Articles: glucose-therapeutic-use.
-
Review Comparative Study
Effects of glucose-insulin-potassium (GIK) on myocardial blood flow and metabolism in canine endotoxin shock.
Glucose-insulin-potassium (GIK) has beneficial effects during endotoxin shock, possibly through improvement of myocardial function, but the mechanism is not clear. We have studied the effects of GIK on left ventricular function, coronary flow, and oxygen consumption in controls and dogs treated with endotoxin (1.5 mg/kg-1). The animals were anaesthetized (etomidate 4 mg/kg-1/hr-1) and ventilated (N2O:O2 = 2:1). ⋯ Endotoxin decreased the ratio of endo- to epicardial flow. GIK did not change this ratio. However, for the same endo to epi ratio, increased CBF implies increased flow to endocardium.
-
Randomized Controlled Trial Clinical Trial Controlled Clinical Trial
Effects of glucose-insulin-potassium infusion on the angina response during treadmill exercise.
The effects of glucose-insulin-potassium (GIK) and placebo normal saline (S) infusion on treadmill-walking time to angina, ST depression, heart rate (HR), systolic blood pressure (SBP), rate pressure product (RPP), blood glucose (G), lactate (L) and free fatty acids (FFA) were studied in 14 non diabetic patients with exertional angina. For the whole group, the post-GIK walking time to angina (393 +/- 33 sec, mean +/- SEM) was greater than the values during control GIK (319 +/- 20 sec, p less than 0.02) and post-S infusion (334 +/- sec, p less than 0.05), but circulatory and ST responses were similar in post-GIK and post-S studies. 7 of the 14 patients experienced significantly greater improvement in exercise tolerance following GIK (467 +/- 39 sec) in comparison to control GIK (313 +/- 29 sec, p less than 0.001) and post-S infusion (334 +/- 32 sec, p less than 0.005) and exercised to a higher HR, SBP and RPP after GIK than after S infusion. At the onset of angina these patients had similar ST-segment depression before and after GIK but when ST segments were assessed after GIK at the same exercise duration when angina had occurred during the control and post-S studies, there was significantly less ST depression (p less than 0.01). ⋯ Comparison of post-GUK and post-S values for G, L and FFA for the whole group showed significantly lower resting values of FFA and post-exercise values of G following GIK infusion. The differences in clinical and circulatory responses between patients who improved and those who did not improve following GIK were not related to the angiographically determined severity of coronary artery disease or to GIK-induced metabolic changes. Results suggest that some patients with angina pectoris do benefit from GIK infusion but the response in a given patient to this therapeutic modality is unpredictable.
-
Case Reports
Nocturnal intragastric infusion of glucose in management of defective gluconeogenesis with hypoglycemia.
Three children with defective gluconeogenesis and hypoglycemia were treated with frequent daytime feeding and continuous intragastric infusion of glucose at night. By this technique, the blood glucose level was maintained at or slightly above the physiological range. ⋯ Strength and sense of well-being improved. Nocturnal intragastric infusion of glucose is now the management of choice for children with defective gluconeogenesis and hypoglycemia.
-
Comparative Study
Treatment of alcoholic acidosis: the role of dextrose and phosphorus.
We have made serial metabolic observations in 18 acute episodes of alcoholic ketoacidosis in ten patients. Data from patients treated with only saline initially were compared to data from patients who received modest amounts of intravenous dextrose (7.0 to 7.5 gm/hr). More rapid improvement in the acidotic state was seen in the latter group (P less than .001). ⋯ Since phosphorus is a critical cofactor necessary for NADH oxidation and the glucose-induced correction of the acidosis was associated with a rapid decline in serum phosphorus from an initial mean of 6.79 +/- .82 mg/100 ml SEM to 0.96 +/- 0.12 mg/100 ml in 24 hours, we propose that glucose enhanced the mitochondrial capacity to oxidize NADH by increasing hepatocyte phosphorus. This effect combined with decline in free fatty acid levels results in reversal of acidosis. Our data suggest that glucose provides the safest, most effective treatment for this disorder; addition of either insulin or bicarbonate is usually unnecessary.