Evaluation of a novel 2 mm internal diameter stainless steel saphenous vein to coronary artery connector: Laboratory studies of on-pump and off-pump revascularization

Kenton J. Zehr, Chad E. Hamner, Luis F. Bonilla, Todd Berg, Rick Cornelius, Paul Hindrichs, Hartzell V Schaff

Research output: Contribution to journalArticle

6 Citations (Scopus)

Abstract

Objective: A second generation, 'easy-load', 2 mm internal diameter (ID), stainless steel, distal anastomotic device has been developed, and design improvements facilitate rapid connector loading with minimal magnification. The reduced size should allow application to most distal coronary vessels currently grafted. This technology may be useful in off-pump and minimally invasive surgical approaches to coronary revascularization. Methods: Two distinct models were used to evaluate the distal connector. In the first model, a single saphenous vein graft (SVG)-to-LAD procedure (n=18) was used to evaluate long-term patency of the 2 mm ID, stainless steel, distal connector in a chronic canine model. Cardiopulmonary bypass was initiated through an anterolateral thoracotomy. Aortosaphenous vein anastomoses were created using suture. In the second model, an acute off-pump feasibility study of SVG-to-LAD bypass fashioned with both proximal and distal connectors (n=15) was conducted. Aortosaphenous vein anastomoses were performed using a FDA approved vascular connector. Device loading and deployment times, graft blood flow following native LAD ligation, and device-related complications were compared. In the chronic model, the grafts were examined by angiography and gross and microscopic examination at animal sacrifice. Results: All 33 animals survived the procedures. All grafts were widely patent after a minimum 30 (n=8), 90 (n=5), and 180 days (n=5) in the chronic model. Distal graft loading and deployment times, graft blood flow rates, and device-related complications were similar in both procedures. In the off-pump feasibility study, total grafting time including loading and deployment was 10:54±2:54 min. Conclusions: Sutureless SVG-to-coronary artery bypass is feasible, rapid, and reproducible with on- and off-pump surgical techniques using a 2 mm ID, stainless steel, distal connector. In this model, early graft patency was 100% with either procedure, and grafts performed on-pump were widely patent at 30, 90, and 180 days. Few device-related complications occurred, each easily managed without compromising graft integrity, and the incidence of events was similar whether on- or off-pump techniques were employed. This or similar technologies may become an important addition to the management of coronary artery disease, particularly in off-pump or minimally invasive approaches.

Original languageEnglish (US)
Pages (from-to)925-934
Number of pages10
JournalEuropean Journal of Cardio-thoracic Surgery
Volume23
Issue number6
DOIs
StatePublished - Jun 1 2003

Fingerprint

Stainless Steel
Saphenous Vein
Coronary Vessels
Transplants
Equipment and Supplies
Feasibility Studies
Veins
Technology
Thoracotomy
Cardiopulmonary Bypass
Coronary Artery Bypass
Sutures
Ligation
Blood Vessels
Canidae
Coronary Artery Disease
Angiography

Keywords

  • Minimally invasive surgical procedures
  • Off-pump coronary artery bypass
  • Surgical anastomosis
  • Surgical equipment
  • Suture techniques

ASJC Scopus subject areas

  • Cardiology and Cardiovascular Medicine
  • Surgery

Cite this

Evaluation of a novel 2 mm internal diameter stainless steel saphenous vein to coronary artery connector : Laboratory studies of on-pump and off-pump revascularization. / Zehr, Kenton J.; Hamner, Chad E.; Bonilla, Luis F.; Berg, Todd; Cornelius, Rick; Hindrichs, Paul; Schaff, Hartzell V.

In: European Journal of Cardio-thoracic Surgery, Vol. 23, No. 6, 01.06.2003, p. 925-934.

Research output: Contribution to journalArticle

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abstract = "Objective: A second generation, 'easy-load', 2 mm internal diameter (ID), stainless steel, distal anastomotic device has been developed, and design improvements facilitate rapid connector loading with minimal magnification. The reduced size should allow application to most distal coronary vessels currently grafted. This technology may be useful in off-pump and minimally invasive surgical approaches to coronary revascularization. Methods: Two distinct models were used to evaluate the distal connector. In the first model, a single saphenous vein graft (SVG)-to-LAD procedure (n=18) was used to evaluate long-term patency of the 2 mm ID, stainless steel, distal connector in a chronic canine model. Cardiopulmonary bypass was initiated through an anterolateral thoracotomy. Aortosaphenous vein anastomoses were created using suture. In the second model, an acute off-pump feasibility study of SVG-to-LAD bypass fashioned with both proximal and distal connectors (n=15) was conducted. Aortosaphenous vein anastomoses were performed using a FDA approved vascular connector. Device loading and deployment times, graft blood flow following native LAD ligation, and device-related complications were compared. In the chronic model, the grafts were examined by angiography and gross and microscopic examination at animal sacrifice. Results: All 33 animals survived the procedures. All grafts were widely patent after a minimum 30 (n=8), 90 (n=5), and 180 days (n=5) in the chronic model. Distal graft loading and deployment times, graft blood flow rates, and device-related complications were similar in both procedures. In the off-pump feasibility study, total grafting time including loading and deployment was 10:54±2:54 min. Conclusions: Sutureless SVG-to-coronary artery bypass is feasible, rapid, and reproducible with on- and off-pump surgical techniques using a 2 mm ID, stainless steel, distal connector. In this model, early graft patency was 100{\%} with either procedure, and grafts performed on-pump were widely patent at 30, 90, and 180 days. Few device-related complications occurred, each easily managed without compromising graft integrity, and the incidence of events was similar whether on- or off-pump techniques were employed. This or similar technologies may become an important addition to the management of coronary artery disease, particularly in off-pump or minimally invasive approaches.",
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T2 - Laboratory studies of on-pump and off-pump revascularization

AU - Zehr, Kenton J.

AU - Hamner, Chad E.

AU - Bonilla, Luis F.

AU - Berg, Todd

AU - Cornelius, Rick

AU - Hindrichs, Paul

AU - Schaff, Hartzell V

PY - 2003/6/1

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N2 - Objective: A second generation, 'easy-load', 2 mm internal diameter (ID), stainless steel, distal anastomotic device has been developed, and design improvements facilitate rapid connector loading with minimal magnification. The reduced size should allow application to most distal coronary vessels currently grafted. This technology may be useful in off-pump and minimally invasive surgical approaches to coronary revascularization. Methods: Two distinct models were used to evaluate the distal connector. In the first model, a single saphenous vein graft (SVG)-to-LAD procedure (n=18) was used to evaluate long-term patency of the 2 mm ID, stainless steel, distal connector in a chronic canine model. Cardiopulmonary bypass was initiated through an anterolateral thoracotomy. Aortosaphenous vein anastomoses were created using suture. In the second model, an acute off-pump feasibility study of SVG-to-LAD bypass fashioned with both proximal and distal connectors (n=15) was conducted. Aortosaphenous vein anastomoses were performed using a FDA approved vascular connector. Device loading and deployment times, graft blood flow following native LAD ligation, and device-related complications were compared. In the chronic model, the grafts were examined by angiography and gross and microscopic examination at animal sacrifice. Results: All 33 animals survived the procedures. All grafts were widely patent after a minimum 30 (n=8), 90 (n=5), and 180 days (n=5) in the chronic model. Distal graft loading and deployment times, graft blood flow rates, and device-related complications were similar in both procedures. In the off-pump feasibility study, total grafting time including loading and deployment was 10:54±2:54 min. Conclusions: Sutureless SVG-to-coronary artery bypass is feasible, rapid, and reproducible with on- and off-pump surgical techniques using a 2 mm ID, stainless steel, distal connector. In this model, early graft patency was 100% with either procedure, and grafts performed on-pump were widely patent at 30, 90, and 180 days. Few device-related complications occurred, each easily managed without compromising graft integrity, and the incidence of events was similar whether on- or off-pump techniques were employed. This or similar technologies may become an important addition to the management of coronary artery disease, particularly in off-pump or minimally invasive approaches.

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KW - Minimally invasive surgical procedures

KW - Off-pump coronary artery bypass

KW - Surgical anastomosis

KW - Surgical equipment

KW - Suture techniques

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