Franck Martinez

Foscarnet Nephrotoxicity: Mechanism, Incidence and Prevention

Foscarnet is a pyrophosphate analogue that has been successfully used in severe cytomegalovirus (CMV) infections. Little is known of the incidence and mechanisms of foscarnet-induced nephrotoxicity as most data comes from recipients of renal allografts or from patients with severe underlying disease or with other nephrotoxic drugs. We have retrospectively analyzed the evolution of renal function after 56 courses of foscarnet. In addition, we have prospectively studied the protective effects of hydration on foscarnet nephrotoxicity (2.5 liters of saline/day during the night before the foscarnet therapy and throughout the course of treatment). Foscarnet-induced acute renal failure was defined as a rise in serum creatinine of at least 25% from the basal value. An increase in serum creatinine occurred in 37 cases out of the 56 courses of foscarnet (66%). The mean serum creatinine prior to foscarnet was 80.5 +/- 3.3 mumol/l and the mean increase was 190 +/- 28.3 mumol/l (range 80-1,000). Peak serum creatinine was higher than 200 and 300 mumol/l in 16 and 13 patients, respectively. Kidney obtained at autopsy from a 30-year-old male with AIDS, CMV pneumonitis and acute renal failure secondary to foscarnet administration showed an extensive tubular necrosis. In the group which was prospectively hydrated only 1 patient had an acute renal failure. The mean serum creatinine at the peak (96 +/- 4 mumol/l) and at the end of the treatment (83 +/- 4 mumol/l) was significantly lower (p less than 0.05) than in non hydrated patients. In conclusion, foscarnet is a highly nephrotoxic drug which induces acute tubular necrosis.(ABSTRACT TRUNCATED AT 250 WORDS)

A Role for Adenosine Calcium and Ischemia in Radiocontrast-Induced Intrarenal Vasoconstriction

These studies were designed to test the hypothesis that adenosine and calcium are important in mediating radiocontrast-media-associated reduction in renal blood flow (RBF) in the dog. Intravenous verapamil (V) and diltiazem (DTZ) infusion significantly attenuated the magnitude of the vasoconstrictor response observed after each intrarenal contrast media (CM) injection. (First injection: -47 +/- 8% control vs. -14 +/- 3% V, p less than 0.03; -38 +/- 4% control vs. -19 +/- 3% DTZ, p less than 0.02. Second injection: -33 +/- 6% control vs. -12 +/- 1% V, p less than 0.03; -32 +/- 5% control vs. -17 +/- 2% DTZ, p less than 0.03. Third injection: -32 +/- 6% control vs. -11 +/- 5% V, p less than 0.03; -38 +/- 5% control vs. -10 +/- 5% DTZ, p less than 0.02). Furthermore, V and DTZ almost completely abolished the increase in renal vascular resistance (RVR) induced by each CM administration. Theophylline also significantly attenuated the magnitude of the vasoconstrictor response observed after CM injection (first injection: -31 +/- 3% control vs. -12 +/- 3% theophylline, p less than 0.05; second injection: -26 +/- 3% control vs. -12 +/- 3% theophylline, p less than 0.03). Similarly, theophylline blunted the increase in RVR induced by CM injection. In addition, theophylline inhibited exogenous adenosine-induced decrease in RBF (-61 +/- 10% and -26 +/- 1% decrease in RBF without and with theophylline, respectively). In contrast, dipyridamole significantly enhanced the vasoconstriction induced by CM (first injection: 25 +/- 3% control vs. 49 +/- 4% dipyridamole; second injection: 31 +/- 3% control vs. 48 +/- 4% dipyridamole p less than 0.05).(ABSTRACT TRUNCATED AT 250 WORDS)

Renal effects of radiocontrast agents in rats: a new model of acute renal failure.

The objectives of this study were first to develop a reproducible and reversible model of acute renal failure following contrast medium infusion in the rat; second to use that method to compare the nephrotoxicity of low- and high-osmolar contrast agents. Contrast media or saline were perfused in the aorta while a clamp was applied on the aorta just above the renal artery. Three minutes of renal ischemia with or without infusion of isotonic saline induced no change in serum creatinine and a slight and transient decrease in creatinine clearance at 24 h. Urinary N-acetyl glucosaminidase (NAG) excretion was not modified in this control group. All 17 kidneys which were examined were normal. 2,100 mosm/kg hypertonic saline induced a significant increase in serum creatinine and a significant decrease in creatinine clearance (from 1.8 +/- 0.1 to 0.8 +/- 0.1 and 1.0 +/- 0.2 ml/min at 24 and 48 h, respectively). Urinary NAG excretion increased from 23 +/- 18 to 48 +/- 20 and 8 +/- 4 mumol h-1/mmol creatinine at 24 and 48 h, respectively (p less than 0.05). Histologic analysis of 5 kidneys revealed acute tubular necrosis (n = 3) and no histologic abnormalities (n = 2). Diatrizoate induced an acute and reversible renal failure. Creatinine clearance decreased from 1.6 +/- 0.1 to 0.4 +/- 0.1 and 0.8 +/- 0.1 ml/min at 24 and 48 h, respectively (p less than 0.01). Urinary NAG excretion increased also significantly from 43 +/- 9 to 352 +/- 79 and 64 +/- 23 mumol h-1/mmol creatinine at 24 and 48 h, respectively.(ABSTRACT TRUNCATED AT 250 WORDS)

Low urine flow reduces the capacity to excrete a sodium load in humans

Recent studies in rats suggest that vasopressin and the resulting urinary concentrating activity reduce the capacity of the kidney to excrete sodium. The present study investigates the influence of the level of hydration on the excretion of a sodium load in humans. Eight healthy male volunteers (18-35 yr) were studied twice, in random order, under either low (LowH) or high (HighH) hydration. They drank throughout the study either 0.25 (LowH) or 2.0 ml water/kg body wt (HighH) every 30 min. After 1 h equilibration, urine was collected for 2 h before (basal) and 10 h after the NaCl load (5 g NaCl in 250 ml, infused intravenously over 30 min). Differences in excretory patterns between LowH and HighH were mostly confined to the first 4 h after the load. The increase in Na excretion after the load was more intense under HighH than under LowH (+10.9 ± 2.6 vs. +5.8 ± 2.7 mmol/h in the first 4 postload h; P < 0.001). Under HighH, urine flow rate (V) increased markedly (+41%), with little change in urinary Na concentration (UNa), whereas under LowH, V declined slightly and UNa rose significantly (+33%). The capacity to raise UNa seemed to reach a maximum at ≈280 mM. In both conditions, the changes in UNa observed after the load were positively correlated with basal UNa. After the load, urea excretion increased under HighH and decreased under LowH, whereas K excretion was unaffected in either condition. These results show that sodium excretion is facilitated by an abundant water supply. The less efficient sodium excretion occurring at low V is probably due to the influence of vasopressin on water, urea, and sodium movements across the collecting ducts. These observations suggest that, in everyday life, a low water intake could limit the capacity to excrete sodium. Whether this could contribute to salt-sensitive hypertension remains to be evaluated.Recent studies in rats suggest that vasopressin and the resulting urinary concentrating activity reduce the capacity of the kidney to excrete sodium. The present study investigates the influence of the level of hydration on the excretion of a sodium load in humans. Eight healthy male volunteers (18-35 yr) were studied twice, in random order, under either low (LowH) or high (HighH) hydration. They drank throughout the study either 0.25 (LowH) or 2.0 ml water/kg body wt (HighH) every 30 min. After 1 h equilibration, urine was collected for 2 h before (basal) and 10 h after the NaCl load (5 g NaCl in 250 ml, infused intravenously over 30 min). Differences in excretory patterns between LowH and HighH were mostly confined to the first 4 h after the load. The increase in Na excretion after the load was more intense under HighH than under LowH (+ 10.9 +/- 2.6 vs. + 5.8 +/- 2.7 mmol/h in the first 4 postload h; P < 0.001). Under HighH, urine flow rate (V) increased markedly (+ 41%), with little change in urinary Na concentration (UNa), whereas under LowH, V declined slightly and UNa rose significantly (+ 33%). The capacity to raise UNa seemed to reach a maximum at approximately 280 mM. In both conditions, the changes in UNa observed after the load were positively correlated with basal UNa. After the load, urea excretion increased under HighH and decreased under LowH, whereas K excretion was unaffected in either condition. These results show that sodium excretion is facilitated by an abundant water supply. The less efficient sodium excretion occurring at low V is probably due to the influence of vasopressin on water, urea, and sodium movements across the collecting ducts. These observations suggest that, in everyday life, a low water intake could limit the capacity to excrete sodium. Whether this could contribute to salt-sensitive hypertension remains to be evaluated.

Acute renal effects of AT1-receptor blockade after exogenous angiotensin II infusion in healthy subjects.

In 10 healthy normotensive volunteers on a normal sodium diet, we evaluated the renal effects of a single oral dose of 50 mg of irbesartan (SR 47436, BMS 186295), an angiotensin II AT1-receptor antagonist, in baseline conditions and during an exogenous angiotensin II infusion (2.5 ng/kg/min). We used a double-blind, placebo-controlled, crossover design. Hormones, blood pressure, renal hemodynamics, and urinary electrolytes were measured during each phase. To examine further the determinants of glomerular filtration at the microcirculation level, fractional clearance of neutral dextran was performed, and sieving curves were applied on a hydrodynamic model of ultrafiltration. Irbesartan administration was followed by an increase in active renin and plasma angiotensin II concentrations and renal plasma flow without change of systemic blood pressure, glomerular filtration rate, or plasma aldosterone concentration. Irbesartan did not affect either sieving curves or glomerular ultrafiltration determinants. Angiotensin II infusion at 2.5 ng/kg/min elicited a slight pressor response accompanied by a decrease in glomerular filtration rate and renal plasma flow and an enhancement of fractional dextran clearance over the radius range explored (3.4-5.4 nm). The transcapillary glomerular pressure gradient deltaP and the ultrafiltration coefficient kf were computed to increase by 9% and to decrease by 23%, respectively, without change in intrinsic membrane properties. Pretreatment with irbesartan prevented all these effects of angiotensin II.

Renal and hemodialysis clearances of endogenous natriuretic peptide: a clinical and experimental study

The purpose of the present study was to assess the plasma levels of atrial natriuretic peptide (ANP) in chronically uremic patients not submitted to dialysis and to determine the predialysis plasma concentration of ANP, the effect of ultrafiltration on plasma levels of ANP (hemodialysis, (HD), and the HD clearance of ANP in a population of adult patients treated with maintenance HD. The mean plasma ANP concentration (pg/ml) in HD was 370.2 +/- 35.5 pg/ml (mean +/- SEM) before HD and decreased to 165.3 +/- 15.2 after HD (p less than 0.01). Both values were significantly higher than in controls (28 +/- 2; n = 39). The changes in plasma ANP levels correlated inversely with those in plasma protein concentration (r = -0.53; p less than 0.03; y = 48.6 +/- 0.8 x). ANP clearance across the cuprophan membrane averaged 13 +/- 6.4 ml/mn. Resting plasma ANP values in the 16 uremic patients ranged between 16 and 277 pg/ml (124 +/- 11 pg/ml). These levels were significantly higher than those observed in controls (p less than 0.01). In these patients there was a highly significant correlation between serum creatinine and plasma ANP concentrations (p less than 0.01; r = 0.75; y = 0.2x + 3). Furthermore we report the results of the determination of the renal clearance of ANP in normal dogs. In all dogs a fall in plasma ANP concentration was recorded between the aorta (28.6 +/- 4.5 pg/ml) and the renal vein (14.2 +/- 2.7 pg/ml). The renal extraction ratio averaged 51.3 +/- 3.7%. Mean ANP renal clearance was 38.2 +/- 5.2 ml/mn.(ABSTRACT TRUNCATED AT 250 WORDS)

Comparative nephrotoxicity of carboplatin and cisplatin in euvolemic and dehydrated rats

The aim of this study was to compare the renal tolerance of cisplatin and carboplatin in euvolemic and dehydrated rats. A total of 79 euvolemic or dehydrated male rats were randomly assigned to receive cisplatin (5 mg/kg body weight, i.p.), carboplatin (40 mg/kg body weight, i.p.) or vehicle. Body weight, serum creatinine, creatinine clearance, fractional excretion of sodium and urinary NAG excretion were recorded on days 1 and 5. Glomerular filtration rate (GFR), effective renal plasma flow (ERPF) and renal histology were determined on day 5. In the euvolemic and dehydrated control and carboplatin groups we observed no change in serum electrolytes, serum creatinine, creatinine clearance, GFR and ERPF. In the euvolemic and dehydrated control groups we observed no change in urinary NAG excretion. Carboplatin induced a slight but significant increase in urinary NAG excretion. In dehydrated rats carboplatin induced a significantly higher increase in urinary NAG excretion than in euvolemic rats. Cisplatin induced a marked and significant decrease in GFR and ERPF, and a significant increase in NAG. Dehydration markedly potentiated cisplatin nephrotoxicity. Euvolemic rats treated with cisplatin exhibited slight renal lesions with a mean score which was similar to the control group. The most extensive lesions were observed in euvolemic and dehydrated cisplatin treated rats with tubular necrosis in the outer stripe of the medulla. The mean total nephrotoxicity score of dehydrated cisplatin treated rats was significantly higher than that of the euvolemic cisplatin treated rats. The results in this study indicate that carboplatin is a promising second generation platinum analog with respect to decreased renal toxicity as compared with cisplatin and may be particularly useful in patients with risk factors such as chronic renal failure or in patients who cannot bear hyperhydration.

Incidence et prise en charge de l'anémie en transplantation rénale : une étude observationnelle française

The management of anemia after kidney transplantation remains poorly explored. The Management of Anemia in French Kidney Transplant Patients (MATRIX) study is an observational study conducted in 10 academic hospitals among kidney-transplant patients designed to evaluate the prevalence, associated factors and management of post-transplant anemia. Over two consecutive weeks, 418 recipients (males: 248; age: 50.8+/-12.7 years) were included, all were transplanted for more than six months. Mean serum creatinine (Scr) was 152+/-67 micromol/l and mean hemoglobin (Hb) was 12.4+/-1.8 g/dl (males: 12.8+/-1.9 g/dl; females 11.9+/-1.6 g/dl). Irrespective of the delay following transplantation, 23% of patients (n=95) were severely anemic (Hb < or = 11 g/dl). Eighteen percent of the patients received an antianemic treatment (10% oral iron, 7% erythropoiesis stimulating agents (ESA), 4% folic acid) and only 35% of the severely anemic patients were actually treated (n=33). A significantly-negative correlation was observed between eGFR and Hb levels (R= -0.347, p<0.02). Ninety-six percent of the 193 patients transplanted for more than six months and a Scr greater than 150 micromol/l (n=185) suffered at least one comorbidity (89% hypertension, 32% hypercholesterolemia, 13% diabetes); this group represent the second cohort. Seventy-four percent of them were treated with mycophenolate mofetil, 16% with azathioprine, and 62% with an ACEI or angiotensin II receptor antagonists. Since the transplantation, 127 patients (66%) have been anemic (Hb < or = 11 g/dl) and 58% (n=112) were treated (iron and/or ESA, respectively 81 and 55%). Among the patients not treated for anemia, 74% had an Hb level below 12g/dl. ESA-treated patients received a mean dose of 8500 UI+/-2800 per week. Anemia is under-diagnosed and under-treated in renal-transplant recipients, despite its high prevalence. As expected, a correlation between renal function and Hb levels was observed, as in CKD patients. Prospective studies are underway to assess the consequences of postkidney transplant anemia on quality of life, cardiovascular morbidity and chronic allograft nephropathy and to define the benefit of the treatment.

Traitements immunosuppresseurs : mécanismes d’action et utilisation clinique

Renal transplantation is the treatment of choice of end stage renal failure. It both improves the quality and the quantity of life compared to other techniques, such as hemodialysis. These results are partly related to the use of immunosuppressive therapy more effective and whose handling has improved over time. Advances in understanding the mechanisms of lymphocyte activation and the phenomena of rejection have in fact better defined the use of these treatments and their associations. Treatments can be broadly classified according to their characteristics (biological or chemical). Among chemical treatments, steroids are widely used, although the question of their avoidance or spearing is still a matter of debate. The cornerstone of immunosuppressive regimens remains the calcineurin inhibitors, characterized by a narrow therapeutic index and the need for therapeutic drug monitoring. Inhibitors of mammalian target of rapamycin (mTOR) have interesting antiproliferative effects that could be important against chronic allograft dysfunction and/or carcinogenesis. However, their safety profile makes them difficult to handle. Inhibitors of purine synthesis are largely based on inhibitors of inosine monophosphate dehydrogenase (IMPDH). Their effectiveness makes them privileged partners of other therapeutic classes. Among biological treatments, it is possible to separate the depleting and non depleting antibodies. Among the former, antithymocyte globulins are mainly active in T cells, whereas rituximab, a monoclonal anti-CD20, is active in B cells involved in the phenomena of humoral rejection. The non depleting antibodies are represented by anti-CD25, directed against the receptor for interleukin-2. In the near future it is likely that the belatacept, a costimulation blockade fusion protein will be used to allow calcineurin inhibitors sparing. Other immunosuppressive agents, acting at different levels of the immune response are being evaluated. In addition, advances in pharmacology offered hope of a better individualization of immunosuppressive therapies and better definition of therapeutic strategies used.

Ciclosporin-Nicardipine Interaction

Dr. Gilbert Deray, Departments of Nephrology and Biochemistry, Hopital Pitié-Salpêtrière, F-75631 Paris (France) It has been reported that calcium channel blockers induce a rise in serum ciclosporin as estimated with the radioimmunoassay (RIA) kits based on polyclonal antibody [1–3]. Increased ciclosporin blood concentrations may be due to interference by nicardipine with ciclosporin clearance, probably because both drugs are predominantly eliminated by the liver via cytochrome P 450 hepatic enzymes. Recently, a new specific monoclonal RIA for the therapeutic monitoring of ciclosporin has replaced the old RIA kits. We report the effect of nicardipine on ciclosporin levels using both RIA kits. A 60-year-old woman was given ciclosporin for idiopathic uveitis. Nicardipine 20 mg three times daily was associated in a prospective attempt to prevent ciclospo-rin-induced renal damage. Six months later her serum creatinine was 90 jxmol/l, and the daily ciclosporin dosage was 4 mg/kg with a serum through level of 152 ng/ml and 98 ng/ml with the polyclonal and monoclonal RIA kits, respectively. Nicardipine was then interrupted, while ciclosporin was kept unchanged. Nicardipine withdrawal induced a sharp decline in serum ciclosporin levels estimated with both RIA kits (fig. 1). Renal function remained unchanged. Our results strongly suggest that nicardipine affects either ciclosporin bioavailability or hepatic metabolism and not the metabolism of ciclosporin metabolites. When monitoring ciclosporin therapy with a specific monoclonal RIA one should be aware that nicardipine increases serum ciclosporin levels.