TY - JOUR
T1 - A Tunable Soft Silicone Bioadhesive for Secure Anchoring of Diverse Medical Devices to Wet Biological Tissue
AU - Singh, Manisha
AU - Teodorescu, Debbie L.
AU - Rowlett, Meagan
AU - Wang, Sophie X.
AU - Balcells, Mercedes
AU - Park, Clara
AU - Bernardo, Bruno
AU - Mcgarel, Sian
AU - Reeves, Charlotte
AU - Mehra, Mandeep R.
AU - Zhao, Xuanhe
AU - Yuk, Hyunwoo
AU - Roche, Ellen T.
N1 - Publisher Copyright:
© 2023 The Authors. Advanced Materials published by Wiley-VCH GmbH.
PY - 2024/1/18
Y1 - 2024/1/18
N2 - Silicone is utilized widely in medical devices for its compatibility with tissues and bodily fluids, making it a versatile material for implants and wearables. To effectively bond silicone devices to biological tissues, a reliable adhesive is required to create a long-lasting interface. BioAdheSil, a silicone-based bioadhesive designed to provide robust adhesion on both sides of the interface is introduced here, facilitating bonding between dissimilar substrates, namely silicone devices and tissues. The adhesive's design focuses on two key aspects: wet tissue adhesion capability and tissue-infiltration-based long-term integration. BioAdheSil is formulated by mixing soft silicone oligomers with siloxane coupling agents and absorbents for bonding the hydrophobic silicone device to hydrophilic tissues. Incorporation of biodegradable absorbents eliminates surface water and controls porosity, while silane crosslinkers provide interfacial strength. Over time, BioAdheSil transitions from nonpermeable to permeable through enzyme degradation, creating a porous structure that facilitates cell migration and tissue integration, potentially enabling long-lasting adhesion. Experimental results demonstrate that BioAdheSil outperforms commercial adhesives and elicits no adverse response in rats. BioAdheSil offers practical utility for adhering silicone devices to wet tissues, including long-term implants and transcutaneous devices. Here, its functionality is demonstrated through applications such as tracheal stents and left ventricular assist device lines.A silicone-based bioadhesive designed to create strong bonds between silicone devices and biological tissues is presented here. It combines wet tissue adhesion with long-term integration, transitioning from nonpermeable to permeable over time to facilitate cell migration. Experimental results demonstrate superior performance compared to commercial adhesives, with no adverse reactions observed in rats, promising versatile applications in medical device adhesion.image
AB - Silicone is utilized widely in medical devices for its compatibility with tissues and bodily fluids, making it a versatile material for implants and wearables. To effectively bond silicone devices to biological tissues, a reliable adhesive is required to create a long-lasting interface. BioAdheSil, a silicone-based bioadhesive designed to provide robust adhesion on both sides of the interface is introduced here, facilitating bonding between dissimilar substrates, namely silicone devices and tissues. The adhesive's design focuses on two key aspects: wet tissue adhesion capability and tissue-infiltration-based long-term integration. BioAdheSil is formulated by mixing soft silicone oligomers with siloxane coupling agents and absorbents for bonding the hydrophobic silicone device to hydrophilic tissues. Incorporation of biodegradable absorbents eliminates surface water and controls porosity, while silane crosslinkers provide interfacial strength. Over time, BioAdheSil transitions from nonpermeable to permeable through enzyme degradation, creating a porous structure that facilitates cell migration and tissue integration, potentially enabling long-lasting adhesion. Experimental results demonstrate that BioAdheSil outperforms commercial adhesives and elicits no adverse response in rats. BioAdheSil offers practical utility for adhering silicone devices to wet tissues, including long-term implants and transcutaneous devices. Here, its functionality is demonstrated through applications such as tracheal stents and left ventricular assist device lines.A silicone-based bioadhesive designed to create strong bonds between silicone devices and biological tissues is presented here. It combines wet tissue adhesion with long-term integration, transitioning from nonpermeable to permeable over time to facilitate cell migration. Experimental results demonstrate superior performance compared to commercial adhesives, with no adverse reactions observed in rats, promising versatile applications in medical device adhesion.image
KW - long term adhesion
KW - silicone devices
KW - tissue integration
KW - wet tissue adhesive
UR - https://www.webofscience.com/api/gateway?GWVersion=2&SrcApp=pure_univeritat_ramon_llull&SrcAuth=WosAPI&KeyUT=WOS:001112426500001&DestLinkType=FullRecord&DestApp=WOS_CPL
UR - http://www.scopus.com/inward/record.url?scp=85178451243&partnerID=8YFLogxK
U2 - 10.1002/adma.202307288
DO - 10.1002/adma.202307288
M3 - Article
C2 - 37865838
SN - 0935-9648
VL - 36
JO - Advanced Materials
JF - Advanced Materials
IS - 3
M1 - 2307288
ER -