Publication:
Fast curing multifunctional tissue adhesives of sericin-based polyurethane-acrylates for sternal closure

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Date

2022-09-06

Authors

Balcıoğlu, Sevgi
Noma, Samir Abbas Ali
Ulu, Ahmet
Karaaslan-Tunç, Merve Gokşin
Özhan, Onural
Koytepe, Süleyman
Parlakpınar, Hakan
Vardı, Nigar
Colak, Mehmet Cengiz
Ateş, Burhan

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Amer Chemical Soc

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Abstract

The use of wire cerclage after sternal closure is the standard method because of its rigidity and strength. Despite this, they have many disadvantages such as tissue trauma, operatorinduced failures, and the risk of infection. To avoid complications during sternotomy and promote tissue regeneration, tissue adhesives should be used in post-surgical treatment. Here, we report a highly biocompatible, biomimetic, biodegradable, antibacterial, and UV-curable polyurethane-acrylate (PU-A) tissue adhesive for sternal closure as a supportive to wire cerclage. In the study, PU-As were synthesized with variable biocompatible monomers, such as silk sericin, polyethylene glycol, dopamine, and an aliphatic isocyanate 4,4'-methylenebis(cyclohexyl isocyanate). The highest adhesion strength was found to be 4322 kPa, and the ex vivo compressive test result was determined as 715 kPa. The adhesive was determined to be highly biocompatible (on L929 cells), biodegradable, and antibacterial (on Escherichia coli, Pseudomonas aeruginosa, and Staphylococcus aureus bacteria). Finally, after opening the sternum of rats, the adhesive was applied to bond the bones and cured with UV for 5 min. According to the results, there was no visible inflammation in the adhesive groups, while some animals had high inflammation in the cyanoacrylate and wire cerclage groups. These results indicate that the adhesive may be suitable for sternal fixation by preventing the disadvantages of the steel wires and promoting tissue healing.

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Keywords

Median sternotomy, Bone adhesive, Wound infections, Cardiac-surgery, Skin closure, Prevention, Cyanoacrylate, Gentamicin, Cement, Glue, Bioadhesives, Uv-curable, Polyurethane-acrylate, Sternal closure, Sericin, Science & technology - other topics, Materials science

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