This project aims to develop a biocompatible, adjustable, and easy-to-use microsurgical arterial anastomosis device that reduces operative time while preserving vessel integrity and minimizing complications.

Project Overview

Microsurgical arterial anastomosis is a cornerstone of reconstructive surgery, enabling tissue transfer and limb salvage. Current techniques are highly time consuming, technically demanding, and are highly dependent on surgeon expertise. Suturing vessels as small as 1 mm can take even the most experienced surgeons 30-60 minutes, extending operating times and jeopardizing tissue viability. Existing stent-based approaches introduce complications by contracting the vessel lumen and lack adaptability across the wide range of vessel diameters encountered in clinical practice. There is a critical need for a biocompatible, adjustable, and easy-to-use device that can reliably reduce operative time while maintaining vessel integrity and minimizing complications.

Team Picture

File

• Preliminary Presentation (February 6, 2026)

Progress Reports

• Week 3 (February 12, 2026)
• Week 2 (February 5, 2026)
• Week 1 (January 29, 2026)

Contact Information

Team Members

• Jackie Behring - Team Leader
• Arshiya Chugh - Communicator
• Daniel Pies - BSAC
• Sofia Decicco - BWIG
• Allison Rausch - BPAG
• Paul Schindler

Advisor and Client

• Prof. Darilis Suarez-Gonzalez - Advisor
• Dr. Jasmine Craig - Client
• Dr. Weifeng Zeng - Alternate Contact

Related Projects

• Spring 2026: Arterial coupler re-design: Adjustable stent/cuff anastomosis
• Fall 2025: Arterial coupler re-design: Adjustable stent/cuff anastomosis