A new beating-heart mitral and aortic valve assessment model with implications for valve intervention training.

Objectives: A thorough understanding of mitral and aortic valve motion dynamics is essential in mastering the skills necessary for performing successful valve intervention (open or transcatheter repair or replacement). We describe a reproducible and versatile beating-heart mitral and aortic valve assessment and valve intervention training model in human cadavers. Methods: The model is constructed by bilateral ligation of the pulmonary veins, ligation of the supra-aortic arteries, creating a shunt between the descending thoracic aorta and the left atrial appendage with a vascular prosthesis, anastomizing a vascular prosthesis to the apex and positioning an intra-aortic balloon pump (IABP) in the vascular prosthesis, cross-clamping the descending thoracic aorta, and finally placing a fluid line in the shunt prosthesis. The left ventricle is filled with saline to the desired pressure through the fluid line, and the IABP is switched on and set to a desired frequency (usually 60-80 bpm). Prerepair valve dynamic motion can be studied under direct endoscopic visualization. After assessment, the IABP is switched off, and valve intervention training can be performed using standard techniques. Results: This high-fidelity simulation model has known limitations, but provides a realistic environment with an actual beating (human) heart, which is of incremental value. The model provides a unique opportunity to fill a beating heart with saline and to study prerepair mitral and aortic valve dynamic motion under direct endoscopic visualization. Conclusions: The entire set-up provides a versatile beating-heart mitral and aortic valve assessment model, which may have important implications for future valve intervention training.

Assessment of the effect on blood loss and transfusion requirements when adding a polyethylene glycol sealant to the anastomotic closure of aortic procedures: a case-control analysis of 102 patients undergoing Bentall procedures.

BACKGROUND: The use of CoSeal(®), a polyethylene glycol sealant, in cardiac and vascular surgery for prevention of anastomotic bleeding has been subject to prior investigations. We analysed our perioperative data to determine the clinical benefit of using polyethylene glycol sealant to inhibit suture line bleeding in aortic surgery. METHODS: From January 2004 to June 2006, 124 patients underwent aortic surgical procedures such as full root replacements, reconstruction and/or replacement of ascending aorta and aortic arch procedures. A Bentall procedure was employed in 102 of these patients. In 48 of these, a polyethylene glycol sealant was added to the anastomotic closure of the aortic procedure (sealant group) and the other 54 patients did not have this additive treatment to the suture line (control group). RESULTS: There were no significant between-group differences in the demographic characteristics of the patients undergoing Bentall procedures. Mean EuroSCORES (European System for Cardiac Operative Risk Evaluation) were 13.7 ± 7.7 (sealant group) and 14.4 ± 6.2 (control group), p = NS. The polyethylene glycol sealant group had reduced intraoperative and postoperative transfusion requirements (red blood cells: 761 ± 863 versus 1248 ± 1206 ml, p = 0.02; fresh frozen plasma: 413 ± 532 versus 779 ± 834 ml, p = 0.009); and less postoperative drainage loss (985 ± 972 versus 1709 ± 1302 ml, p = 0.002). A trend towards a lower rate of rethoracotomy was observed in the sealant group (1/48 versus 6/54, p = 0.07) and there was significantly less time spent in the intensive care unit or hospital (both p = 0.03). Based on hypothesis-generating calculations, the resulting economic benefit conferred by shorter intensive care unit and hospital stays, reduced transfusion requirements and a potentially lower rethoracotomy rate is estimated at €1,943 per patient in this data analysis. CONCLUSIONS: The use of this polymeric surgical sealant demonstrated improved intraoperative and postoperative management of anastomotic bleeding in Bentall procedures, leading to reduced postoperative drainage loss, less transfusion requirements, and a trend towards a lower rate of rethoracotomy. Hypothesis-generating calculations indicate that the use of this sealant translates to cost savings. Further studies are warranted to investigate the clinical and economic benefits of CoSeal in a prospective manner.