Background Among other preoperative parameters, extremely low or extremely high body mass index (BMI) has been discussed as a substantial risk factor for postoperative complications after cardiac surgery. However, the exact relationship between BMI and postoperative risk has not yet been defined. Methods We retrospectively investigated consecutive patients (n=22 666) who underwent coronary artery bypass grafting with or without concomitant valve surgery between 1990 and 2001 in our institution. A number of preoperative and intraoperative variables and BMI (as a quadratic term) were used in a logistic regression model as covariates. Further, the patients were divided into 20 groups each with an increase in BMI of 1 kg/m 2 (BMI as a categorical variable). The calculations of odds ratios (ORs) for re-intubation, infection, re-exploration, prolonged stay (>1 day) on the intensive care unit (ICU) and 30-day mortality were adjusted for age, gender and type of surgery. Results In the multivariate analysis only age (OR between 1.01 and 1.038, P<0.01), additional aortic valve (OR between 1.335 and 2.977, P<0.01) or mitral valve surgery (OR between 2.123 and 3.301, P<0.01) showed significant impact on all five endpoints. Patients with BMI between 25 and 35 kg/m 2 were not at elevated risk for any of the investigated end-points, except for infection. Patients with BMI between 21 and 27 kg/m 2 were not at elevated risk for infection. The ORs for postoperative complications were significantly higher in underweight patients compared with obese or severely obese patients, except those for infection. Further, the underweight patients presented significantly more comorbidity. Conclusion Patients with low BMI are at higher risk after cardiac surgery than obese or severely obese patients. We hypothesize that a preoperative focus on avoiding and/or reversing cachexia may be more efficacious than reducing obesity in reducing the overall risk associated with heart surgery.
We conclude that patients with highly impaired left ventricular function and ischemic mitral insufficiency are at too great a risk for either valve reconstruction or replacement. Cardiac transplantation should be considered for this patient group. However, patients with ischemic mitral insufficiency and moderately impaired left ventricular function can undergo valve reconstruction or replacement with an acceptable prognosis. The goal of mitral valve reconstruction should be reducing mitral valve insufficiency to at least grade I. If this is not achieved, the prognosis after repair is worse than after valve replacement, therefore, the surgeon should replace the valve without delay.
From July 1996 to March 2000, 391 patients with intraoperative cardiac low-output syndrome who underwent surgery with heart-lung bypass and had an intra-aortic balloon pump (IABP) implanted were analyzed in a prospective study. Of these 391 patients, 153 (39%) were operated on in an emergency situation, and 238 (61%) patients had elective surgeries. The perioperative mortality was 34% (133 patients). Clinical parameters were analyzed 1 hour after IABP support began. Statistical multivariate analysis showed that patients with an adrenaline requirement higher than 0.5 microg/kg/min, a left atrial pressure higher than 15 mmHg, output of less than 100 mL/hour, and mixed venous saturation (SvQ2) of less than 60% had poor outcomes. Using this data, we developed an IABP score to predict survival early after IABP implantation in cardiac surgery. We conclude that the success or failure of perioperative IABP support can be predicted early after implantation of the balloon pump. In patients with low-output syndrome despite IABP support, implantation of a ventricular assist system should be considered.
A crucial factor in tissue engineering of heart valves is the functional and physiologic scaffold design. In our current experiment, we describe a new fabrication technique for heart valve scaffolds, derived from x-ray computed tomography data linked to the rapid prototyping technique of stereolithography. To recreate the complex anatomic structure of a human pulmonary and aortic homograft, we have used stereolithographic models derived from x-ray computed tomography and specific software (CP, Aachen, Germany). These stereolithographic models were used to generate biocompatible and biodegradable heart valve scaffolds by a thermal processing technique. The scaffold forming polymer was a thermoplastic elastomer, a poly-4-hydroxybutyrate (P4HB) and a polyhydroxyoctanoate (PHOH) (Tepha, Inc., Cambridge, MA). We fabricated one human aortic root scaffold and one pulmonary heart valve scaffold. Analysis of the heart valve included functional testing in a pulsatile bioreactor under subphysiological and supraphysiological flow and pressure conditions. Using stereolithography, we were able to fabricate plastic models with accurate anatomy of a human valvular homograft. Moreover, we fabricated heart valve scaffolds with a physiologic valve design, which included the sinus of Valsalva, and that resembled our reconstructed aortic root and pulmonary valve. One advantage of P4HB and PHOH was the ability to mold a complete trileaflet heart valve scaffold from a stereolithographic model without the need for suturing. The heart valves were tested in a pulsatile bioreactor, and it was noted that the leaflets opened and closed synchronously under subphysiological and supraphysiological flow conditions. Our preliminary results suggest that the reproduction of complex anatomic structures by rapid prototyping techniques may be useful to fabricate custom made polymeric scaffolds for the tissue engineering of heart valves.
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