V R Dhumal scite author profile

V R Dhumal

4Publications

25Citation Statements Received

71Citation Statements Given

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Affiliations

Sir Sayajirao General Hospital Medical College, Council of Scientific and Industrial Research, William S. Hall Psychiatric Institute

Publications

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Evaluation of nootropic and neuroprotective effects of low dose aspirin in rats

Ghosh

Dhumal²,

Tilak

et al. 2011

Journal of Pharmacology and Pharmacotherapeutics

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Objective:To evaluate the nootropic and neuroprotective effects of aspirin in Sprague Dawley rats.Materials and Methods:Retention of conditioned avoidance response (CAR) and central 5-HT-mediated behavior (lithium-induced head twitches) were assessed using repeated electroconvulsive shock (ECS) in rats. Rats were divided into eight groups: control (pretreated with distilled water), scopolamine (0.5 mg/kg i.p.), ECS (150 V, 50 Hz sinusoidal with intensity of 210 mA for 0.5 s) pretreated, aspirin (6.75 mg/kg orally) pretreated, combined scopolamine and aspirin pretreated, ondansetron (0.36 mg/kg orally) pretreated, combined ECS and ondansetron pretreated and combined ECS and aspirin pretreated groups. Data was analyzed by the chi-square test and ANOVA.Results:Findings show that administration of single ECS daily for consecutive 8 days results in enhancement of 5-HT-mediated behavior (lithium-induced head twitches) and in disruption of the retention of CAR. Aspirin and ondansetron administration significantly increased the retention of conditioned avoidance response compared to control. Ondansetron and aspirin significantly prevented ECS-induced attenuation of the retention of conditioned avoidance response also. On the other hand, ondansetron and aspirin significantly retarded the ECS-induced enhancement of 5-HT-mediated behavior.Conclusion:Inhibition of the serotonergic transmission by aspirin is responsible for its nootropic and neuroprotective actions.

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Effect of chronic administration of low dose aspirin on haloperidol induced catalepsy in rats

Ghosh

Dhumal²,

Tilak

et al. 2011

Journal of Pharmacology and Pharmacotherapeutics

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in skin reactions were valproate, carbamazepine, vancomycin and ciprofl oxacin. Our fi ndings are similar to earlier published reports. [5] We observed that as expected gastrointestinal side effects and hepatotoxicity were mainly associated with anti tubercular drugs and NSAIDs (diclofenac and ibuprofen).We also observed that quite a number of adverse drug reactions were with unknown drugs which could be herbal, ayurvedic or belonging to alternative medicine. ADRs observed with these drugs were of moderate to severe category. Drug induced neutropenia was seen in 18.3% of cases. It was observed that side effects with drugs administered through intravenous route were of severe category.The limitations of our study were its short duration with less number of ADRs and we did not assess preventability of ADRs. We conclude that anticonvulsants, analgesics, antimicrobials and anti cancer drugs are responsible for most of the ADRs. The problem of underreporting of ADRs is much bigger issue and should be addressed immediately.

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Analysis of the Effects on Body Temperature of Intracerebroventricular Injection in Anaesthetized Dogs of Gamma‐aminobutyric Acid

Dhumal

Gulati

Raghunath

et al. 1974

British J Pharmacology

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1 The cerebral ventricles of dogs under intravenous pentobarbitone sodium anaesthesia, were perfused with artificial cerebro-spinal fluid (CSF) at a rate of 0.4-0.5 ml/min from the ventricular to the aqueductal cannulae. The effluent was collected from the aqueductal cannula in 20 min samples. The animals' temperatures were recorded from the rectum.2 y-Aminobutyric acid (GABA) 0.1-5 mg when injected into the ventricles produced variable temperature effects. Doses of 0.1 and 0.5 mg always produced hyperthermia and 1 and 5 mg doses sometimes produced hyperthermia and sometimes hypothermia. 3 Intraventricular perfusion with 2-bromolysergic acid diethylamide (BOL) and hyoscine did not block hyperthermia. Tests on the rat isolated stomach strip or the guinea-pig isolated superfused ileum for the possible release, respectively, of 5-hydroxytryptamine or acetylcholine by GABA were negative. 4 When tested for the presence of prostaglandin E(PGE)-like substances on the isolated rat stomach strip, both the control effluent and the GABA effluent showed activity, the latter being much more potent. There was a temporal correlation between this effect and hyperthermia. Intraventricularly administered sodium salicylate converted the GABA-induced hyperthermia to hypothermia and blocked the release of PGE-like substances. 5Hypothermia induced by GABA alone or in the presence of sodium salicylate was associated with the release of noradrenaline into the effluent. 6 Intraventricular administration of GABA in reserpinized dogs produced hyperthermia and not hypothermia. Similar results were obtained with phentolamine perfusion in normal dogs. 7 Perfusion with calcium-free solution blocked both the noradrenaline-releasing and hypothermic actions of GABA. 8 It is concluded that hyperthermia associated with intraventricular injections of GABA is due to the release of PGE-like substance and hypothermia is due to the release of noradrenaline.

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Effect on body temperature in dogs of perfusion of cerebral ventricles with artificial CSF deficient in calcium or containing excess of sodium or calcium

Dhumal

Gulati

1973

British J Pharmacology

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V R Dhumal

Evaluation of nootropic and neuroprotective effects of low dose aspirin in rats

Effect of chronic administration of low dose aspirin on haloperidol induced catalepsy in rats

Analysis of the Effects on Body Temperature of Intracerebroventricular Injection in Anaesthetized Dogs of Gamma‐aminobutyric Acid

Effect on body temperature in dogs of perfusion of cerebral ventricles with artificial CSF deficient in calcium or containing excess of sodium or calcium

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