EFFECTS OF TORASEMIDE ON RENAL HAEMODYNAMICS AND FUNCTION IN ANAESTHETIZED DOGS

1. We examined the effects of torasemide (0.3 and 1 mg/kg i.v.) on renal haemodynamics and function employing renal clearance and stop-flow techniques in anaesthetized dogs and compared these with furosemide (1 and 3 mg/kg i.v.). 2. Torasemide and furosemide did not influence renal haemodynamics, in the renal clearance study, but caused a dose-related and significant increase in urine flow and urinary excretion of sodium and potassium. Torasemide and furosemide increased fractional excretion of sodium in the distal tubules with a relatively small increase in the fractional excretion of lithium (index of sodium excretion at the proximal tubules, FELi). The diuretic profile of torasemide was of long duration, compared with that of furosemide. 3. Torasemide and furosemide inhibited sodium reabsorption at the distal portion of the tubules in the stop-flow study. 4. It is suggested from these results, that the main diuretic site of action of torasemide is the ascending limb of the loop of Henlé.     

An examination of the site and mechanism of action of torasemide in man

Acute clearance studies were performed in normal subjects to determine the site and mechanism of action of torasemide (isopropyl-1-methyl-3 phenylamino-4 pyridil-3 sulphonyl-3-urea), a new diuretic agent, in the human kidney. The drug caused no change in glomerular filtration rate or effective renal plasma flow. Sodium excretion rose to 16% of filtered load, whereas there was a chloriuresis of 23%. During maximal water diuresis, the drug caused an increase in urine flow rate and a decrease in solute-free water clearance. Administration of the drug during hypertonic saline infusion into hydropenic subjects resulted in a marked decrease in water reabsorption from the collecting duct. Torasemide caused no change in phosphate excretion or in the percentage of filtered bicarbonate excreted, nor was urinary pH or net hydrogen ion excretion affected by the drug. The data suggest that the primary site of action of torasemide is the medullary portion of the ascending limb of the loop of Henle.     

托拉塞米注射液治疗儿童肾病综合征高度水肿的临床疗效观察

目的 探讨新型袢利尿剂托拉塞米注射液治疗儿童肾病综合征高度水肿的临床疗效.方法 对本科室2010年1月至2013年12月收治的肾病综合征患儿进行临床分析,将32例肾病综合征高度水肿患儿按随机数字表法分为托拉塞米组和呋塞米组,每组16例.两组在口服泼尼松足量[2 mg/（kg·d）或60 mg/（m^2·d）]治疗的基础上,托拉塞米组静脉滴注托拉塞米1～2 mg/（kg·d）,呋塞米组静脉滴注呋塞米1～2 mg/（kg·d）,疗程为5d.两组患儿分别于治疗前、治疗后第2、4、6d检测24 h尿量、体重、血液生化各项指标的变化情况,并记录不良反应.结果 托拉塞米与呋塞米两组患儿临床疗效比较,尿量均较治疗前明显增加,水肿消退,体重减轻,两组总有效率之间差异有统计学意义（94％ vs.81％; x2=3.023,P＜0.05）.呋塞米组患儿血钾浓度明显低于托拉塞米组（P＜0.05）,血尿酸明显高于托拉塞米组（P＜0.05）.结论 托拉塞米治疗儿童肾病综合征顽固性水肿,疗效显著,副作用小,对电解质及肾功能无明显影响,值得临床应用.     

Site of action of moxonidine in the rat nephron

Moxonidine is a centrally acting antihypertensive agent which has been found to exert its blood pressure lowering effect by interaction with (alpha2-adrenoceptors and imidazoline receptors of the I(1)-type. These receptors have also been demonstrated to be present in the rat kidney. In the present study, clearance and micropuncture techniques were applied to anaesthetized rats to localize the site of action of moxonidine within the nephron. The clearance data show that moxonidine (0.25 mg/kg i.v., followed by a continuous i.v. infusion of 0.25 mg/h) induced a marked increase in urine flow and urinary excretion of sodium, chloride and potassium. The changes in urine flow and urinary solute excretion were accompanied by an enhanced glomerular filtration rate. The micropuncture experiments revealed that moxonidine significantly increased glomerular filtration rate of superficial nephrons, and significantly inhibited fractional reabsorption of fluid, sodium, potassium and chloride by similar amounts (by 9.0%-9.8%) in superficial proximal tubules. Regarding fluid and sodium reabsorption, the proximal effect of moxonidine was continuously weakened by a compensatory increase of reabsorption in the loop of Henle and the subsequent distal nephron segments. The inhibitory effect of moxonidine on fractional proximal potassium reabsorption was completely compensated in the loop of Henle, but the drug induced a net secretion of potassium into the segments lying beyond the early distal tubule, probably as a consequence of the increased tubule fluid and sodium load delivered to them. The experiments have identified the proximal tubule as the principal nephron site where the diuretic action of moxonidine arises. The proximal effect may be related to the increased glomerular filtration rate and to a direct inhibitory interaction of moxonidine with the proximal Na+/H+ exchanger.     

Diuretic and hypotensive actions of torasemide in hypertensive models of rat

The diuretic and the antihypertensive actions of torasemide were examined in renal and genetic hypertensive rats and compared to the effects of furosemide. Oral administration of torasemide (1 and 3 mg/kg) elicited a dose-dependent increase in the excretion of urine and electrolytes and elevated the urinary Na/K ratio in both renal and genetic hypertensive rats. Torasemide and furosemide had a similar maximum diuretic effect in the normotensive Wistar rat and the spontaneously hypertensive rat (SHR). However, the diuretic activity of furosemide was weaker in the renal hypertensive rat (RHR). Torasemide showed approximately 30 times greater diuretic potency than furosemide. Torasemide and furosemide demonstrated hypotensive action in hypertensive rat models, but not in the normotensive Wistar rat. Especially in the RHR, torasemide exhibited a more potent hypotensive action than furosemide. These results show that the diuretic and antihypertensive activities of torasemide are effective in various rat models of hypertension, while the diuretic activity of furosemide is weak in certain hypertensive rat models. © 1992 Wiley-Liss, Inc.     

Pharmacological properties of the new potent diuretic torasemide in rats and dogs

Torasemide, a pyridine-3-sulfonylurea derivative, has potent diuretic activity in rats and dogs. In both species urinary volume and electrolyte excretion increased linearly with the logarithm of the dose, thus resembling the profile of a high ceiling diuretic. The minimum effective dose by oral route was 0.2 mg/kg in the rat and less that 0.1 mg/kg in the dog. Maximal effect was obtained with about 10 mg/kg. Experiments by oral and i.v. routes in the rat indicated that torasemide was equally potent by both oral and parenteral administration. In both rats and dogs, urinary excretions induced by torasemide were similar to those obtained with furosemide. However, for the same natriuretic effect, potassium losses with torasemide were significantly less than with furosemide. On a weight basis, torasemide was 9-40 times more potent than furosemide in the rat and about 10 times in the dog. After oral administration the diuretic effects of torasemide started within 20 min and lasted approximately 2 h in the rat and more than 8 h in the dog. The activity of torasemide was not decreased after a repeated daily oral dose of 10 mg/kg for 15 days in the rat. Torasemide at a daily oral dose of 5 mg/kg for 12 days effectively reduced the arterial blood pressure in desoxycortone induced hypertension in the rat. Besides the diuretic and antihypertensive effects no other significant pharmacological effects were observed with torasemide in the different in vitro and in vivo experiments. Torasemide was practically fully absorbed by the gastrointestinal tract, its bioavailability by oral route ranged from 80 to 100%.(ABSTRACT TRUNCATED AT 250 WORDS)     

新型袢利尿剂托拉塞米

综述托拉塞米的药理作用、药动学、临床应用、药物不良反应和药物经济学。托拉塞米属吡啶磺酰脲类袢利尿剂，作用于髓袢升支粗段，抑制Cl^ 和Na^ 的重吸收，产生利尿、利钠和其他作用。其生物利用度高，半衰期相对较长，血浆蛋白结合率较高。临床试验表明，托拉塞米治疗高血压和慢性肾功能衰竭、肝功能不全或心力衰竭患者的水肿和其他症状有效，不良反应较轻。药物经济学分析表明，托拉塞米通过降低住院率和再住院率而降低总花费。     

Acute effects of gentamicin on thick ascending limb function in the rat

It is well established that the aminoglycoside antibiotics can adversely affect proximal tubule function. Predominantly indirect evidence suggests that aminoglycosides may also affect function of more distal nephron segments. The present study utilized whole kidney clearance, in vivo micropuncture and in vitro microperfusion to directly determine whether acute gentamicin treatment affects sodium chloride transport in the thick ascending limb of the loop of Henle. Gentamicin (25 mg/kg) significantly increased urine flow, as well as sodium, potassium and chloride excretion within 15 min of intravenous injection. Glomerular filtration rate and proximal tubule fluid reabsorption were not altered by acute gentamicin treatment. In contrast, both fractional and absolute loop chloride transport was significantly decreased. In the in vitro microperfused medullary thick ascending limb, luminal but not basolateral administration of gentamicin (1 mM) significantly decreased chloride reabsorption when compared to time controls. These data suggest that the increased urine and electrolyte excretion associated with acute gentamicin treatment is, at least in part, a consequence of decreased transport in the thick ascending limb of Henle's loop.     

Anti-aldosteronergic effect of torasemide.

The diuretic actions of torasemide and furosemide were studied in normotensive rats and in deoxycorticosterone acetate (DOCA)-saline-loaded hypertensive rats. Torasemide (0.3-3 mg/kg) and furosemide (3-30 mg/kg) had a dose-dependent and significant diuretic action in normotensive rats. Potassium retention was only observed in the case of torasemide. Torasemide also had a dose-dependent and significant diuretic action in DOCA-saline-loaded hypertensive rats, whereas furosemide did not. Higher doses of torasemide (10 mg/kg) and furosemide (100 mg/kg) increased both plasma renin activity and aldosterone concentration in normotensive rats in a similar manner. In vivo aldosterone receptor binding was determined to test the possible anti-aldosteronergic effect of torasemide. Torasemide inhibited the binding of aldosterone to its receptor in the cytoplasmic fraction of rat kidney in a dose-dependent manner, while furosemide produced no effect. These results suggest strongly that an anti-aldosteronergic action of torasemide contributes to producing less kaliuresis.     

Torasemide. A review of its pharmacological properties and therapeutic potential.

Torasemide (torsemide) is a high-ceiling loop diuretic which acts on the thick ascending limb of the loop of Henle to promote rapid and marked excretion of water, sodium and chloride. Like furosemide (frusemide), its major site of action is from the luminal side of the cell. Torasemide is at least twice as potent as furosemide on a weight-for-weight basis, produces equivalent diuresis and natriuresis at lower urinary concentrations and has a longer duration of action, allowing once-daily administration without the paradoxical antidiuresis seen with furosemide. Torasemide also appears to promote excretion of potassium and calcium to a lesser extent than furosemide. In trials of up to 48 weeks' duration in patients with mild to moderate essential hypertension, torasemide, administered as a single daily dose, has been shown to achieve adequate blood pressure control reaching steady-state within 8 to 12 weeks. Those patients not responding initially have generally responded to a doubling of the dose. Comparative trials of up to 6 months show torasemide is as effective as indapamide, hydrochlorothiazide or a combination of triamterene/hydrochlorothiazide in maintaining control of blood pressure. Torasemide has also been used successfully to treat oedematous states associated with chronic congestive heart failure, renal disease and hepatic cirrhosis. In short term trials control of blood pressure, bodyweight and residual oedema has been sustained. Torasemide appears to be a useful alternative to furosemide in these patients, providing potent and long-lasting diuresis while being relatively potassium and calcium sparing. In clinical trials to date torasemide has been well tolerated with adverse effects of a mild, transient nature reported by only small numbers of patients. Changes in biochemical parameters have been common, including decreases in plasma sodium and potassium levels and increases in plasma creatinine and uric acid levels. These changes are typical of loop diuretics. No changes were clinically significant nor were clinically relevant changes noted in glucose metabolism, cholesterol or triglyceride levels or in haematological values. Thus, torasemide is an interesting new loop diuretic with potential use in the treatment of mild to moderate essential hypertension and of oedematous states in which diuretic therapy is warranted. Preliminary studies suggest it to be as efficacious as other diuretics in common use and to have some advantage over furosemide in duration of action and in effects on potassium and calcium. However, further long term trials in larger groups of patients are needed to delineate the place of torasemide in therapy fully, both as a single agent and in combination with other currently accepted drug regimens.     

Diuretic action of the novel loop diuretic torasemide in the presence of angiotensin II or endothelin-1 in anaesthetized dogs.

The effects of torasemide (0.1 and 1 mg kg-1, i.v.) and furosemide (3 mg kg-1) on renal haemodynamics and excretory responses in the presence of angiotensin II and endothelin-1 was examined in anaesthetized dogs. Angiotensin II or endothelin-1 was continuously infused into the renal artery throughout the experiment and a bolus of torasemide or furosemide was injected into the bracheal vein. Continuous intrarenal arterial (i.r.a.) infusion of angiotensin II, at a dose of 5 ng kg-1 min-1, increased renal vascular resistance (RVR) and decreased renal blood flow (RBF) and glomerular filtration rate (GFR), but had no effect on systemic mean arterial pressure (MAP). Urinary excretion of sodium (UNaV) and urine flow (UF) were significantly decreased during angiotensin II infusion. Intravenous injections of torasemide in the presence of angiotensin II caused a dose-dependent increase in UF, UNaV and urinary excretion of potassium (UKV), while a decrease in RVR was accompanied by an increase in RBF. UKV was greater in the furosemide group than in the torasemide group, despite both groups having the same degree of aquaresis and natriuresis. Continuous i.r.a. infusion of endothelin-1, 1.5 ng kg-1 min-1, produced effects similar to those of angiotensin II on renal haemodynamics; however, the onset of action was extremely slow compared with the effects produced by angiotensin II. Endothelin-1 caused a significant decrease in UF, UNaV and UKV only at a later period, despite a relatively early depression of renal haemodynamics. Torasemide and furosemide also produced a sufficient diuretic action in this model.(ABSTRACT TRUNCATED AT 250 WORDS)     

Effects of beta-adrenergic blockade on the glomerular and tubular response to acute renal denervation.

Using micropuncture techniques in euvolemic adult male Munich-Wistar rats, we assessed the functional role of renal beta-adrenoceptors in mediating neural control of glomerular filtration and proximal tubular reabsorption. The determinants of nephron filtration and rate of proximal tubular reabsorption were measured in two groups of animals before and after acute surgical renal denervation (DNX). Group A animals (n = 6) were pretreated with the beta-adrenoceptor antagonist propranolol (25 mg/kg body weight per day for 4-6 days). Group B animals (n = 7) served as non-beta-blocked controls. Acute renal DNX resulted in no significant change in nephron filtration rate or any of its determinants in either group. Acute DNX caused similar decrements in the rate of fluid reabsorption from the proximal convoluted tubule of beta-blocked and control rats. Loop of Henle fluid reabsorption did not appear to be affected by DNX in either group. Because the effect of denervation on proximal tubular reabsorption was not conditioned by prior beta-blockade, the beta-adrenoceptors present within the proximal convoluted tubule do not appear to be the primary mediators of the adrenergic influence on fluid transport in that segment of the nephron.     

新型袢利尿剂托拉塞米治疗心衰进展

组织水肿是心衰发生、发展过程中的重要环节,袢利尿剂的应用是心衰治疗的重要组成部分.托拉塞米是一种新型的吡啶磺酰脲类袢利尿剂.近十余年的研究证实,托拉塞米在心衰的治疗方面有良好的作用:利尿作用更强、生物利用度更高、半衰期更长、作用更持久;对电解质、血糖、血脂代谢均无影响;主要在肝脏代谢.因此,对肾脏功能不全者不会产生蓄积,可以长期使用.本文就新型袢利尿剂托拉塞米治疗心衰的研究作一综述.     

Effects of the calcium antagonist nicardipine on renal function and renin release in dogs

The effects of nicardipine, classed as a calcium antagonist, on renal hemodynamics, renal function, and renin release were investigated in pentobarbital-anesthetized dogs. Intrarenal infusion of this drug at a rate of 5 micrograms/min in both hydrated and hydropenic dogs resulted in a significant increase in renal blood flow, glomerular filtration rate, urine flow, and renin release, with a significant fall in systemic blood pressure. The intrarenal blood flow as measured by the microsphere method indicated a greater increase in flow rate in the juxtamedullary than in the superficial area. During nicardipine infusion, free water reabsorption rate (TcH2O) in hydropenic dogs or free water production (CH2O) in hydrated dogs increased in proportion to the urine flow. Neither TcH2O/CH2O nor CH2O/osmolar clearance were significantly changed throughout the experiments. These data suggest that nicardipine did not inhibit sodium transport at the medullary portion of the ascending limb of Henle, and that the increase in GFR might induce an enhancement of the delivery of sodium to the Henle loop. In addition, an intrarenal hemodynamic alteration may be one possible mechanism involved in the diuretic action of nicardipine. Calcium-antagonistic actions of nicardipine may account for the changes in renal parameters.     

Localization of the nephron site of gentamicin-induced hypercalciuria in the rat: a micropuncture study

In vivo renal micropuncture techniques were used to locate the nephron site of hypercalciuria induced by acute gentamicin infusion in anaesthetized Sprague Dawley rats. Three series of experiments were conducted. The effect of gentamicin on calcium reabsorption in the proximal tubule (Series I) and loop of Henle (Series II) was investigated using in vivo microperfusion whereas the effect on distal calcium handling (Series III) was studied using in vivo microinfusion. In all three experimental series, acute systemic gentamicin infusion at 0.28 mg kg(-1) min(-1) caused significant hypercalciuria within 30 min of commencing drug infusion. Gentamicin had no effect on the rates of urine flow or sodium excretion. Acute gentamicin infusion had no effect on unidirectional calcium reabsorption in the proximal tubule or loop of Henle despite a simultaneous and highly significant hypercalciuria at the whole kidney level. Net fluid reabsorption was also unaffected by the drug in these nephron segments. Acute gentamicin infusion significantly increased the urinary recovery of calcium following microinfusion into early distal tubules, whereas urinary calcium recovery was decreased after microinfusion into late distal tubules. We conclude that acute gentamicin-induced hypercalciuria is mediated by a decrease in calcium reabsorption in the early distal tubule. Thus, the acute hypercalciuric effect of gentamicin occurs at a different nephron site to the nephrotoxic effects associated with longer-term administration of the drug. It is, therefore, unlikely that gentamicin-induced hypercalciuria is involved in the pathogenesis of subsequent proximal tubular cell injury.     

Torasemide (LUPRAC): a review of its pharmacological and clinical profile

Loop diuretics potently excrete water and electrolytes and therefore have been widely prescribed for the treatment of various kinds of edema for a long time. The potent diuretic action of loop diuretics, however, often causes hypokalemia, and therefore potassium sparing diuretics have also been supplied as a concomitant drug. Torasemide (LUPRAC), a novel diuretics, shows not only an effective loop diuretic action but also a potassium sparing action due to its anti-aldosteronergic effect. Torasemide also has a high bioavailability and is only slightly influenced by meals in humans. In addition, its pharmacodynamic features contribute to its stable diuretic action without any individual differences. In animal experiments, torasemide showed about a tenfold more potent diuretic action in comparison with furosemide, an authentic loop diuretic. On the one hand, the increase in the urinary potassium excretion by torasemide was relatively slight compared to the increase in urinary sodium excretion and, as a result, the urinary sodium to potassium (Na+/K+) ratio increased. The diuretic profile of torasemide was equal to that of the concomitant use of furosemide and an anti-aldosteronergic drug, spironolactone. Torasemide showed a significant efficacy and safety in comparison with furosemide in the patients with edema in both domestic and foreign clinical studies. Moreover, torasemide also showed a decreased rate of cardiac death in comparison to furosemide in patients with chronic heart failure in a large-scale clinical study (TORIC Study). The difference in cardiac death between these two diuretics has been suggested to depend on the anti-aldosteronergic effect of torasemide. In Japan, no new loop diuretics have been developed in over 10 years. Torasemide is therefore expected to be useful as an effective diuretic for diseases with edema.     

Pharmacokinetics of torasemide and its metabolites in healthy controls and in chronic renal failure

Summary The pharmacokinetics of 20 mg torasemide i.v. has been studied in 7 healthy controls and 9 patients with varying degrees of renal impairment.Torasemide had a t_1/2 of about 4 h which was independent of kidney function, as the nonrenal clearance of torasemide was 3-times greater than its renal clearance. The active metabolite M1 and the main metabolite M5 were accumulated in chronic renal failure.In contrast to liver function, therefore, kidney failure does not have an important effect on the pharmacokinetics of torasemide.     

托拉塞米的临床应用与评价

评价托拉塞米注射液在治疗水肿性疾病的利尿效果及安全性，对托拉塞米的作用机制、药效学、药动学、临床应用、安全性及用法用量进行综述。短期应用托拉塞米注射液治疗水肿性疾病利尿效果显著，不良反应少，值得临床推广应用。     

Maleate induced fall of glomerular filtration rate

Summary Maleate causes an enhanced excretion of amino acids, glucose, phosphate and bicarbonate. In addition to this inhibition of fluid and electrolyte reabsorption malate decreases glomerular filtration rate (GFR). The present investigation was designed to study the mechanisms of this fall in GFR.In group I (Sprague-Dawley rats;N=8) maleate (2 mmol/kg body weight i.v.) increased the hydrostatic pressure in proximal tubule from 12.6±0.5 to 16.3±0.8 mm Hg (mean+SEM) and stop flow pressure in the first accessible loop of the proximal tubule was unchanged (33.6±0.4 vs 33.1±1.3 mm Hg; n.s.). Directly measured hydrostatic pressure in the glomerular capillaries in Munich-Wistar rats (N=7), however, was reduced by maleate from 47.6±1.6 to 42.4±1.9 mm Hg. In group II (N=8) we determined single nephron filtration rate (SNGFR) from distal and proximal collection sites in the same nephron in a paired fashion under control conditions and after maleate administration to assess the activity of the tubuloglomerular feedback. In the control periods SNGFR (16 nephrons) from distal collection sites was 26.3±1.6 nl/min whereas SNGFR from proximal collection sites was 31.8±2.4 nl/min. Following maleate distal SNGFR (17 nephrons) was 15.2±1.7 nl/min and proximal SNGFR was 24.3±2.2 nl/min. The ratio distal/proximal SNGFR was 1.23±0.07 under control conditions and increased to 1.76±0.1 following maleate indicating enhanced activity of tubuloglomerular feedback.Following maleate (group III;N=8) the chloride concentration in the late proximal tubular fluid fell from 135±4 mmol/l to 121±6 mmol/l (13 tubules), however, in the early distal tubule we found an increase in chloride concentration from 43±3 mmol/l to 62±6 mmol/l (12 tubules). Delivery of chloride to the loop of Henle was 2,107±221 pmol/min in the control periods and decreased to 1,475±200 pmol/min during maleate. Since early distal chloride delivery increased from 199±24 pmol/min to 364±47 pmol/min following maleate inhibition of chloride reabsorption in the loop of Henle has to be assumed. We conclude that maleate decreases glomerular filtration rate first by an elevation of hydrostatic pressure in the proximal tubule which is the result of inhibition of fluid and electrolyte reabsorption, and second by activation of the tubuloglomerular feedback.     

Kappa-opioid-receptor agonists modulate the renal excretion of water and electrolytes in anaesthetized rats.

1. Subcutaneous injection of the kappa-opioid agonists U50,488 (10 mg kg-1) and tifluadom (3.5 mg kg-1) into Inactin-anaesthetized, saline-infused rats was associated with a diuresis, antinatriuresis and antikaliuresis which lasted for up to 2 h. A high (5 mg kg-1), but not low (0.1 mg kg-1), dose of naloxone blocked the renal effects of U50,488. 2. U50,488 administration in anaesthetized, vasopressin-deficient Brattleboro DI rats was associated with an attenuated diuresis, though the antinatriuretic response remained intact. 3. The diuretic action of U50,488 was associated with an increase in glomerular filtration rate while fractional fluid reabsorption remained steady. In contrast, fractional sodium and potassium reabsorption were increased. 4. These data suggest that kappa-opioid agonists alter renal handling of both water and electrolytes. This appears to be mediated by two separate mechanisms: increased fluid loss largely reflects altered glomerular events while the fall in electrolyte excretion results from altered tubular handling.