• Journal of Pharmaceutical Investigation
• /
• v.1 no.1
• /
• pp.85-89
• /
• 1971

The renal action of furosemide was investigated in the chicken, a species which has poorly developed loops of Henle and only rudimentary counter-current system in the kidney. Furosemide was infused into a hindleg vein, which is known to lead to the peritubular capillaries, forming renal portal system. A dose of 0.03 mg/kg/20 min. furosemide elicited a profound diuresis with saluresis, limited only to the infused side. This action rests on the inhibition of sodium reabsorption in the tubules, as the GFR remained unchanged or even decreased. It is thus inferred that the action of furosemide on Henle's loop contributes to the overall diuretic action only a negligible degree.

• YAKHAK HOEJI
• /
• v.17 no.1
• /
• pp.31-39
• /
• 1973

The influence of guanethidine on the renal function was investigated in the rabbit. Guanethidine, 1-10mg/kg, i.v., produced no marked change in the renal function, while second and successive doses of guanethidine elicited a significant increase in urine flow and electrolyte excretion as well as renal plasma flow and glomerular filtration rate. It was suggested that the diuretic action was brought about by improvement of hemodynamic state in the kidney ; increased filtration as a result of increased renal perfusion. Atropine alone did not significantly influence the renal function but pretreatment of animals with atropine, 4 mg/kg i.v., completely abolished the diuretic action of guanethidine. It is suggested that guanethidine influences the renal function by activating parasympathetic nervous system or some cholinergic mechanism in the kidney.

• The Korean Journal of Pharmacology
• /
• v.10 no.2
• /
• pp.63-74
• /
• 1974

This study was carried out to observe the direct effect of hydrocortisone on renal function by infusing it into a renal artery. Hydrocortisone (5mg/kg) or saline (0.5 ml/kg) was infused directly into the left renal artery of the rabbit, the right kidney was left intact to serve as a control for general action of acetazolamide (10 mg/kg) or aminophylline (10 mg/kg), which was administered intravenously 30 minutes after the direct infusion of pretreated drugs (hydrocortisone or saline). The changes of urine volume, pH, urinary excretion rates of $Na^+,\;K^+\;and\;Cl^-$, and the clearances of inulin and PAH were measured at an interval of 10 minutes for half an hour after the direct infusion of hydrocortisone or saline, and for one hour after intravenous administration of acetazolamide or aminophylline. The results of the experiment were as follows: 1. Significant changes in urine volume and urinary electrolytes (excreted rates of $Na^+,\;K^+\;and\;Cl^-$) were observed in the hydrocortisone-infused group 10 minutes after the administration of acetazolamide, compared with the saline-infused group. Especially, the effect was more potent on the infused (left) side than on the contralateral (right) side. 2. Significant changes in urine volume and urinary electrolytes were also observed in all the aminophylline-treated groups, but no remarkable difference was noticed between the hydrocortisone-infused group and the saline-infused group, nor between the left and right sides. 3. No signicant changes in the clearances of inulin and PAH were in the infused (left) side of all the experimental groups, as compared with the contralateral (right) side. From the above results, it is obvious that hydrocortisone infused into a renal artery exerts diuretic action when administered in combination with acetazolamide, and the mechanism of action rests not on its hemodynamic change for renal blood flow, but on the potentiation of carbonic anhydrase inhibiting action. However, the exact mode of action remains yet to be clarified.

• Journal of Pharmaceutical Investigation
• /
• v.14 no.2
• /
• pp.92-103
• /
• 1984

The action of debrisoquine on renal function in rabbits was studied. 1. When debrisoquine was given into ear vein, it did not affect on renal functin with smaller doses of 0.1 or 0.3mg/kg, while with higher dose of 1.0mg/kg it elicited the significant decrease of urine flow, renal plasma flow and glomerular filtration rate, and the increase of filtration fraction, and at the same time sodium excreted in urine, FENa (fractional excretion of sodium) and osmolar clearance were significantly decreased, and then it exhibited the increase of $K^+/Na^+$ ratio and no changes of $T^cH_2O$. 2. Debrisoquine (1.0mg/kg), when injected repeatedly into a vein, produced a more marked decrease of urine flow. 3. Debrisoquine induced-antidiuretic action was not affected by pretreatment with phentolamine (2mg/kg, i.v.), alpha-sympathetic blocking agent. 4. Debrisoquine given intracerebroventricularly did not produce a significant change on renal function in dose of 0.1mg/kg. These results suggest that debrisoquine produce the antidiuretic effect in rabbit, and the mechanism of its action is due to dual actions that are the decrease of hemodynamic effect and the facilitation of reabsorption of sodium in renal tubules.

• The Korean Journal of Pharmacology
• /
• v.20 no.2
• /
• pp.59-71
• /
• 1984

To explore the regulatory roles of CNS on the renal function, clonidine, a specific presynaptic ${\alpha}-adrenoceptor$ agonist, was administered into a lateral ventricle of the brain (icv) and the changes of renal function were studies in urethane-anesthetized rabbits. $5{\mu}g/kg$ icv elicited no significant changes in renal function. However, $15{\mu}g/kg$ induced marked natriuresis and kaliuresis for 20 min. Neither RPF nor GFR changed significantly. The fractional sodium reabsorption was significantly reduced, indicating that the renal action was of the tubular origin. Changes of systemic blood pressure were not contributory to the renal action. Yohimbine, a specific antagonist for presynaptic ${\alpha}-adrenoceptor$, when given icv in doses of $100{\mu}g/kg$ 20 min prior to clonidine, completely abolished the renal action of icv clonidine. Yohimbine icv did not produce any significant changes in renal function. Intravenous clonidine, $15{\mu}g/kg$, elicited antidiuresis and decrement of renal function immediately after administration, followed by a slight tendency toward natriuresis, but no natriuresis corresponding to those seen after the icv clonidine were observed, indicating that in the renal action of icv clonidine no direct action is involved. These observations indicate that the central sympathetic tone plays a role in the regulation of renal function in the rabbit.

• YAKHAK HOEJI
• /
• v.45 no.6
• /
• pp.683-693
• /
• 2001

This study was attempted to investigate the effect of raclopride, a dopamine $D_2$ receptor antagonist, on renal function in dog. Raclopride (70-220$\mu\textrm{g}$/kg), when given intravenously, Produced antidiuresis along with the decrease in free water clearance ( $C_{H_2O}$), urinary excretion of sodium and potassium ( $E_{Na}$ , $E_{K}$), partially decreased osmolar clearance ( $C_{osm}$) and increased reabsorption rates of sodium and potassium in renal tubules ( $R_{Na}$ , $R_{K}$). Raclopride administered into a renal artery did not influence on renal function in small doses (10 and 30$\mu\textrm{g}$/kg), whereas exhibited the decrease of urine volume (Vol) and $C_{H_2O}$ both in experimental and control kidney in much dose (100$\mu\textrm{g}$/kg), at this time, the decreased rates of both Vol. and $C_{H_2O}$) were more prominent in control kidney rather than that elicited in experimental kidney, and then only via was decreased in control kidney but increased in experimental kidney. Raclopride administered via carotid artery (30-200$\mu\textrm{g}$/kg) did not influence at all on renal function. Antidiuretic action induced by raclopride given intravenously was not affected by renal denervation. Raclopride given into carotid artery was little effect on renal function without relation to renal denervation. Above results suggest that raclopride produces antidiuresis by potentiation of antidiuretic hormone (ADH) action in blood without increase of ADH secretion in posterior pituitary gland, it is not related to renal nerve function in dogs.ogs.s.

• YAKHAK HOEJI
• /
• v.28 no.3
• /
• pp.149-160
• /
• 1984

In order to certify the diuretic mechanism of dopamine, this study was performed in dog. The following results were obtained. Dopamine, when given intravenously, produced diuresis, and increased glomerular filtration rate (GFR), renal plasma flow (RPF), and amount of sodium excreted in urine. When infused directly into a renal artery, dopamine elicited a marked diuresis confined only to the infused side, with concomitant rises in osmolar clearance and sodium excretion as well as a slight increase in free water clearance. Simultaneously total renal plasma flow and medullary plasma flow increased markedly with a increase of glomerular filtration rate and renal plasma flow. Medullary concentration gradient of sodium also markedly lowered in the infused kidney. These changes were not observed during mannitol diuresis and renal action of dopamine were not apparent in dog pretreated with haloperidol. From the above experimental results, it is thought that dopamine, when given into a vien or infused directly into a renal artery, induces diuresis, and the mechanism of its action is due to dual actions which are hemodynamic effect along with glomerular filtraction rate, and the increased response in the medullary blood flow.

• Toxicological Research
• /
• v.17
• /
• pp.117-125
• /
• 2001

Envenoming by Russells viper causes a broad spectrum of renal impairment. Renal failure is an important complication in patients bitten by Russells viper. Experimental work in animals and in vitro has elucidated pathophysiological mechanisms that contribute to life threatening complications and have suggested possibilities for therapeutic intervention. The evidence in experimental animals regarding mechanisms of venom action in relation to changes in either extrarenal or intrarenal factors is presented. The cardiovascular system and renal hemodynamics are affected by venom. Reductions of renal function including renal hemodynamics are associated directly with changes in general circulation during envenomation. Possible endogenous mechanisms for releasing the hormone inducing renal vasoconstriction after envenomation are evident. Hormonal factor such as the catecholamine, prostaglandin and renin angiotensin systems induce these changes. Direct nephrotoxicity of venom action is studied in the isolated per-fused kidney. Characteristic polarization of the cell membrane, changes of mitochondrial activity and Na-K ATPase in renal tubular cells are observed. Changes in renal function and the cardiovascular system are observed of ter envenomation and are reversed by the administration of Russells viper antivenom (purified equine immunoglobulin, $Fab_2$ fragment). The neutralizing effects are more efficient when the intravenous injection of antivenom is given within 30 min after the envenomation.

• YAKHAK HOEJI
• /
• v.45 no.2
• /
• pp.205-213
• /
• 2001

The dopaminergic receptors were consisted of two distinct subtypes, $D_1$and $D_2$, each having different function. The present study was attempted to investigate the effects of R(-)-2,10,11-trihydroxy-N-n-propylnoraporphine (TNPA), a dopamine $D_2$receptor agonist, on renal function in dog. TNPA (5.0~15.0 $\mu$g/kg), when given into the vein, produced a dose-dependently antidiuresis along with the decrease in osmolar clearance ( $C_{osm}$) and urinary excretion of sodium and potassium ( $E_{Na}$ , and $E_{K}$). It also increased reabsorption rates of sodium and potassium in renal tubules ( $R_{Na}$ , $R_{K}$) without any changes in glomerular filtration rate (GFR), renal plasma flow (RPF) and free water clearance ( $C_{H2o}$). TNPA (0.5~1.5 $\mu$g/kg/min) infused into a renal artery decreased urine flow both in the experimental and the control kidneys. TNPA (1.5~5.0 $\mu$g/kg) administered via the carotid artery also greatly exhibited antidiuresis even at intravenously ineffective doses. Changes of renal function by TNPA given into both the renal artery and the carotid artery were almost the same aspect to those induced by intravenous TNPA. These results obtained from the present study suggest that TNPA produces antidiuresis by increasing the reabsorption rates of electrolytes in renal tubules, mainly distal tubule, through changing of central function.unction.

• The Korean Journal of Pharmacology
• /
• v.16 no.1 s.26
• /
• pp.15-24
• /
• 1980

As it has been reported that opioids such as morphine and methionine-enkephalin induced antidiuresis and antinatriuresis along with decrease in renal hemodynamics when given intracerebroventricularly(ivt), the renal action of ivt naloxone, a pure antagonist of morphine, and its influence upon the morphine action were investigated in this study. Less than $0.3{\mu}M/kg$ naloxone ivt did not change renal funtion. $1{\mu}M/kg$ ivt tended to, increase urine flow rate and induce transient natriuresis. $3{\mu}M/kg$ ivt produced transient: natriuresis. $3{\mu}M/kg$ ivt produced marked diuresis and natriuresis without any changes of renal hemodynamics. $10{\mu}M/kg$ ivt produced significant increases of urine flow rate and excretion of sodium without any changes of renal hemodynamics. Morphine $0.03{\mu}M/kg$ ivt produced marked decrement in renal hemodynamics along with decreases of water and sodium excretion, as previously shown by Kang. These effects of ivt morphine were completely abolished by the pretreatment with $0.3{\mu}M/kg$ naloxone. These observations provide further evidence that opiate receptors and endorphins in the brain might play an important role in the center-mediated regulation of the renal function in the rabbit.