Henry A. Oldewurtel scite author profile

Myocardial disease in diabetes mellitus is usually attributed to coronary atherosclerosis. To examine the influence of uncomplicated diabetes on the left ventricle, a mild noninsulin-requiring diabetes was produced in male mongrel dogs after three intravenous doses of alloxan were administered at monthly intervals. There was a persistent decline in glucose tolerance and a reduced insulin content in the pancreas of each alloxan-diabetic dog at the termination of the experiment. The dogs were anesthetized for hemodynamic and metabolic studies after approximately 11 months. Left ventricular end-diastolic volume and cardiac output were measured by the indicator-dilution method. An increase in afterload with moderate aortic pressure elevations elicited a significant rise in end-diastolic volume and stroke volume in normal control dogs. In diabetes, despite a similar end-diastolic pressure response, the end-diastolic volume and the stroke volume responses were significantly less than those in control dogs. During acute volume expansion of the ventricle with saline, the end-diastolic pressure increment in diabetic dogs was twice that in control dogs. These responses were attributed to an increased stiffness of the left ventricle that was apparently due to accumulation of glycoprotein (measured by periodic acid-Schiff staining) in the interstitium. Since similar abnormalities were observed in dogs with diabetes occurring spontaneously and were absent when the pancreatic effects of alloxan were inhibited in a separate group of dogs, the pathogenetic role of alloxan via a direct action on myocardium was excluded. Analysis of lipids in the left ventricle revealed elevated triglyceride and cholesterol concentrations despite normal plasma levels. During infusion of 14 C-1-oleic acid, cardiac oxidation appeared to be normal, but fatty acid incorporation, which was predominantly into phospholipid in the control dogs, was diverted to triglyceride in the diabetic dogs. Since an aberration of de novo synthesis was not found during studies with 14 C-acetate, triglyceride accumulation was attributed to altered intracellular metabolism, perhaps related to glycerol phosphate acyl transferase activity. The basis for cholesterol accumulation was less clear, since neither 14 C-acetate nor 14 C-oleate incorporation into sterol was enhanced. Myocardial ischemia was excluded on the basis of patency of coronary arteries and normal coronary blood flow, myocardial cation content, and mitochondrial morphology. Thus, it was concluded that chronic diabetes mellitus can alter myocardial composition and function independent of vascular effects.

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Hyperkalemia, cardiac conduction, and the electrocardiogram: A review

Ettinger¹,

Regan²,

Oldewurtel³

1974

American Heart Journal

179

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Myocardial composition and function in diabetes. The effects of chronic insulin use.

Regan¹,

Wu²,

Yeh³

et al. 1981

Circulation Research

155

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SUMMARY This study was undertaken in an animal model of mild diabetes to determine if provision of chronic insulin replacement during postprandial hyperglycemia may modify the abnormalities of myocardium. Group 1 served as controls with normal glucose tolerance by intravenous testing. Two additional groups were made diabetic -with low doses of alloxan. Diabetic animals of Group 2 were untreated (re = 8). Group 3 animals (re = 6) received regular insulin daily to reduce postprandial hyperglycemia. After one year with maintained body weight, the animals were studied in the intact anesthetized state using the indicator dilution technique for left ventricular volume determinations. Basal left ventricular function and contractility were similar to normals in both diabetic groups. During intraventricular infusion of saline, end-diastolic pressure roue to higher levels in untreated diabetes (14.8 ± 2 mm Hg) than normals (8.8 ± 0.84), despite similar basal levels. Insulin treatment was associated with higher filling pressures than in group 1 as well as reduced end-diastolic volume response. Collagen concentrations were enhanced an average of 50% in layers from the inner to outer myocardium in both untreated and treated diabetics, associated with sodium and water accumulation. Since hypertrophy was not present, the diminished compliance appeared related to increased collagen levels. On electron microscopy, the subcellular organelles of the cardiac cell appeared normal in both diabetic groups. Thus, collagen accumulation and abnormal myocardial function in this model of diabetes is not affected by control of postprandial hyperglycemia, but a potential role for sustained hormone replacement is not excluded.

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Ventricular function in noncardiacs with alcoholic fatty liver: role of ethanol in the production of cardiomyopathy

Regan¹,

Levinson²,

Oldewurtel³

et al. 1969

J. Clin. Invest.

225

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A B S T R A C T Since many patients with cardiomyopathy have a history of chronic ethanolism often associated with malnutrition, we have evaluated left ventricular (LV) function in alcoholics with fatty liver, who had no clinical evidence of cardiac or nutritional disease.During an afterload test of LV function the pressor response to angiotensin evoked a threefold rise of enddiastolic pressure in the alcoholic group which was substantially greater than the 4 mm Hg rise in control subjects. The stroke volume and stroke work response in the noncardiac alcoholic was significantly less than in controls. Diminished LV function was corroborated in the noncardiac alcoholic at rest, using a contractility index.To evaluate the dose-response relationship of ethanol in the production of cardiac malfunction, two groups of noncardiac alcoholic subjects were studied acutely at low and moderate dose levels. After 6 oz, ventricular function, myocardial blood flow, and metabolism were not significantly affected. After 12 oz, there was a progressive rise of end-diastolic pressure and decrease of stroke output at a mean blood alcohol level of 150 mg/ 100 ml, reverting toward control by 4 hr. The coronary effluent transiently evidenced leakage of cell constituents, despite an increase of coronary blood flow, suggesting a direct but reversible cardiac injury. Myocardial extraction of triglyceride was enhanced, whereas FFA uptake was reduced. A possible role of myocardial triglyceride accumulation in heart muscle was considered in pathogenesis.Chronic ingestion of 16 oz of Scotch daily by an alcoholic subject while on a normal diet-produced, after 12 wk, a progressive increase of heart rate and size,

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