Implantation of left ventricular assist device (LVAD) for arrhythmogenic right ventricular (RV) cardiomyopathy is challenging associated with small LV cavity, laterally dislocated LV apex, thin and fragile RV free wall. A 43-year-old male with more than 10 years of medical treatment developed congestive heart failure related to biventricular failure. Durable LVAD was indicated to prevent further deterioration of the RV function, which would be exacerbated by progression of LV dysfunction. To simulate surgery, we printed-out a 3D heart model based on enhanced CT scanning study to identify the optimal coring position in the LV apex, by which the inflow directs the mitral valve. We then found that the mini-cuff of the HeartMate3 should be fixed in the paper-thin RV free wall by the usual cuff-sewing method. In the surgery, after the coring as planned, 5 pairs of interrupted sutures on the medial side were passed from the luminal side of the LV and then to the mini-cuff, and the lateral side of the mini-cuff was fixed with a continuous sutures, not to sew into the RV wall. The surgery was completed without complications with a good hemodynamics. The 3D heart model facilitated this unique method, indicating a usefulness of printed-out heart model for cases with unusual cardiac anatomy, which needs implantation of durable LVAD.
Keywords: 3D Printing; Arrhythmogenic right ventricular cardiomyopathy; HeartMate3; LVAD.
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