Surgical Technique for Korean Artificial Heart(AnyHeart) Implantation Using a Right Thoracotomy Approach.
- Author:
Ho Sung SON
1
;
Kyung SUN
;
Jae Seung SHIN
;
Sung Ho LEE
;
Jae Seung JUNG
;
Hye Won LEE
;
Kwang Taik KIM
;
Seung Chul KIM
;
Yong Soon WON
;
Byoung Goo MIN
;
Hyoung Mook KIM
Author Information
1. Department of Thoracic and Cardiovascular Surgery / Anesthesiology, Korea University, Korea. ksunmd@kumc.or.kr
- Publication Type:Original Article
- Keywords:
Surgeny method;
Heart assist device;
Heart, artificial
- MeSH:
Animals;
Aorta;
Brachiocephalic Trunk;
Catheterization;
Catheters;
Drainage;
Heart;
Heart, Artificial;
Humans;
Learning Curve;
Mortality;
Pulmonary Artery;
Sternotomy;
Survivors;
Thoracic Surgery;
Thoracotomy*;
Thorax;
Transplants;
Wounds and Injuries
- From:The Korean Journal of Thoracic and Cardiovascular Surgery
2002;35(5):329-335
- CountryRepublic of Korea
- Language:Korean
-
Abstract:
BACKGROUND: The surgical technique for biventricular assist device(BVAD) implantation has mainly consisted of cannulation procedures. A median sternotomy has been the technique of choice as it gives a surgeon an excellent exposure of the heart. However, considering that most patients require a future sternotomy or already have a previous sternotomy, sternotomy-related complication remains a major concern in BVAD implantation. Based on this consideration as well as the clinical experiences of conventional heart surgery, the authors have hypothesized that the cardiac chambers for BVAD cannulation can be approached from the right side of the heart. The purpose of this study to develop a novel surgical technique of right thoracotomy for BVAD implantation in an animal study. MATERIAL AND METHOD: For last two years, 16 (11 calves, 3 canines, and 2 sheep) out of 30 experimental animals with AnyHeart implantation underwent a right thoracotomy. The device was used as an implantable BVAD in 14 animals, a wearable BVAD in 1, and an implantable LVAD in 1. The chest cavity was entered through the 4th intercostal space or the 5th periosteal bed. As for the BVAD use, a right inflow cannula was inserted into the right atrial free wall and a right outflow cannula was grafted onto the main pulmonary artery. A left inflow cannula was inserted into the interatrial groove and a left outflow cannula was grafted on the innominate artery of the ascending aorta. The connecting tubeswere brought out through the thoracotomy wound and connected to the pump located in the subcutaneous pocket at the right flank. RESULT: Except for the 5 animals for a fitting test or during the early learning curve, all recovered smoothly from the procedures. The inflow drainage allowed the pump output 6.5 L/min at the maximum with 3-3.5 L/min in an average. Of the survivors, there noted no procedure-related mortality or morbidity. Necropsy findings demonstrated the well-positioned cannula tips in the each cardiac chamber. CONCLUSION: The technique of right thoracotomy approach in AnyHeart implantation is simple, safe, and reproducible. As it can avoid sternotomy-orresternotomy-related complications, the authors suggest a right thoracotomy approach as one of the techniques for BVAD implantation. The technique would also be suggested as an alternatitve for a median sternotomy in a certain group of patients with various VAD implantations.
