Biventricular repair of double outlet right ventricle with non-committed ventricular septal defect (VSD) by VSD rerouting to the pulmonary artery and arterial switch.

OBJECTIVES: Biventricular repair of double outlet right ventricle non-committed ventricular septal defect (DORVncVSD) is usually achieved by a VSD rerouting to the aorta. This technique can be limited by the presence of tricuspid chordae and by the pulmonary artery to tricuspid valve distance. Furthermore, there is an important risk of late subaortic obstruction related to the long patch required that creates a potential akinetic septal area. Presented here is another technique; by VSD rerouting to the pulmonary infundibulum and arterial switch. METHODS: Ten patients, with DORVncVSD, underwent a VSD rerouting to the pulmonary infundibulum followed by arterial switch. Seven had a previous pulmonary artery banding and one a moderate infundibular stenosis. The median age at surgery was 16 months (range 3 weeks to 4.5 years). All patients had a bilateral infundibulum, with a large persistent subaortic conus, D malposition of the aorta, side-by-side vessels and double loop coronary patterns. The VSD was perimembranous with inlet or trabecular extension. Subaortic obstruction was constant. The VSD was severely distant from both the aortic and the pulmonary annulus. The operation was conducted through a combined approach. The VSD was constantly enlarged superiorly. The almost permanent subaortic obstruction was released. The VSD was always found quite close to the pulmonary infundibular ostium. The arterial switch technique was adapted to the complex coronary anatomy. RESULTS: There was one non-cardiac death. At a mean follow-up of 20 months, all nine survivors are in NYHA class I, in sinus rhythm, and have no subaortic gradient greater than 15 mm. CONCLUSION: This technique of VSD rerouting to the pulmonary artery and arterial switch limits greatly the size of the rerouting patch, respects the tricuspid chordae and is independent of the pulmonary artery-tricuspid valve distance. In this early series of biventricular repair of DORVncVSD, the VSDs were always found close to the pulmonary artery, allowing this new type of repair.

Atrial flap anastomosis: an alternative technique for orthotopic heart transplantation.

To combine the advantages of the standard technique and the bicaval technique of orthotopic heart transplantation, we use a muscular flap of recipient heart right atrium for connecting the superior vena cava with the donor heart right atrium. The results in respect to the maintenance of atrioventricular valve competence as well as atrial conduction are promising.

[Transmyocardial laser revascularization--a treatment option for coronary heart disease?]. / Transmyokardiale Laserrevaskularisation--Behandlungsoption der koronaren Herzerkrankung?

Transmyocardial laser revascularization (TMR) is a new therapeutic principle for patients with coronary artery disease and no possibility of conventional revascularization with CABG or PTCA. The clinical value of the method is not known. Therefore we investigated all 46 patients treated with sole TMR in our center using clinical investigation, LV and coronary angiography, right heart catheterization, MIBI perfusion imaging and myocardial FDG-PET pre- and 6 months post TMR. 117 patients judged not suitable for conventional revascularization procedures were submitted for TMR. The indication for the procedure was reevaluated in every case. 52 patients (mean EF 41 +/- 16%) could be further treated by intensified anti-anginal medication, seven patients received bypass grafts, four patients had PTCA, three patients were listed for heart transplantation, and five patients had a combined CABG plus TMR. Only 46 (38% of the submitted patients, mean EF 55 +/- 15%) were accepted for sole TMR. CCS class of these patients was 3.3 +/- 0.4, mean age was 63.6 +/- 7.3 years, 70% were males. The postoperative mortality within 30 days was 5/46 (10.8%); 9/46 patients (19.5%) suffered from perioperative myocardial infarction. Other complications were ventricular fibrillation in two cases on the second postoperative day and a rupture of the spleen on the 14th postoperative day. 8/46 patients (17%) had wound infections. Survivors showed an improvement in their CCS class (1.9, 2.1, 1.9 after 3, 6 and 12 months, respectively, mean observation time 0.61 +/- 0.4 years). These patients were able to perform bicycle stress tests significantly longer (98 s +/- 9 pre versus 120 +/- 13 s post TMR, p = 0.01). Angiographic EF fell from 57.8% +/- 15% to 52.6% +/- 19% (p = 0.02) and the number of hypokinetic chords rose from 23.6 +/- 20.9% to 30.6 +/- 24.1% per patient (p = 0.008), predominantly in the inferior wall. Nuclear studies showed reduced myocardial perfusion and vitality after TMR. Four patients in the TMR group had reintervention (PTCA) because of progression of coronary sclerosis of native vessels. One patient had mitral valve replacement due to severe regurgitation. Kaplan-Meier analysis showed no significant difference in survival between the TMR and the medical group when stratified according to initial ejection fraction. Sudden death and congestive heart failure are the most important causes of mortality. Our data show that TMR improves symptoms and exercise performance of otherwise not treatable patients with diffuse coronary artery disease. Due to a lack of an improvement of cardiac perfusion, function or prognosis TMR should be used only in highly selected cases when conventional methods fail to improve patients symptoms.

Lack of successful reanimation of pig hearts harvested more than 10 minutes after death.

BACKGROUND: The aim of this study was to evaluate the viability of arrested pig hearts harvested after animal death. METHODS: Hearts (n = 25) were preserved for 2 hours by cold storage (4 degrees C) with St. Thomas' cardioplegic solution no warm ischemia (0 minutes; control) or 10, 20, 30, or 60 minutes of in situ warm ischemia (animal exsanguination). Hearts were then reperfused for 1 hour with whole blood with an in vitro functional testing system. Left ventricular developed pressure and coronary flow were measured during reperfusion. Energetic compound measurements and histologic analysis were performed on tissue biopsy specimens. RESULTS: After 10- and 20-minute warm ischemia, hearts showed a significant decrease in energetic compounds, a 51% and 73% decreases of left ventricular developed pressure, and 38% and 65% decreases in coronary flow, respectively. After 30 minutes hearts showed irreversible ischemic injury with ultrastructural tissue damage, a large decrease in energetic adenine nucleotide compounds, and an inability to beat more than 15 minutes after reperfusion. CONCLUSION: We conclude that in contrast with other species, pig hearts harvested 10 minutes or more after animal exsanguination fail to be successfully reanimated.

Importance of initial coronary artery flow after heart procurement to assess heart viability before transplantation.

BACKGROUND: The objective of this study was to evaluate different tests of heart viability in a pig model of warm ischemia. METHODS AND RESULTS: Pig hearts (n = 30) were submitted to 0 (= group I), 10 (group II), 20 (group III), 30 (group IV), and 60 (group V) minutes of in situ warm ischemia (animal exsanguination). Hearts were removed, then flushed with cardioplegic solution for 3 minutes at a fixed pressure of 60 cm H2O, and edema formation, initial coronary flow, and ionic composition (Na+, K+, and Ca++) of coronary sinus effluent were evaluated. Hearts were then stored for 2 hours in a cold (4 degrees C) preservation solution. Myocardial biopsies (and evaluation of energetic index) were performed, then the hearts were reperfused for 30 minutes with whole blood with an in vitro functional testing system. No edema occurred during cardioplegic flush in the hearts in groups I through IV, but a 37 +/- 11% weight increase (P < .001) occurred in hearts in group V. There was a progressive decrease in initial coronary flow with the increase in the duration of warm ischemia (70 +/- 14 mL/min per 100 g of tissue in group I and 52 +/- 9, 41 +/- 16, 25 +/- 11, and 23 +/- 5 mL/min per 100 g, respectively, in groups II through V (P < .01 to P < .001 versus group I). Initial coronary flow was positively correlated with the energetic index (r = .84, P < .001), and the left ventricle developed pressure at reperfusion (r = .90, P < .001). Finally, there were significant differences between hearts in the control group and those in group V for calcium and sodium release (lower in the control group; P < .001 and P < .01, respectively) and for potassium removal (lower in group V, P < .05). CONCLUSIONS: These data suggest that early measurement of coronary flow after removal of the heart may help to assess heart viability before transplantation. This approach may provide a comprehensive clinical evaluation to increase the number of hearts available for transplantation among those that are rejected in the absence of accurate criteria of viability.

Comparison of different techniques of hypothermic pig heart preservation.

The aim of this study was to compare several methods of hypothermic heart preservation. Isolated pig hearts were preserved for 24 hours in cold cardioplegic solution (St. Thomas' Hospital modified solution) by continuous perfusion (group I), microperfusion (group II), or simple storage (group III). The findings were then compared with those from hearts harvested and immediately reperfused (the control group). Group III hearts showed lower adenosine triphosphate preservation (0.47 +/- 0.18 mumol/g) than did group I and II hearts and the control hearts (1.86 +/- 0.40, 1.98 +/- 0.27, and 1.84 +/- 0.55 mumol/kg, respectively). Electronic microscopy studies also revealed that the myocardial cells in the group III hearts appeared to be damaged. After the hearts had undergone preservation, myocardial function was studied for 60 minutes under nonworking conditions using an ex vivo functional testing system. For group III, the mean left ventricular developed pressure and ventricular compliance (16 +/- 22 and 63 +/- 48 mm Hg, respectively) differed significantly from those for group I (83 +/- 26 and 0 +/- 0 mm Hg, respectively), group II (83 +/- 33 and 14 +/- 18 mm Hg, respectively), and the control group (115 +/- 13 and 0 +/- 0 mm Hg, respectively). We concluded from our findings that perfusion methods are superior to cold storage but inadequate to maintain heart viability for the long term during hypothermia. These techniques must be improved before they can be adopted for clinical use.

Comparison of continuous microperfusion and cold storage for pig heart preservation.

The aim of this study was to compare two methods of hypothermic heart preservation. Isolated hearts of pigs were preserved in cold cardioplegic solution (St. Thomas Hospital solution) either by simple storage or continuous microperfusion (with a new perfusion device) for 6 hours (group I, n = 12), 12 hours (group II, n = 12) and 24 hours (group III, n = 12). After storage, the myocardial function was studied for 60 minutes under nonworking conditions with an ex vivo functional testing system. Hearts preserved 24 hours by cold storage (group III) showed ventricular compliance and mean spontaneous left ventricular developed pressure significantly lower than hearts preserved by microperfusion (respectively, 63 +/- 47 versus 14 +/- 18 mm Hg and 16.8 +/- 22.0 versus 83 +/- 33 mm Hg). After 12 hours (group II) of preservation, mean left ventricular developed pressure was higher in microperfused hearts compared to immersed hearts (respectively, 133.3 +/- 39.0 versus 83.1 +/- 27.0 mm Hg, p < 0.05), whereas after 6 hours of preservation, no functional difference was observed between the microperfused and the immersed hearts. Hearts were also studied using myocardial biopsy specimens taken at the end of the preservation. The biopsy specimens were analyzed for high-energy phosphates. After 6 hours of preservation, the microperfusion group showed higher levels of adenosine triphosphate and total adenine nucleotides (adenosine triphosphate + adenosine diphosphate + adenosine monophosphate) (respectively, 4.60 +/- 0.5 mumol/gm and 5.98 +/- 0.5 mumol/gm fresh tissue) versus the cold storage group (respectively, 3.10 +/- 0.4 mumol/gm and 3.75 +/- 0.4 mumol/gm).(ABSTRACT TRUNCATED AT 250 WORDS)

Hypothermic preservation of the rat heart. Comparison of immersion and low-flow perfusion methods: contribution of 31P-NMR spectroscopy.

Comparison of rat heart preservation by simple storage in a cardioplegic solution at 4 degrees C (6 hr for group I; 15 hr for group II) and by hypothermic low-flow perfusion of the same solution (0.3 ml min-1, 15 hr: group III) was performed by measuring biochemical and functional parameters and by collecting 31P-NMR spectroscopy data. When compared to control values, adenine nucleotide levels remained unchanged in group I hearts, while glycogen was 45% hydrolyzed and lactate level increased by 700%. Extension of heart immersion to 15 hr (group II) led to breakdown of ATP (-77%), of the sum of adenine nucleotides (-27%), and of glycogen (-77%), whereas lactate accumulation reached 900% of the control value. Functional recovery, measured at the end of a 60-min reperfusion was less than 10% in group II hearts when compared to group I hearts. This dramatic development was completely avoided by hypothermic low-flow perfusion (group III). 31P-NMR data showed that phosphocreatine was completely degraded in all groups of preserved hearts. Low-flow perfusion limited cellular acidosis. The ATP/Pi (Pi = inorganic phosphate) ratio calculated from NMR data was lower for group II hearts (0.04 +/- 0.01, n = 6) than for group I hearts (0.29 +/- 0.12; n = 6) or group III hearts (0.19 +/- 0.09; n = 6) and could constitute a convenient bioenergetic index to predict the capability of the heart to recover satisfactory contractility following a preservation period.

[Surgical treatment of critical valvular aortic stenosis in neonates and infants based on echocardiographic diagnosis]. / Ujszülött- és csecsemökori kritikus valvularis aorta stenosis sebészi kezelése echocardiographiás diagnosztika alapján.

The results of surgical intervention are reported in 10 cases of critical valvular aorta stenosis diagnosed with echocardiography in neonatal age and infancy. The significance of echocardiography (2-dimensional, M-mode, Doppler) which does not mean stress for the patient in critical state and provides correct diagnosis is emphasized. Correct diagnosis contributes to the performance of operation in appropriate time as well as the use of immediately performable and correct surgical technique is considered necessary. These are the first cases in Hungary where open heart operations have been carried out on the basis of echocardiography in neonatal age and infancy. The good results proved the adequacy of the solution.

Congenital vascular rings: surgical management of 111 cases.

Between October 1974 and May 1987, 111 congenital vascular rings were submitted to surgical correction. There were 83 infants (age: 5 days-12 months, median: 7 months; weight: 1.9-8.5 kg, median: 7.1 kg), and 28 children (age: 1-13 years, median: 3.5 years; weight: 7.5-48 kg, median: 26.5 kg). Patients were divided into five groups: (1) double patent aortic arch (44 cases), (2) double aortic arch with atresia in different parts of the left arch (36 cases), (3) right aortic arch with left ligamentum arteriosum (21 cases), (4) left aortic arch with aberrant right subclavian artery and truncus caroticus (8 cases), and (5) pulmonary artery sling (2 cases). We had no intraoperative mortality but in the postoperative period, 2 neonates died of severe bacterial infections of the respiratory tract.