Artificial organs
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Early planned institution of temporary right ventricular assist device (RVAD) support with the CentriMag (Levitronix LLC, Waltham, MA, USA) in left ventricular assist device (LVAD) recipients was compared with permanent biventricular assist device (BVAD) or total artificial heart (TAH) support. Between 2007 and 2011, 77 patients (age range: 25-70 years) with preoperative evidence of biventricular dysfunction (University of Pennsylvania score >50; University of Michigan score >5) were included. Forty-six patients (38 men; median age 54.5 years, range: 25-70 years) underwent LVAD placement combined with temporary RVAD support (group A); in 31 patients (25 men; median age 56.7 years, range: 28-68 years), a permanent BVAD or TAH implantation (group B) was performed. ⋯ In group A, 1-year survival was 45.6% (n = 21) versus 45.1% (n = 14) in group B (P = 0.81). The strategy of planned temporary RVAD support in LVAD recipients showed encouraging results if compared with those of a similar permanent BVAD/TAH population. Weaning from and removal of the temporary RVAD support may allow patients to be on LVAD support only despite preoperative biventricular dysfunction.
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We performed robot-assisted thoracoscopic hybrid esophagectomy using the da Vinci Surgical System and demonstrated the potential benefit of this minimally invasive lymphadenectomy. Between April 2010 and October 2011, four patients with intrathoracic esophageal cancer underwent hybrid esophagectomy in the semi-prone position using a 3-arm standard da Vinci and a conventional thoracoscopic maneuver. ⋯ Robot-assisted thoracoscopic esophagectomy in the semi-prone position is safe and technically feasible. A hybrid procedure that combined standard da Vinci with conventional thoracosopic maneuvers overcomes the difficulties associated with using a standard da Vinci.
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Placement of a bicaval dual-lumen (BCDL) catheter demands sophisticated visualization in patients to assure proper positioning in order to administer single-site venovenous extracorporeal membrane oxygenation (VV ECMO). Large animal models are needed and thus appropriate procedures to assure anatomic and functional cannula placement would assist in experimental design and procedures. ⋯ Five consecutive common crossbred piglets had confirmation using this technique with assurances of cannulation while not significantly altering experimental time and procedures. Researchers studying VV ECMO in large animal models may want to consider this method of confirmation of BCDL catheter placement.