Philip C. Ursell

Electrophysiologic and anatomic basis for fractionated electrograms recorded from healed myocardial infarcts.

The electrophysiologic and anatomic basis for fractionated electrograms were investigated in superfused epicardial preparations from infarcted canine hearts. Fractionated bipolar electrograms were frequently recorded in preparations from infarcts 2 weeks to 18 months old but only rarely in preparations from 5-day-old infarcts. The fractionated electrograms were not caused by movement artifacts. They were not associated with depressed transmembrane resting or action potentials (which were found in the 5-day-old infarcts), but rather transmembrane potentials recorded in the vicinity of the bipolar electrodes were normal. Despite the normal transmembrane potentials, activation time in regions where fractionated electrograms occurred was prolonged. However, prolonged activation time by itself did not cause fractionation, since fractionated electrograms were not recorded from normal preparations in which conduction was markedly slowed by a superfusate containing 16 mM potassium and epinephrine. Unipolar electrograms recorded with glass microelectrodes (tip size 1 to 5 microns) showed that activation in regions where fractionated electrograms were recorded was inhomogeneous. Prepotentials were found preceding the upstrokes of some action potentials in regions where double potentials were recorded, suggesting the possibility of electrotonic transmission across high resistance or inexcitable gaps, but no electrotonic potentials were seen in regions with multicomponent fractionated electrograms. Fractionated electrograms were recorded in regions where infarct healing caused wide separation of individual myocardial fibers while distorting their orientation. The anatomic changes probably caused slow and inhomogeneous activation.

Structural and electrophysiological changes in the epicardial border zone of canine myocardial infarcts during infarct healing.

Structural and electrophysiological properties of the epicardial muscle which survives on the surface of transmural infarcts of the canine heart (epicardial border zone) were studied at different times after occlusion of the left anterior coronary artery (LAD). Isolated preparations were superfused in vitro, transmembrane potentials recorded, and impulse propagation mapped. In preparations from subacute infarcts (1 and 5 days), resting potential, action potential amplitude, upstroke velocity, and duration were all significantly reduced. Well-defined directional differences in propagation occurred. Propagation was more rapid in the direction perpendicular to the left anterior coronary artery than in the direction perpendicular to the base of the heart, because of the uniform anisotropic structure of the surviving muscle fibers which were arranged in tightly packed bundles oriented perpendicular to the left anterior coronary artery. The only ultrastructural abnormalities found in these muscle fibers was an accumulation of large amounts of lipid droplets. As the infarcts healed, resting potential, action potential amplitude, and upstroke velocity returned to normal by 2 weeks, although action potential duration decreased further. Lipid droplets had disappeared, and connective tissue had invaded the epicardial border zone, separating the muscle bundles. By 2 months, action potentials were normal, but the muscle fibers were widely separated and disoriented by the connective tissue (parallel bundles no longer were found). In these regions with a nonuniform anisotropic structure, the well-defined directional differences in impulse propagation were lost. However, activation was very slow, perhaps because of diminished connections between cells. The persistence of slow conduction in healed infarcts may contribute to the occurrence of chronic arrhythmias.

Diagnosis and Classification of Myocarditis by Endomyocardial Biopsy

Myocarditis was diagnosed by endomyocardial biopsy in 34 patients with otherwise unexplained heart failure. On the basis of both clinical and histologic findings these patients were divided into three groups. Seven patients had acute myocarditis (mean age, 20 years; mean ejection fraction, 22 per cent) characterized by an interstitial inflammatory infiltrate and extensive, acute cell damage. Five of these patients died after a mean duration of illness of eight weeks. Eighteen patients had rapidly progressive myocarditis (mean age, 35 years; mean ejection fraction, 19 per cent) characterized by patchy acute and healing cell damage and fibrosis; 17 of them died after a mean duration of illness of 23 months. Nine patients had chronic myocarditis (mean age, 31 years; mean ejection fraction, 31 per cent) characterized by focal inflammation and cell damage. All nine were alive after a mean follow-up period of 39 months. In four of these nine, clinical and hemodynamic improvement occurred after one month of immunosuppressive therapy. Our study suggests that a clinically useful classification of myocarditis can be accomplished by endomyocardial biopsy.

Ischemic Preconditioning Decreases Apoptosis in Rat Hearts In Vivo

BACKGROUND Previous studies have demonstrated that ischemic preconditioning prevents lethal cell injury and, as a consequence, limits infarct size in rat heart. Although both apoptosis and necrosis have been shown to contribute to myocardial cell death after myocardial ischemia and reperfusion, the ability of ischemic preconditioning to prevent programmed cell death remains unknown. METHODS AND RESULTS To test the hypothesis that ischemic preconditioning reduces irreversible ischemic injury in part by decreasing apoptosis, rats that underwent ischemic preconditioning and controls were subjected to 30 minutes of left coronary artery occlusion followed by 180 minutes of reperfusion. Ischemic preconditioning was achieved by five 5-minute cycles of ischemia, each followed by 5 minutes of reperfusion. Infarct size, determined by dual staining with triphenyltetrazolium chloride and phthalocyanine blue dye, was significantly reduced in preconditioned compared with nonpreconditioned rats (11.4+/-1.4% versus 58.7+/-1.4%; n=20 in each group; P<.001; infarct size/risk area). Genomic DNA from preconditioned hearts showed little or no oligonucleosome-sized fragments (200-bp multiples), whereas genomic DNA from nonpreconditioned hearts showed a typical nucleosome fragmentation. The TUNEL assay localized fewer and sparsely stained nuclei within the infarct zone of ischemic preconditioned hearts compared with nonpreconditioned hearts. Consistent with these findings, the number of cytosolic histone-associated low-molecular-weight DNA fragments was significantly decreased in preconditioned hearts compared with controls (0.17+/-0.02 versus 1.07+/-0.09 U; n=10 in each group; P<.001; absorbance 405 nm/490 nm). CONCLUSIONS This study suggests that ischemic preconditioning reduces irreversible ischemic injury in part by decreasing apoptosis after prolonged ischemia and reperfusion.

Genetic modification of prenatal lethality and dilated cardiomyopathy in Mn superoxide dismutase mutant mice.

Mn superoxide dismutase (MnSOD), a mitochondrial antioxidant enzyme, has been shown to be essential for animal survival. MnSOD mutant mice (Sod2-/- mice) on the CD1 background develop severe dilated cardiomyopathy and usually die within 10 d after birth. To characterize better the phenotype and understand the mechanism of superoxide-mediated tissue damage in Sod2-/- mice, congenic Sod2-/- mice on inbred backgrounds were generated to ensure genetic homogeneity. When generated on a C57BL/6J background (B6), more than half of the fetuses develop severe dilated cardiomyopathy by embryonic day 15 and die in the uterus. Those that survive to term usually die within 24 h. In contrast, Sod2-/- mice on DBA/2J (D2) and B6D2F1 (B6D2F1) backgrounds develop normally throughout gestation and do not develop dilated cardiomyopathy. However, the D2 mice do develop a severe metabolic acidosis and survive for only up to 12 d after birth. B6D2F1) mice have a milder form of metabolic acidosis and can survive for up to 3 weeks. The marked difference in lifespans and the development of dilated cardiomyopathy in the B6 but not the D2 or B6D2F1 backgrounds indicate the possible existence of genetic modifiers that provide protection to the developing hearts in the absence of MnSOD.

Heterogeneous Sympathetic Innervation in German Shepherd Dogs With Inherited Ventricular Arrhythmia and Sudden Cardiac Death

BACKGROUND Recently, a colony of German shepherd dogs with inherited spontaneous cardiac arrhythmias and associated sudden death has been developed and characterized. Due to the median age of onset of the arrhythmia (4.5 months), the tendency for the arrhythmia to occur during REM sleep or after exercise, and the absence of structural heart disease, we hypothesized a developmental abnormality of the sympathetic innervation to the heart. METHODS AND RESULTS We studied 11 dogs from this colony, ranging in age from 6 months to 6 years, and four 7-month-old German shepherd dogs unrelated to the colony as controls. We imaged the distribution of functional myocardial sympathetic innervation and perfusion with [123I]metaiodobenzylguanidine (MIBG) and 201Tl, respectively. Sympathetic nerve distribution was evaluated morphologically by immunocytochemical localization of tyrosine hydroxylase. All of the hearts showed evidence of a regional decrease in MIBG uptake, ranging from 5.3% to 53.4% of the myocardium, whereas control dogs showed homogeneous MIBG uptake. Immunocytochemical studies on sections from regions with decreased MIBG uptake showed a striking paucity of nerves compared with regions with normal MIBG uptake, confirming denervation. When the dogs were grouped into those with (n=6) and without (n=5) evidence of ventricular tachycardia on ambulatory ECG, the group with ventricular tachycardia showed 35+/-16.5% denervation, whereas the group without ventricular tachycardia showed 12+/-5.6% denervation (P<.02). CONCLUSIONS Abnormal heterogeneous sympathetic innervation exists in these dogs with inherited ventricular arrhythmia and sudden cardiac death. Mechanisms relating the presence and extent of regional denervation to the incidence of ventricular arrhythmia remain to be defined.

Anatomic and electrophysiologic relation between the coronary sinus and mitral annulus: Implications for ablation of left-sided accessory pathways

To determine whether precise left-sided accessory pathway localization is possible from the coronary sinus, electrocardiogram (ECG) characteristics from the coronary sinus pair demonstrating earliest activation via the accessory pathway were compared to simultaneous mitral annular ablation catheter ECGs at successful ablation sites in 48 patients. To define the coronary sinus-mitral annular relation, the coronary sinus to mitral annulus distance (D) was measured at sequential distances from the coronary sinus os in 10 cadaver hearts. Mitral annular ECGs demonstrated earliest activation via the accessory pathway more frequently than the earliest coronary sinus pair (p < 0.001), more frequent continuous electrical activity (p < 0.001), and more frequent accessory pathway potentials (p < 0.01). D was >10 mm at 20, 40, and 60 mm, respectively, from the coronary sinus os. Coronary sinus ECGs do not precisely localize left-sided accessory pathways, which may be due in part to an average anatomic separation of more than 10 mm between the coronary sinus and accessory pathways bridging the mitral annulus.

Clinical and pathologic risk factors for atherosclerosis in cirrhosis: A comparison between NASH-related cirrhosis and cirrhosis due to other aetiologies

BACKGROUND/AIMS The precise prevalence of risk factors for atherosclerosis in NASH-related cirrhosis is unknown. The aims of this study were: (1) to compare the prevalence of major risk factors for atherosclerosis between subjects who underwent liver transplantation for NASH-related cirrhosis and those with cirrhosis of other aetiologies and (2) to compare pathologic changes of atherosclerosis within the explants hepatic hilar arteries between the groups. METHODS Sixty subjects with NASH-related cirrhosis and 60 subjects with cirrhosis of other aetiologies were reviewed retrospectively. Demographic and clinical characteristics related to atherosclerosis were analyzed and compared. The hepatic hilar arteries of the explanted livers were examined for pathologic changes. RESULTS The prevalence of all coronary artery disease (CAD) risk factors and the metabolic syndrome was significantly higher in NASH-related cirrhosis group compared to cirrhosis of other aetiologies. The proportion of patients with a diagnosis of CAD was also significantly higher in the NASH-related cirrhosis group (21.6% vs. 5%, p=0.005). Pathological examination of hilar arteries showed possible atherosclerotic changes in only 4 cases (3 NASH-related cirrhosis; 1 HCV). CONCLUSIONS Major risk factors for atherosclerosis are significantly more prevalent in subjects with NASH-related cirrhosis than in subjects with cirrhosis of other aetiologies and are predictive of an increased prevalence of CAD. This study suggests that NASH-related cirrhosis is not protective against atherosclerosis.

Left atrial isomerism detected in fetal life

Left and right atrial isomerism, comprising congenital heart defects with disturbances in normal left-right asymmetry, are phenotypically distinct after birth, although animal models suggest a common embryologic origin. We postulated that the prenatal phenotype may indeed be similar in both syndromes but that differential fetal loss is responsible for the distinct postnatal phenotypes. Distinctive fetal echocardiographic features of these syndromes have not been described in detail. We therefore sought markers of left atrial isomerism that could be recognized prenatally by echocardiography and compared our results with postnatal data to identify unique intrauterine features. We reviewed 10 cases at our center and 28 published cases of cardiac malformations with atrial isomerism detected by fetal echocardiography. Postnatal imaging and autopsies provided definitive diagnoses. Ninety-five percent of cases exhibited left atrial isomerism and formed the primary study population. Echocardiographic markers included a large azygos continuation of an interrupted inferior vena cava, atrioventricular block with structural heart disease, and viscerocardiac heterotaxy. At least 1 of these markers was seen in all of our centers cases. The incidences of most cardiac lesions detected prenatally were similar to those detected postnatally. However, although the incidences of atrioventricular septal defect and pulmonary outflow obstruction in live births were 50% and 45%, respectively, they were found much more frequently among stillbirths (80% each). In summary, we identified key fetal echocardiographic features highly sensitive for left atrial isomerism. Fetal loss selects against certain lesions such as atrioventricular septal defect. The spectrum of cardiac disease suggests a greater primitivity of the fetal heart than previously shown; the typical cardiac phenotypes are closer to right atrial isomerism than are their extrauterine presentations.

Anatomic distribution of nitric oxide synthase in the heart

Nitric oxide synthase is a useful maker for nitric oxides scope. Localized by either NADPH-diaphorase histochemistry or immunohistochemical methods, most nitric oxide synthase activity in the normal heart is present in endothelium along the extensive network of arteries, veins and capillaries within myocardium. This endothelial isoform of nitric oxide synthase also exists in the endocardium lining the cavities. Neuronal nitric oxide synthase appears much less prominent, although the exact amount of this isoform in the heart is uncertain. Scattered nerves and ganglion cells are localized by the histochemical methods. While there is no inducible nitric oxide synthase in the normal heart, macrophages associated with repair following various forms of cardiac damage contain this isoform. For all nitric oxide synthases, however, species variation and variability among models underscore the importance of correlative studies of structure and function.