In Silico Analysis of Elastomer-Coated Cerclage for Reducing Sternal Cut-Through in High-Risk Patients

Author:

Subasi Omer1,Oral Atacan1,Torabnia Shams1,Erdogan Deniz1,Erdogan Mustafa Bilge2,Lazoglu Ismail1

Affiliation:

1. Manufacturing and Automation Research Center, Koc University, Istanbul 34450, Turkey

2. School of Medicine, Istinye University, Istanbul 34349, Turkey

Abstract

Abstract Background: AISI 316 L stainless steel wire cerclage routinely used in sternotomy closure causes lateral cut-through damage and fracture, especially in cases of high-risk patients, which leads to postoperative complications. A biocompatible elastomer (Pellethane®) coating on the standard wire is proposed to mitigate the cut-through effect. Methods: Simplified peri-sternal and transsternal, sternum-cerclage contact models are created and statically analyzed in a finite element (FE) software to characterize the stress-reduction effect of the polymer coating for thicknesses between 0.5 and 1.125 mm. The performance of the polymer-coated cerclage in alleviating the detrimental cortical stresses is also compared to the standard steel cerclage in a full sternal closure FE model for the extreme cough loading scenario. Results: It was observed via the simplified contact simulations that the cortical stresses can be substantially decreased by increasing the coating thickness. The full closure coughing simulation on the human sternum further corroborated the simplified contact results. The stress reduction effect was found to be more prominent in the transsternal contacts in comparison to peri-sternal contacts. Conclusions: Bearing in mind the promising numerical simulation results, it is put forth that a standard steel wire coated with Pellethane will majorly address the cut-through complication.

Publisher

ASME International

Subject

Physiology (medical),Biomedical Engineering

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1. Rigid fixation of the sternum: a comparative biomechanical study;Journal of the Brazilian Society of Mechanical Sciences and Engineering;2024-05-22

2. Review of Biomechanical Studies and Finite Element Modeling of Sternal Closure Using Bio-Active Adhesives;Bioengineering;2022-05-03

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