Measurement of residual glomerular filtration rate in the patient receiving repetitive hemodialysis.

The objective of the current study was to determine the best index of residual glomerular filtration rate (GFR) by comparing simultaneously measured clearances of inulin, 125I-iothalamate, endogenous creatinine, urea and 169ytterbium diethylenetriaminepentaacetic acid (169YB-DTPA) in patients receiving repetitive hemodialysis. In patients with GFR less than 5 ml/min but greater than 1 ml/min, 125I-iothalamate clearance showed the best correlation with inulin clearance. However, creatinine clearance correlated better with inulin clearance than urea clearance and as well as urea + creatinine/2. In the patients with measured GFR less than 1 ml/min, the correlation of 125I-iothalamate, creatinine, urea and urea + creatinine/two clearances with inulin clearance was satisfactory. Similarly, satisfactory correlations were obtained when the relationships were examined across the entire range of measured clearances less than 5 ml/min. A simple, practical method is descriged for the accurate serial measurement of residual GFR in patients receiving repetitive dialysis.     

125Iodine-iothalamate clearance in children. A simple method to measure glomerular filtration

Glomerular filtration rate (GFR) is the most widely used test to evaluate renal function. Several clearance markers have been used to measure GFR in adults. In children, however, a simple and reliable method to measure GFR is not available. Renal¹²⁵iodine (I)-iothalamate clearance, after a single subcutaneous injection, is a simple and accurate test to measure GFR in adults. The validity of unlabelled iothalamate, as a marker for measurement of GFR in children, was reported recently. Unfortunately, the unlabelled iothalamate assay is arduous. We report our experience with a single subcutaneous injection of¹²⁵I-iothalamate to measure GFR in normal children and those with renal disease. A weight-adjusted dosing regimen was adopted. This regimen resulted in sufficient above-background radioactivity in both blood and urine for reproducible measurement of GFR. Intra-test variability for GFR was not affected by the degree of renal insufficiency. The test was well tolerated with only 2 patients developing mild headache during the procedure. Our study showed that renal clearance of¹²⁵I-iothalamate is reproducible, simple, and practical in healthy children and those with mild and advanced renal disease.     

Assessment of glomerular filtration and tubular secretion in baboons with life-supporting pig kidney grafts

With pig kidney xenotransplantation nearing clinical reality, it is imperative to measure pig kidney function in the graft recipients. Our aims were (i) to compare inulin clearance after a short intravenous (IV) bolus with steady-state inulin IV infusion, (ii) to use this method to measure the glomerular filtration rate (GFR), and (iii) to determine the tubular secretory function using cefoxitin in a pig-to-baboon renal transplant model. A short IV infusion of inulin and cefoxitin were followed by a maintenance IV infusion of inulin over 5 h in seven healthy baboons, three healthy pigs, and five baboons after bilateral native nephrectomy and intra-abdominal pig renal transplantation. Blood and urine samples were collected. Serum and urinary inulin and serum cefoxitin concentrations measured by validated assays were used to calculate GFR and renal secretion. GFR calculated were similar by both methods. The body weight normalized total body clearance of inulin was similar in pigs and baboons despite differences in absolute clearances. Pig kidney transplanted into baboons provided similar clearance in baboons when normalized to baboon body weight and sustained filtration and secretory functions. The study documented that pig kidneys support the physiologic needs of baboons and are likely to support human recipients as well.     

Determination of glomerular filtration rate in advanced renal insufficiency.

The glomerular filtration rate (GFR) has been determined in 17 patients with advanced renal insufficiency (GFR less than 15 ml/min) by different clearance techniques using creatinine, inulin and 51Cr-EDTA as filtration markers. With renal inulin clearance as reference method for GFR, endogenous renal creatinine clearance overestimated GFR by an average of 30%. Renal clearance of 51Cr-EDTA and inulin were closely correlated and thus 51Cr-EDTA is a suitable GFR marker even at low filtration rates. However, it was found that the plasma clearance of 51Cr-EDTA overestimated the GFR often by more than 100% in the range 2.6--11.2 ml/min. Renal clearance measured during 24 h was lower than 4 h renal clearance with the patient well hydrated and resting in bed. It is concluded that the precise measurement of low glomerular filtration rates requires the use of renal clearance techniques. Four-hour 51Cr-EDTA renal clearance is a suitable method for measuring and following the development of renal function in advanced renal insufficiency.     

Determining 'true' glomerular filtration rate in healthy adults using infusion of inulin and comparing it with values obtained using other clearance techniques or prediction equations

OBJECTIVE: To determine 'true' glomerular filtration rate (GFR) in healthy adults as renal clearance following infusion of inulin, and compare that result with those obtained using other markers and clearance techniques and with estimations of GFR using creatinine-based prediction equations. MATERIAL AND METHODS: Twenty healthy volunteers (11 females) with a median age of 27 years (range 19-36 years) received bolus doses of inulin and iohexol i.v. and 16 blood samples were taken after injection. Then, inulin and iohexol were infused to give stable plasma concentrations and blood and urine samples were collected. Residual bladder volume was estimated using ultrasound scanning. Plasma and urine concentrations of inulin and iohexol were determined using chromatography and resorcinol methods, respectively. Different methods of GFR determination were compared as well as four formulae for GFR estimation based on serum creatinine. RESULTS: 'True' GFR, i.e. renal clearance of inulin during its infusion, was a median of 117 ml/min/1.73 m2 (inter-quartile range 106-129 ml/min/1.73 m2). Similar values of GFR were obtained with renal clearance of iohexol during its infusion and also with plasma (body) clearance of inulin or iohexol following bolus injections and using 16 or five plasma samples. Endogenous creatinine clearance was higher (p<0.001) than true GFR (median 23 ml/min/1.73 m2). Plasma clearance of iohexol and inulin based on their concentrations in four blood samples underestimated their renal clearance considerably. All four creatinine-based formulae markedly underestimated renal inulin clearance. CONCLUSIONS: Plasma and renal clearance of iohexol and inulin were similar in healthy adults. Underestimation of GFR was noted when plasma clearance of iohexol and inulin was based on four but not five or more blood samples. Some prediction equations underestimate true GFR to such an extent that caution must be taken when using them to evaluate normal or high GFR values.     

Limitations of creatinine as a filtration marker in glomerulopathic patients

To determine the reliability of creatinine as a measure of the glomerular filtration rate (GFR), we compared the simultaneous clearance of creatinine to that of three true filtration markers of graded size in 171 patients with various glomerular diseases. Using inulin (radius [rs] = 15 A) as a reference marker, we found that the fractional clearance of 99mTc-DTPA (rs = 4 A) was 1.02 +/- 0.14, while that of a 19 A rs dextran was 0.98 +/- 0.13, with neither value differing from unity. In contrast, the fractional clearance (relative to inulin) of creatinine (rs = 3 A) exceeded unity, averaging 1.64 +/- 0.05 (P less than 0.001), but could be lowered towards unity by acute blockade of tubular creatinine secretion by IV cimetidine. Cross-sectional analysis of all 171 patients revealed fractional creatinine secretion to vary inversely with GFR. This inverse relationship was confirmed also among individual patients with either deteriorating (N = 28) or remitting (N = 26) glomerular disease, who were studied longitudinally. As a result, changes in creatinine relative to inulin clearance were blunted considerably or even imperceptible. We conclude that true filtration markers with rs less than 20 A, including inulin, are unrestricted in glomerular disease, and that creatinine is hypersecreted progressively by remnant renal tubules as the disease worsens. Accordingly, attempts to use creatinine as a marker with which to evaluate or monitor glomerulopathic patients will result in gross and unpredictable overestimates of the GFR.     

Renal function, sodium and water homeostasis in patients with idiopathic extrahepatic portal vein thrombosis compared with normal healthy controls.

OBJECTIVES: To determine whether portal hypertension in the absence of liver disease contributes to changes in renal function and renal sodium and water handling. METHODS: Nine patients with extrahepatic portal vein thrombosis (PVT) with normal liver function and histology were compared with 9 matched healthy control subjects. All underwent standard measurements of glomerular filtration rate and effective renal blood flow using inulin and paraaminohippuric acid (PAH) clearances, respectively. Sodium excretion and renin and aldosterone levels were studied before, during and after an intravenous saline infusion. RESULTS: At baseline there were no differences in inulin clearance, PAH clearance, fractional excretion of sodium and free water excretion. During and after the saline infusion both groups showed a significant increase in sodium excretion with a reduction in water excretion, while the PAH and inulin clearances remained unchanged. Although aldosterone and renin levels both fell after the infusion, aldosterone levels were significantly lower in the PVT group. There were no other significant differences between the PVT and control groups. CONCLUSION: Renal function and sodium and water handling were comparable in healthy controls and patients with PVT. It is unlikely that portal hypertension alone plays a significant role in the impaired ability to excrete sodium and water in patients with liver cirrhosis.     

Limitations of creatinine in quantifying the severity of cyclosporine-induced chronic nephropathy

The glomerular filtration rate (GFR), as measured by the clearance of inulin, was depressed severely in 34 heart transplant recipients receiving cyclosporine (CsA) for 12 months or longer. The clearance of 99mTc-DTPA, a filtration marker similar in size to creatinine, was identical to that of the larger inulin molecule. In contrast, the clearance of creatinine was enhanced (P less than .01) such that its fractional clearance (relative to inulin) averaged 1.51 +/- 0.05. Moreover, there was an inverse relationship between fractional creatinine clearance (r = 0.36, P less than .01) and absolute inulin clearance. We conclude that in CsA-induced chronic nephropathy 99mDTPA and inulin are unrestricted by the glomerular capillary wall and behave as true filtration markers, creatinine is progressively hypersecreted by renal tubules as the nephropathy worsens, and the ensuing enhancement of creatinine clearance over GFR blunts the expected rise in serum creatinine levels as GFR falls. As a result, serum creatinine in chronic CsA-induced glomerulopathy exceeds 2 mg/dL consistently, only after true GFR has become depressed below normal values by two thirds or more.     

Renal handling of enalaprilat.

Most converting enzyme inhibitors share a predominantly renal dual elimination pathway consisting of glomerular filtration and tubular secretion. Since enalaprilat has two functional acidic groups, it is likely that it may be secreted via the proximal tubule organic acid system and, thus, its clearances would exceed that of glomerular filtration rate markers. We therefore examined the renal clearance of enalaprilat in normal volunteers and compared it with simultaneously measured inulin and creatinine clearances to explore the contribution of tubular secretion to the renal elimination of the drug. Twelve healthy male subjects with an age range of 24 to 58 years (mean +/- SE, 33.1 +/- 2.8) were studied. They had representative height (178.6 +/- 1.99 cm) and weight (73.3 +/- 2.1 kg) and had normal renal function as judged by blood urea nitrogen (BUN) (6 +/- 0.3 mmol/L [17 +/- 0.8 mg/dL]), plasma creatinine (88 +/- 3 mumol/L [1.0 +/- 0.03 mg/dL]), and creatinine clearance determined by a prestudy 24-hour urine collection (123.2 +/- 6.2 mL/min). Results are as follows: mean creatinine clearance, 2.12 mL/s (127 mL/min); mean inulin clearance, 119.1 ml/min mean creatinine clearance/inulin clearance, 1.07 mean enalaprilat protein binding, 37.9% unbound enalaprilat clearance, 222.4 ml/min; and the mean fractional enalaprilat clearances were: enalaprilat clearance/creatinine clearance, 1.72 (P less than 0.05, difference from 1.0); enalaprilat clearance/inulin clearance, 1.85, (P less than 0.05, difference from 1.0). Our results demonstrate that the clearance of free enalaprilat exceeds that of inulin and creatinine, suggesting that elimination of the drug proceeds through two complementary pathways, namely glomerular filtration and tubular secretion.     

Accurate determination of renal function in patients with intestinal urinary diversions

The regular determination of renal function is a critical part of the management of patients who have had the urinary tract reconstructed with intestinal segments. These intestinal segments reabsorb urinary solutes and, thereby, complicate the determination of renal function by conventional methods. Urinary clearances of urea, creatinine and inulin were performed in patients with intestinal segments in the urinary tract and controls under varying diuretic conditions. Patients with intestinal diversions also underwent radioisotopic determination of renal function. The urinary clearances of urea, creatinine and inulin are highly dependent on the rate of urine flow in patients with intestinal segments in the urinary tract. Diuresis maximizes the urinary clearances of these solutes by minimizing intestinal reabsorption. Creatinine clearance prediction from the serum creatinine underestimates true glomerular filtration rate. Radioisotopic determination of renal function correlates poorly with true glomerular filtration rate. Only creatinine clearance measured under diuretic conditions correlates well with true renal function. Urine concentrating ability cannot be assessed accurately in patients with intestinal segments in the urinary tract, since osmolality rapidly equilibrates across the segments.     

Impact of age, body mass index, insulin resistance and proteinuria on the kidney function in obese patients with Type 2 diabetes and renal insufficiency

AIMS: To date, several different equations to predict the glomerular filtration rate (GFR) in patients with renal insufficiency have been developed for different patients groups. Our aim was to determine the prognostic factors of GFR in our homogenous patient group of obese, water-loaded patients with Type 2 diabetes and renal insufficiency, since we assumed that the endogenous creatinine clearance (ECC) alone may not be an accurate method to predict GFR. METHOD: We recruited 46 obese patients (37 men) with Type 2 diabetes and renal insufficiency in our nephrology center in Mettmann (Germany). However, two male patients were excluded from the analysis due to an outlying insulin level or low inulin clearance. The inulin clearance as a measure of renal function performed by the single shot method was compared with the GFR estimated by ECC, Cystatin C, and MDRD formula. Several multiple regression models were built to test the impact of the prognostic factors age, sex, body mass index (BMI), insulin resistance according to the homeostasis model assessment (HOMA), body water (TBW), brain natriuretic peptide (BNP), and proteinuria on the inulin clearance. In the main regression model to predict the inulin clearance by ECC, only the statistically significant prognostic factors of these models were selected, as well as the interaction between GFR predicted by ECC (GFR_ECC) and BMI. RESULTS: The prognostic factors GFR_ECC, age, BMI, HOMA and proteinuria had a statistically significant impact on the inulin clearance (the gold standard of the GFR) in our patient population (p < 0.05). However, the interaction of GFR_ECC and BMI was not significant (p = 0.06) in our model. The model was validated and considered well-fitted with a coefficient of determination (R2) of 0.69. CONCLUSIONS: The independent prognostic factors to determine GFR in obese, water-loaded diabetic patients are GFR_ECC, age, BMI, HOMA and proteinuria. However, our model should be revalidated and tested in a larger sample size to probably detect an interaction between GFR_ECC and BMI as an additional prognostic factor.     

Reliability of a 99mTc-DTPA gamma camera technique for determination of single kidney glomerular filtration rate. A comparison to plasma clearance of 51Cr-EDTA in one-kidney patients, using the renal clearance of inulin as a reference

In a recent paper we described a method for calculation of single kidney glomerular filtration rate (SKGFR) from the 99mTc-DTPA renogram obtained by gamma camera. Determination of the injected dose and collection of urine or blood was not needed. In this paper the reliability of the method was compared to other methods for estimation of GFR in 20 unilaterally nephrectomized patients. The renal clearance of inulin served as reference measure of GFR. The values for SKGFR obtained from the renograms and from the estimated endogenous creatinine clearances according to serum creatinine concentration and a nomogram were both accurate. The reliability of the renography method was significantly better judged by less variance in the estimates. SKGFR calculated from the plasma clearance of 51Cr-EDTA overestimated the renal clearance of inulin on an average by 11.3%. No difference was found in the variance of the values obtained from the renograms and from the plasma clearances of 51Cr-EDTA compared to the renal clearance of inulin. Apart from the inaccuracy in the GFR values calculated from the plasma clearance of 51Cr-EDTA, the reliability of these two methods was equal. The day to day variation of SKGFR estimated from the renograms in 24 patients (48 kidneys) with SKGFR values from 5 to 76 ml/min was 8.8%. This equals the day to day variation in the plasma clearance of 51Cr-EDTA.     

Creatinine clearance as a measure of GFR in screenees for the African-American Study of Kidney Disease and Hypertension pilot study

Serum creatinine and endogenous creatinine clearance (CrCl) are widely used measures of renal function. This study compares the precision, bias, and sources of error in using different CrCl measures to estimate the glomerular filtration rate (GFR) in 118 men and women screened for the African-American Study of Kidney Disease and Hypertension (AASK) pilot study. We measured serum creatinine, 24-hour CrCl, and CrCl during timed clearance periods conducted simultaneously with an 125I-iothalamate GFR study. Serum creatinine was measured using two different kinetic rate Jaffe methods (CX3 and Hitachi). After standardization for body surface area, the different measures of renal function available for each individual were compared with the 125I-iothalamate GFR simultaneous to the CrCl. In a subset of 50 participants, the CrCl measures were compared with a follow-up GFR (fGFR). The mean 125I-iothalamate GFR was 65.2 (SD, 26.4), with a range of 11 to 122 mL/min/1.73 m2. The mean +/- SD percentage differences from the GFR were -9%+/-22% for the Cockcroft-Gault estimated CrCl, 1%+/-29% for the 24-hour CrCl, and 8%+/-16% for the CX3 simultaneous CrCl. The Hitachi method overestimated serum creatinine and underestimated GFR. Compared with an fGFR, the mean +/- SD differences were 2%+/-19% for the first GFR, -6%+/-20% for the Cockcroft-Gault estimated CrCl, 10%+/-28% for the 24-hour CrCl, and 14%+/-29% for the CX3 simultaneous CrCl. Thus, the increased precision with which the timed CrCl predicted its simultaneous GFR did not extend to improved ability to predict a future GFR. The fractional excretion of creatinine, measured as the ratio of the CX3 simultaneous CrCl to 125I-iothalamate clearance, increased with decreasing GFR but was lower than expected (mean +/- SD of 1.21+/-0.16 for GFRs between 20 and 40 mL/min/1.73 m2). The lower fractional excretion explains why the 24-hour and Cockcroft-Gault CrCls did not overestimate GFR, but the reasons for this lower excretion are uncertain. Creatinine assay specificity and calibration are important sources of variability that must be examined in any CrCl measure of GFR. We conclude that despite requiring substantially more time and effort, neither the outpatient 24-hour urine nor the timed CrCl offered increased precision over a calculation based on serum creatinine, sex, age, and weight in predicting GFR.     

Cystatin C--a marker for assessment of the glomerular filtration rate in patients with cisplatin chemotherapy

BACKGROUND: Cystatin C has recently been proposed as an ideal marker for glomerular filtration rate (GFR). In this study, cystatin C serum levels were evaluated in comparison to serum creatinine concentrations and inulin clearances in patients with normal kidney function receiving cisplatin-based chemotherapy to assess the validity of cystatin C as an alternative endogenous marker of GFR. METHODS: Blood samples for the assessment of cystatin C, creatinine and inulin clearances were collected in patients before and after application of cisplatin in a clinical trial. Overall, 41 patients were included in the study, 35 of them were eligible receiving cisplatin in two different cisplatin-based chemotherapy schedules. RESULTS: A 21% increase of cystatin C serum levels was demonstrated in the placebo group after application of cisplatin. Analysis of inulin clearances revealed a 23% loss of inulin clearance in patients of the placebo arm. In contrast, significant changes could not be detected by analysis of serum creatinine levels. CONCLUSIONS: Cystatin C represents a more sensitive clinical marker than serum creatinine for the early assessment of GFR damage caused by cisplatin. Changes in cystatin C serum concentrations correlate well to GFR decrease as measured by inulin clearance.     

Assessing renal graft function in clinical trials: can tests predicting glomerular filtration rate substitute for a reference method?

BACKGROUND: In clinical trials, comparison of renal graft function needs a rigorous determination of glomerular filtration rate (GFR). Since reference methods to measure GFR cannot be easily implemented, a number of tests predicting GFR are usually used. However, little is known about their validity in renal transplant patients. We aimed to compare the performances of six GFR tests with inulin clearance in this population. METHODS: Five hundred consecutive inulin clearances performed in 294 renal transplant recipients with stable renal function were retrospectively selected. For each of them, we computed six estimates: the 24-hour creatinine clearance, the Cockcroft-Gault, Walser, Jelliffe, Nankivell, and Levey formulas. Their respective performance was assessed by correlation (simple linear regression), accuracy (dispersion of true error), and agreement (Bland and Altman method). RESULTS: Each GFR test closely correlated with inulin clearance (P < 0.0001). Comparisons between pairs of GFR tests did not show any significant difference in accuracy between the Levey, Jelliffe, and Walser formulas. Conversely, each of these formulas demonstrated a significant lower dispersion (P < 0.005) than the others. Nevertheless, all GFR tests displayed considerable lack of agreement with limits of agreement over 40 mL/min/1.73 m2 apart. The proportion of predicted GFR differing from inulin clearance by +/- 10 mL/min/1.73 m2, ranged from 34% for the Jelliffe formula to 53% for the Nankivell's one. CONCLUSION: None of these formulas seems to be able to safely substitute for inulin clearance. In clinical trials, renal graft function should be preferably assessed using a reference method of GFR measurement.     

Simple sampling strategy for measuring inulin renal clearance

Background  In the standard method of inulin clearance (Cin), three sets of serum and urine samples are collected during a 2-hour clearance period. For a practical use of this method, sampling should be the minimal number allowable while still providing enough accuracy. The aim of this study was to evaluate the validity of inulin renal clearance with assumed single urine collection with a period such as 30, 60 or 90 minutes. Methods  Inulin clearance data collected by the standard method from 737 individuals were used. Changes of serum inulin concentrations between 45 and 105 minutes after the start of the infusion were analyzed. We used first urine collection to calculate the inulin clearance with single urine collection (Cin-30 min). We assumed single urine collection for 60 or 90 minutes by combining the urine data of the consecutive 30-minute periods. Inulin clearances (Cin-60 min, Cin-90 min) were calculated from the assumed single urine collections, respectively. Results  Serum inulin concentration did not reach equilibrium during the clearance period. It increased in subjects with low glomerular filtration rate (GFR) and decreased in subjects with normal GFR. The amount of the change was small and −0.5 ± 12.6% in subjects with GFR over 30 ml/min per 1.73 m². Cin-30 min, Cin-60 min and Cin-90 min showed high correlation coefficients against Cin-ST (0.962, 0.988 and 0.998, respectively). Systemic biases in these clearances were negligible (under 1 ml/min per 1.73 m²). Root mean square error (RMSE) were 10.4, 5.3 and 2.3 ml/min per 1.73 m² for Cin-30 min, Cin-60 min and Cin-90 min, respectively. These data indicated that accuracy of inulin clearance depends on the duration of the urine collection period. Conclusion  Inulin clearance with a single urine collection is a convenient method. We showed that single urine collection for 30 minutes or a longer period has reasonable accuracy in calculation of inulin clearance. We propose a method of inulin clearance with single urine collection for 60 minutes.     

Renal extraction of cystatin C vs 125I-iothalamate in hypertensive patients.

BACKGROUND: Several markers are available to estimate the glomerular filtration rate (GFR) in patients. Cystatin C is a relatively new marker and has been suggested as an alternative for creatinine. Numerous studies have been performed to evaluate the usefulness of cystatin C to estimate GFR. The aim of this study is to compare the renal extraction of cystatin C with that of 125I-iothalamate in hypertensive patients. METHODS: Forty hypertensive patients with unilateral renal artery stenosis, and who used at least two antihypertensive agents, were studied. For the determination of the renal extraction ratio, blood samples were drawn simultaneously from the renal vein and the abdominal aorta. The renal extraction ratio was calculated as ([A]-[V])/[A], in which A is the plasma concentration of the compound from the abdominal aorta, and V is the plasma concentration of the compound from the renal vein. RESULTS: The mean difference between the renal extraction ratio of cystatin C and that of 125I-iothalamate was 0.002. The 95% confidence interval (CI) for the mean difference was -0.036 to 0.032, which was not statistically significant. However, the limits of agreement were large (-0.271 and 0.267). CONCLUSIONS: Despite a lower reported glomerular sieving coefficient of cystatin C, the mean renal extraction of cystatin C was equal to the mean renal extraction of 125I-iothalamate in hypertensive patients, suggesting tubular secretion of cystatin C. Combined with the large variation in the renal extraction of cystatin C, these findings cast doubts on its usefulness as a glomerular filtration marker.     

Dietary supplementation with fish oil modifies renal reserve filtration capacity in postoperative,cyclosporin A-treated renal transplant recipients

The effect of a daily supplementation of 6 g fish oil (30% C20:5 omega-3=EPA and 20% C22:6 omega-3=DHA) for 1 month on renal function variables was investigated in a placebo-controlled (6 g coconut oil), prospective, randomized, double-blind study in acute postoperative cyclosporin A (CyA)-treated renal transplant recipients. Seventeen patients ingested placebo capsules (EPA-) and 14 patients fish oil (EPA+). Renal function tests were performed using the simultaneous determination of 125 I-iothalamate and 131 I-hippuran clearances for glomerular filtration rate (GFR) and effective renal plasma flow (ERPF), respectively. Renal reserve filtration capacity was assessed by dopamine infusion, amino acid infusion, and a combination of both stimuli. After 1 month there were no significant differences in rejection episodes, CyA dose, or CyA levels. In contrast to our earlier observations, serum creatinine, creatinine clearance, GFR, and ERPF did not differ between the EPA- and EPA+ groups. Filtration fraction (FF) differed significantly, being 0.21 in the EPA- group versus 0.26 in the EPA+ group. To exclude the possible influence of a rejection episode, the nonrejecting patients were analyzed separately, creating the subgroups EPA+ re- and EPA-re-. These two groups were comparable in age, donor age, and GFR. The EPA+ re-group had a significantly lower ERPF (164 ml/min per 1.73 m²) than the EPA-re- group (262 ml/min per 1.73 m²). FF was significantly higher in the EPA+re-group (0.26) than in the EPA-re- group (0.21). Following dopamine, no significant differences in the percentage increase of GFR and ERPF between both groups were observed, while FF fell to the same extent in both groups. Following amino acids, the fish oil-treated patients had a significantly better response on GFR (EPA+re- 15.3 versus EPA-re- 10.6%; P<0.05). The near-normal FF and the better response on amino acid infusion strongly suggest that at 1 month postoperatively, the CyA- and fish oil-treated patients have more balanced renal hemodynamics than the CyA- and coconut oil-treated patients.     

Acute cyclosporine renal dysfunction reversed by dopamine infusion in healthy subjects

Up to now, no studies have been performed in normal humans to investigate the role of renal hemodynamic abnormalities in relation to acute-cyclosporin A (CsA) renal dysfunction and to verify whether the specific renal vasodilator, dopamine, can counteract these abnormalities. Eight normal subjects were examined both (A) after oral CsA (12 mg/kg body wt) and (B) after oral CsA + dopamine infusion (2 mg/kg body wt/min), under water diuresis. Both in protocols A and in B, four basal renal clearances were performed before CsA and every twenty minutes for four hours after CsA administration. In protocol A, after CsA, inulin (GFR) and PAH clearance (RPF) fell by up to 27% and to 41%, respectively, so that filtration fraction (FF) increased (P less than 0.01). A slight (not significant) hypertension occurred while renal resistances were markedly raised (P less than 0.001). Fractional urine and Na+ excretion as well as CH2O decreased, while UOsm increased (P less than 0.01). In protocol B, dopamine was infused from 120 to 180 minutes after CsA (that is, when the maximal adverse effects of CsA on renal hemodynamics had been observed in A). Dopamine infusion could reverse completely the effects of CsA on RPF, GFR, fractional urine output and CH2O; only UOsm remained higher than normal in conclusion with an increased fractional excretion of sodium (P less than 0.01). No changes were observed in plasma renin activity, aldosterone and in urinary epinephrine and norepinephrine excretion both in protocols.(ABSTRACT TRUNCATED AT 250 WORDS)     

Resolving Erythrocytosis and Hypertension after Open Surgical Extirpation of Giant Renal Cyst Measuring 30 cm: Case Report

We previously described a method to measure GFR in conscious spontaneously voiding rats. This method circumvents the need for anesthesia and for bladder instrumentation. It's main principle is the correction of renal ¹²⁵I-iothalamate clearance for incomplete urine collection by the ratio of plasma and renal clearance of co-infused ¹³¹I Hippuran. A disadvantage of this technique is the requirement of an intra-arterial catheter for infusion of the renal function tracers. We therefore tested whether intraperitoneal infusion of ¹²⁵I-Iothalamate and ¹³¹I-Hippuran can be used for such a GFR measurement in conscious spontaneously voiding rats.

We found that during intraperitoneal administration, stable plasma levels of ¹³¹I-Hippuran could be obtained. However, urinary recovery of ¹³¹I-Hippuran was incomplete (66 ± 32%), leading to a significant overestimation of GFR by 140 ± 113% in comparison with the GFR measured by the intra-arterial technique. Thus intraperitoneal infusion of renal function tracers cannot replace intra-arterial infusion.