32 citationsDOI

Abstract

A suture is a ubiquitous medical device to hold wounded tissues together and support the healing process after surgery. Surgical sutures, having incomplete biocompatibility, often cause unwanted infections or serious secondary trauma to soft or fragile tissue. In this research, UV/ozone (UVO) irradiation or polystyrene sulfonate acid (PSS) dip-coating is used to achieve a fibronectin (FN)-coated absorbable suture system, in which the negatively charged moieties produced on the suture cause fibronectin to change from a soluble plasma form into a fibrous form, mimicking the actions of cellular fibronectin upon binding. The fibrous fibronectin coated on the suture can be exploited as an engineered interface to improve cellular migration and adhesion in the region around the wounded tissue while preventing the binding of infectious bacteria, thereby facilitating wound healing. Furthermore, the FN-coated suture is found to be associated with a lower friction between the suture and the wounded tissue, thus minimizing the occurrence of secondary wounds during surgery. It is believed that this surface modification can be universally applied to most kinds of sutures currently in use, implying that it may be a novel way to develop a highly effective and safer suture system for clinical applications.

Topics & Concepts

FibronectinFibrous jointWound healingExtracellular matrixAdhesionSoft tissueSurgeryBiocompatibilityBiomedical engineeringMedicineChemistryMaterials scienceBiochemistryComposite materialOrganic chemistrySurgical Sutures and AdhesivesWound Healing and TreatmentsHemostasis and retained surgical items