D1 and D2 receptor antagonists differently affect cocaine-induced locomotor hyperactivity in the mouse

Pretreament with small, per se ineffective doses of the selective D1 antagonist SCH 23390 inhibited hyperactivity induced by cocaine. On the other hand, the classic neuroleptic haloperidol and the selective D2 antagonist metoclopramide prevented the stimulatory effects of cocaine on locomotion only at hypokinetic doses, while the atypical neuroleptic (–)-sulpiride, a selective D2 antagonist, did not produce significant effects when administered at the hypokinetic dose of 12 mg/kg. Finally, at low doses (–)-sulpiride dose-dependently potentiated the locomotor-stimulating effects of cocaine, an effect that is not shared either with haloperidol or with metoclopramide. These results are discussed in terms of different roles of DA receptor subtypes in the modulation of the stimulant effects of cocaine on locomotion.     

Pharmacokinetic studies of high-dose metoclopramide with and without forced diuresis

Summary The pharmacokinetics of high-dose metoclopramide (10 mg/kg body wt. in five infusions of 2 mg/kg body wt. each) was studied in 11 patients (5 females, 6 males) in two groups: group A with and group B (consisting of five patients) without forced diuresis. When the drug was infused, forced diuresis had no influence on the pharmacokinetics of metoclopramide (serum level after the 1st infusion was 851±361 ng/ml in group A versus 840±348 ng/ml in group B; after the 5th infusion it was 2,005±588 ng/ml in group A versus 2,463±1,350 ng/ml in group B). There were significant differences in the 24-h serum levels (582±308 ng/ml in group A versus 379±170 ng/ml in group B;P<0.05) and in the elimination half life (8.5±2.6 h in group A versus 6.1±1.1 h in group B;P<0.05). The results demonstrate that the dosage regimen originally suggested by Gralla for cytostatic drugs, with forced diuresis for high-dose metoclopramide therapy, may also be applied, with no dosage reduction, with to other cytostatic drugs which do not require forced diuresis.     

Metoclopramide,domperidone and dopamine in man: actions and interactions

Summary The effects of oral doses of the dopamine antagonist antiemetics metoclopramide and domperidone on baseline and dopamine stimulated renal function and systemic haemodynamics were assessed in a placebo controlled crossover study in 9 healthy volunteers.Metoclopramide did not change baseline ERPF, GFR or FF over 2 h post dosing but it significantly reduced baseline U_NaV, U_KV, urine flow, urinary dopamine excretion, supine and erect diastolic blood pressure and supine systolic blood pressure. Domperidone and placebo did not cause these effects.Metoclopramide caused a marked rise and domperidone a small fall in plasma aldosterone concentration (PAC) but placebo was without effect. Neither antiemetic altered plasma renin activity (PRA) but a small fall occurred with placebo.Two hours after pretreatment with placebo dopamine (2 g/kg/min) increased effective renal plasma flow (ERPF), glomerular filtration rate (GFR), sodium excretion rate (U_NaV), urine flow rate, urinary dopamine excretion rate, supine systolic blood pressure and supine and erect pulse rate and decreased the potassium excretion rate (U_KV), filtration fraction (FF) and supine diastolic blood pressure.Metoclopramide pretreatment, did not attenuate the dopamine induced rise in ERPF, GFR, urine flow, urinary dopamine excretion or supine systolic blood pressure but it did attenuate the rise in pulse rate, the fall in diastolic pressure, and the antikaliuretic effect of dopamine leading to a net kaliuresis when compared to placebo. Domperidone was similar to placebo.Neither metoclopramide nor domperidone given orally caused clinically important antagonism of the renal haemodynamic effects of dopamine. However the effects of metoclopramide on blood pressure and electrolyte excretion may have clinical importance.Metoclopramide has significant pharmacodynamic effects which are probably not due to DA₂ antagonism but may be mediated by DA₁ antagonism or be non-specific.Abbreviations DA dopamine - ERPF effective renal plasma flow - FF filtration fraction - GFR glomerular filtration rate - PAC plasma aldosterone concentration - PRA plasma renin activity - UV urine flow rate - U_NaV urinary sodium excretion rate (natriuresis) - U_KV urinary potassium excretion rate (kaliuresis) - HPLC high performance liquid chromatography.     

Effects of various catecholamine receptor antagonists, muscle relaxation and physical hindrance on shuttlebox self-stimulation

Certain drugs, particularly clozapine and clonidine, have been reported to increase selectively the latency to initiate brain stimulation (the ON latency) in a shuttlebox test of self-stimulation, suggesting a preferential attenuation of the "reward" component. The pharmacological selectivity of this reported effect was systematically evaluated. At doses that blocked bar-pressing self-stimulation, metoclopramide (3 mg/kg), prazosin (3 mg/kg) clonidine (0.1mg/kg), clozapine (3 mg/kg)and haloperidol (0.3 mg/kg), all elevated the ON latency to a greater extent than the OFF latency. Methocarbamol (200 mg/kg), and a muscle relaxant, also elevated the ON latency preferentially but the magnitude of this preferential effect was smaller than that produced by the other drugs. A hurdle in the center of the shuttlebox increased the ON and OFF latencies nonselectively. The shuttlebox procedure does not clearly discriminate among various substances that interfere with noradrenergic or dopaminergic neurotransmission, but the common profile produced by the these substances is distinguishable to some degree from simple motor disruption.     

Relaxant effects of metoclopramide and magnesium sulfate on isolated pregnant myometrium: an in vitro study

BackgroundMetoclopramide and magnesium sulfate are extensively used agents in obstetrics. In this study, the relaxant properties of metoclopramide and magnesium sulfate on pregnant myometrium, together with the possible reversing influences of oxytocin and cabergoline (a dopamine D₂ receptor agonist), were investigated.MethodsMyometrial strips from 24 parturients were randomly allocated to four groups: control (Group CON), magnesium sulfate and oxytocin (Group MSO), metoclopramide and oxytocin (Group MEO), and metoclopramide and cabergoline (Group MEC). Myometrial strips were mounted on a myograph bathed in Krebs buffer. Saline (Group CON) and five incremental doses of magnesium sulfate (Group MSO) or metoclopramide (Groups MEO and MEC) were sequentially microinjected into the bath. Subsequently, oxytocin (Groups CON, MSO and MEO) or cabergoline (Group MEC) was microinjected into the bath. The myometrial contractile characteristics after each drug injection, including contractile force, interval and duration, were analyzed.ResultsMagnesium sulfate was more potent for prolonging myometrial contractile interval than reducing contractile force. Metoclopramide relaxed myometrial contractions by inhibiting contractile force and prolonging contractile interval in a concentration-dependent manner. Oxytocin reversed both the inhibited contractile force and the prolonged contractile interval caused by a high concentration of magnesium sulfate but accelerated the contractile interval and had no significant effect on the contractile force suppressed by metoclopramide. The relaxant effects of metoclopramide were completely reversed by cabergoline.ConclusionsBoth magnesium sulfate and metoclopramide relaxed myometrial contractions, and exhibited different responses to subsequent oxytocin treatment. The relaxant mechanism of metoclopramide may be via blockade of dopamine D₂ receptor, which requires further investigation.     

Effect of different polymers and their combinations on the release of metoclopramide HCl from sustained-release hydrophilic matrix tablets

Metoclopramide HCl (MTC) is commonly used for the management of gastrointestinal disorders. It has a short biological half-life and is usually administered four times daily to maintain effective concentrations throughout the day. The aim of this study is to develop sustained-release hydrophilic matrix tablet formulations of drug to achieve reproducible and predictable release rates, extended duration of activity, decreased toxicity, reduction of required dose, optimized therapy, and improved patient compliance. Hydroxypropylmethyl cellulose (HPMC), carboxymethylcellulose sodium (NaCMC), chitosan and Carbopol 981 were incorporated in the matrix system separately or in combinations as release controlling factor by direct compression technique. Compatibility among the formulation components was assessed by DSC and FTIR analysis. MTC release from matrix was evaluated by using the US Pharmacopeia dissolution apparatus II. All formulations met the criteria of pharmacopeial requirements. Dissolution studies show that polymer type and concentration are important parameters on drug release. Chitosan, carbopol and NaCMC formulations exhibited pH-dependent drug release profile whereas HPMC did not. All the formulations containing 1:1 ratio of HPMC and chitosan exhibited desired drug release showing that all active substance releases progressively in a period of whole dissolution time and therefore it can be regarded as worthy of consideration for the manufacture of sustained-release MTC product.     

甲氧氯普胺口崩片的制备及体外溶出度考察

摘 要 目的： 制备甲氧氯普胺口崩片并优化处方,并对其体外溶出度进行考察。方法: 采用全因子试验设计,以填充剂配比（X₁）、崩解剂（X₂,%）用量为影响因素,以脆碎度（Y₁,%）、崩解时限（Y₂,s）、甲氧氯普胺在15 min的溶出度（Y₃,%）为片剂考察指标优化处方;并考察其在4种溶出介质中的溶出行为。结果: 甲氧氯普胺口崩片的最优处方组成为：填充剂甘露醇与微晶纤维素比例为2.5∶1、崩解剂占片重为6.5%。甲氧氯普胺口崩片在4种溶出介质中累积溶出度均大于80%。结论:甲氧氯普胺口崩片处方设计合理,制备工艺可行,质量可控。     

Postoperative nausea and vomiting prophylaxis: The efficacy of a novel antiemetic drug (palonosetron) combined with dexamethasone

BackgroundPalonosetron is a new, potent, and long-acting 5HT3-receptors antagonist that had been approved by the FDA for use in postoperative nausea and vomiting (PONV) prophylaxis. This study is designed to evaluate its efficacy combined with dexamethasone in PONV prophylaxis in highrisk patients scheduled for laparoscopic surgeries.MethodsIn this double-blind, active-controlled study, 150 patients aged 20–55 years, ASA I–II, and with Apfel’s PONV score 2–4 were equally randomized to receive dexamethasone 8 mg before anesthesia induction and saline 30 min before the end of surgery (group D + S), dexamethasone 8 mg before anesthesia induction and metoclopramide 25 mg 30 min before the end of surgery (group D + M), or dexamethasone 8 mg combined with palonosetron 0.075 mg before anesthesia induction and saline 30 min before the end of surgery (group D + P). Incidences of early and late PONV, complete response, adverse events from antiemetics used, and overall patients’ satisfaction were recorded.ResultsThe incidence of PONV was comparable in the three groups 0–6 h postoperatively. Palonosetron–dexamethasone and dexamethasone–metoclopramide combination therapies significantly reduced the incidence of PONV at 6–12 h postoperatively compared to dexamethasone monotherapy (12% and 16%, vs. 36%, respectively, with P < 0.05). Moreover, palonosetron–dexamethasone combination therapy significantly reduced the incidence of PONV at 12–24 h postoperatively compared to both dexamethasone monotherapy (16% vs. 48%, P < 0.01), and dexamethasone–metoclopramide combination therapy (16% vs. 40%, P < 0.05). The incidence of adverse drug effects was comparable in the three groups. The overall patients’ satisfaction was significantly higher in palonosetron–dexamethasone combination therapy compared to other groups.ConclusionPalonosetron–dexamethasone combination is effective and safe in PONV (early and late) prophylaxis in high-risk patients undergoing laparoscopic surgeries with known high-risk of PONV.