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Query: UMLS:C0015672 (
fatigue
)
51,768
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Ranolazine
was previously shown to stimulate cardiac glucose oxidation. Dichloroacetate (DCA) also does and was shown to improve exercise capacity in animals, but it has long-term toxicity problems. To test the hypothesis that ranolazine would increase exercise performance in the chronic heart failure (CHF) condition, we compared the exercise endurance capacities of rats with a surgically induced myocardial infarction (MI) with those of noninfarcted sham-operated (Sham) controls both before and after 14 and 28 days of drug administration. Chronic administration of ranolazine, 50 mg/kg twice daily (b.i.d.) oral, significantly reduced the endurance capacities of both Sham and MI rats (measured after a 12-h fast to reduce liver glycogen stores), as indicated by the reductions in run times to
fatigue
during a progressive treadmill test.
Ranolazine
produced reductions in resting plasma lactate and glucose concentrations of animals fasted for 12 h (consistent with stimulating glucose oxidation); however, tissue glycogen concentrations measured in various locomotor muscles located in the animal's hindlimb were unaffected when measured 48 h after the last treadmill test and after 12 h of fasting. Chronic administration of ranolazine did not increase the endurance capacity of rats with CHF induced by MI at the dosage and with the protocol used. To the contrary, the chronic administration of ranolazine appears to reduce the work capacity of all rats, suggesting that this drug may not be useful therapeutically in the treatment of CHF. Whether the decrements in endurance capacity produced by ranolazine are related to the high plasma concentrations of the drug produced in this study as compared with previous studies in humans remains subject to further experimentation.
...
PMID:Effects of ranolazine on the exercise capacity of rats with chronic heart failure induced by myocardial infarction. 887 80
Inhibition of the persistent or late Na current (INa) using ranolazine (
Ranexa
) represents a novel mechanism of action that was approved in the United States in 2006 and only recently in the European Union for use in patients with stable angina pectoris. In general, myocardial ischemia is associated with reduced adenosine triphosphate fluxes and
decreased energy
supply, resulting in severe disturbances of intracellular ion homeostasis in cardiac myocytes. In the recent years, increased late INa was suggested to contribute to this phenomenon by elevating intracellular Na concentration with subsequent rise in diastolic Ca levels by means of the sarcolemmal Na-Ca exchange system.
Ranolazine
, a specific inhibitor of late INa, reduces Na influx and hence ameliorates disturbed Na and Ca homeostasis. This is associated with a symptomatic improvement of angina in patients unlike other antianginal drugs without affecting heart rate or systemic blood pressure as shown in placebo-controlled studies. Therefore, ranolazine is a useful new option for patients with chronic stable angina not only as an add-on therapy. New clinical and experimental studies even point to potential antiarrhythmic effects, beneficial effects in diastolic heart failure, and under hyperglycemic conditions. In the present article, the relevant pathophysiological concepts for the role of late INa inhibition are reviewed and the most recent data from basic studies and clinical trials are summarized.
...
PMID:A novel mechanism for the treatment of angina, arrhythmias, and diastolic dysfunction: inhibition of late I(Na) using ranolazine. 1933 33
