Highly Adhesive Phenolic Compounds as Interfacial Primers for Bone Fracture Fixations

Citations Over TimeTop 10% of 2010 papers

Abstract

Bone fractures are today stabilized with screws and metal plates. More complicated fractures require alternative treatments that exclude harsh surgical conditions. By adapting the benign and UV initiated thiol-ene reaction, we efficiently fabricated triazine-based, fiber-reinforced adhesive patches within 2 s. To enhance their bone adhesion properties, we found that a pre-treatment step of bone surfaces with phenolic dopamine and poly(parahydroxystyrene) compounds was successful. The latter display the greatest E-module of 3.4 MPa in shear strength. All patches exhibited low cytotoxicity and can therefore find potential use in future treatments of bone fractures.

Related Papers

• → Effect of Combined Environmental Factors on Adhesive Shear Strengths and Chemical Structures of Adhesives(2011)2 cited
• The Measurement of Heat Decomposition Dynamics of the Adhesive in Adhesive-PI Joints(2010)
• Research Progress of Room Temperature Cured Heat-resistant Adhesive(2010)
• Progress in the adhesive for PE(2005)
• Evaluation of factors on the adhesive properties of carbopol-HPMC adhesive tablets(2002)