Montoya A

Topography of cardiac ganglia in the adult human heart

Published descriptions of the topography of cardiac ganglia in the human heart are limited and present conflicting results. This study was carried out to determine the distribution of cardiac ganglia in adult human hearts and to address these conflicts. Hearts obtained from autopsies and heart transplant procedures were sectioned, stained, and examined. Results indicate that the largest populations of cardiac ganglia are near the sinoatrial and atrioventricular nodes. Smaller collections of ganglia exist on the superior left atrial surface, the interatrial septum, and the atrial appendage-atrial junctions. Ganglia also exist at the base of the great vessels and the base of the ventricles. The right atrial free wall, atrial appendages, trunk of the great vessels, and most of the ventricular myocardium are devoid of cardiac ganglia. These findings suggest modifications to surgical procedures involving incisions through regions concentrated with ganglia to minimize arrhythmias and related complications. Repairs of septal defects, valvular procedures, and congenital reconstructions, such as the Senning and Fontan operations, involve incisions through areas densely populated with cardiac ganglia. The current standard procedure for orthotopic heart transplantation severs cardiac ganglia and their projections to nodal and muscular tissue. One modification of the current heart transplantation procedure, involving bicaval anastomosis, preserves atrial anatomy and the cardiac ganglia. Preservation of cardiac ganglia within the donor heart may provide additional neuronal substrate for intracardiac processing and targets for regenerating nerve fibers to the donor heart.

Lung transplantation for advanced bronchioloalveolar carcinoma confined to the lungs.

BACKGROUND Bronchioloalveolar carcinoma (BAC) is a well-differentiated lung adenocarcinoma that has a tendency to spread chiefly within the confines of the lung by aerogenous and lymphatic routes and may therefore be amenable to local therapy. However, a high rate of local recurrence after lung transplantation was recently reported. We describe two patients with unresectable and recurrent extensive BAC limited to the lung parenchyma who underwent lung transplantation with curative intent. METHODS Patients were chosen to receive lung transplants for BAC if they met the following criteria: (1) recurrent or unresectable BAC limited to the lung parenchyma without nodal involvement and (2) suitable candidate for lung transplantation. RESULTS The first patient relapsed in the lungs at 9 months after transplantation. The pattern of disease suggested contamination of the new lungs at the time of implantation. Repeat lung transplantation was performed, with cardiopulmonary bypass and irrigation of the remaining upper airway. This patient has had no evidence of local or systemic tumor recurrence at more than 4 years since the second transplantation. The second patient underwent transplantation using the modified technique and expired 16 months after transplantation of other causes. An autopsy showed no evidence of recurrent BAC in the lungs or of metastatic lesions at any site. CONCLUSIONS Lung transplantation may be an option for unresectable or recurrent BAC confined to the lungs. Isolation of the diseased lungs and the use of cardiopulmonary bypass during surgery may be important in this disease and should be studied further.

Qualitative evaluation of coronary flow during anesthetic induction using thallium-201 perfusion scans.

Qualitative distribution of coronary flow using thallium-201 perfusion scans immediately postintubation was studied in 22 patients scheduled for elective coronary artery bypass surgery. Ten patients received a thiopental (4 mg/kg) and halothane induction. Twelve patients received a fentanyl (100 μg/kg) induction. Baseline thallium-201 perfusion scans were performed 24 h prior to surgery. These scans were compared with the scans performed postintubation. A thallium-positive scan was accepted as evidence of relative hypo-perfusion. Baseline hemodynamic and ECG data were obtained prior to induction of anesthesia. These data were compared with the data obtained postintubation. Ten patients developed postintubation thallium-perfusion scan defects (thallium-positive scan), even though there was no statistical difference between their baseline hemodynamics and hemodynamics at the time of intubation. There was no difference in the incidence of thallium-positive scans between those patients anesthetized by fentanyl and those patients anesthetized with thiopental-halothane. The authors conclude that relative hypoperfusion, and possibly ischemia, occurred in 45% of patients studied, despite stable hemodynamics, and that the incidence of these events was the same with two different anesthetic techniques.