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.     

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.     

Role of growth hormone in the amino acid-induced acute rise in renal function in man

To examine whether plasma growth hormone is necessary for the amino acid-induced rise in effective renal plasma flow (ERPF, PAH clearance) and GFR (inulin clearance), arginine HCl, 500 mg/kg, was infused for 30 minutes into eight normal and six growth hormone-deficient individuals. During infusion, ERPF increased in the normal and growth hormone-deficient subjects by 28.9 +/- 11.4 SD-% (P less than 0.01) and 46.5 +/- 14.4% (P less than 0.001). GFR rose by 23.7 +/- 5.9% (P less than 0.05) and 42.7 +/- 29.1% (P less than 0.001) in the two groups. Plasma growth hormone rose only in the normal subjects, while glucagon increased in both groups. Infusion of arginine HCl, 200 mg/kg, into normals increased ERPF and GFR without increasing plasma osmolality. Lower arginine doses essentially did not affect ERPF, GFR, growth hormone, or glucagon. Infusion of D-glucose into normals raised plasma osmolality as high as with arginine HCl, 500 mg/kg, but increased ERPF only slightly and not GFR; D-glucose infusion caused a delayed rise in growth hormone that was unassociated with an increase in ERPF or GFR. An infusion of ammonium chloride with sodium chloride, which provided an amount of chloride similar to the 500 mg/kg arginine HCl dose, did not change ERPF and GFR; this suggests that the chloride load did not cause the altered renal hemodynamics stimulated by arginine HCl. These findings indicate that neither normal plasma growth hormone levels nor a rise in growth hormone mediates the arginine-induced acute increase in ERPF or GFR. This effect is also not due to the osmolar load but could be caused by the rise in plasma glucagon.     

Renal dysfunction in recurrent urinary tract infections in childhood

One hundred children aged 1.5–19.5 years, with recurrent urinary tract infections, at least one of which was febrile (pyelonephritis, PN), were investigated by means of inulin and para-aminohippurate (PAH) clearance tests for the evaluation of glomerular filtration rate (GFR), effective renal plasma flow, and concentrating and diluting capacities. Renal function data were collated with the clinical history and radiological findings. GFR and PAH clearance were found to be reduced compared with controls. Patients whose first PN was diagnosed before the age of 3 — particularly those with a history of three or more PN infections — showed the lowest values for GFR and PAH clearance. Furthermore, parenchymally reduced kidneys were found most frequently in this group of patients. Concentrating capacity was decreased in some patients, but a low concentrating capacity did not reveal patients with reduced GFRs. Diluting capacity evaluated as minimal urine osmolality was normal, but was reduced when evaluated as free water clearance in some patients with reduced values for GFR.     

Constant-infusion technique of inulin clearance without urine collection

Inulin clearance is accepted as the gold standard for estimating the glomerular filtration rate (GFR). However, the method of this examination is troublesome and infants need difficult bladder catheterization. The existence of residual urine results in an inaccurate estimation of GFR and the proceduse requires a large amount of transfusion. In the plasma infusion method, inulin reaches an equilibrium in which the inulin urinary excretion rate is equal to the infusion rate, and urine collection is unnecessary. We estimated GFR in 21 children using both the plasma infusion method and renal infusion method. In the renal infusion method, the loading infusion of 1% inulin was administered over 30 minutes at the dose of 5 mL/kg body weight, followed by maintenance infusion at the constant speed (mL/hour) of 1.5 x estimated GFR (mL/min/1.73 m2) x body surface area (m2)/ 1.73. Three 30-minute urine collections were performed and the plasma inulin levels were measured to estimate GFR. In the plasma infusion method, maintenance infusion was conducted at the speed (mL/hour) of 0.6 x estimated GFR (mL/min/1.73 m2) x body surface area (m2)/1.73. The mean plasma inulin concentrations at 8, 9 and 10 hours were examined and GFR was calculated with the infusion rate. The GFRs for the renal infusion methods (Cin) and plasma infusion methods (e-Cin) were 91.90 +/- 39.61 and 95.33 +/- 38.08 mL/min/1.73 m2, respectively. The values for Cin and e-Cin showed good linear correlation (R2 = 0.81). The value of e-Cin/Cin was 1.069 +/- 0.172 and the mean e-Cin value was only 7% higher than that of Cin. We believe that GFR estimated by the constant infusion method shows a value approximating that estimated by the standard method. This technique is noninvasive for infants and the GFR of children who have vesicoureteral reflux or residual urine in the bladder can be estimated. The method does not need a large amount of transfusion and is suitable for children with heart failure. We believe that this method is clinically useful.     

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.     

The effect of dopamine on glomerular filtration rate in normotensive,oliguric premature neonates

We examined the effect of dopamine on glomerular filtration rate (GFR) at infusion rates of 0.5, 2.5, and 7.5 micro g/kg per min in 15 premature neonates. Study infants (mean gestational age 34+/-2 weeks, mean birth weight 2.43+/-0.6 kg) had respiratory distress, were normotensive, and had a low urine output (0.9+/-0.1 ml/kg per hour). GFR was determined by the plasma clearance of inulin after a single bolus injection (200 mg/kg). Four hours after inulin administration, dopamine infusion was begun and continued over 6 h. GFR was estimated before and after beginning the dopamine infusions from the slope of the log of plasma inulin concentration versus time. Gestational age, weight, and baseline GFR were similar in all three groups. With a dopamine infusion rate of 0.5 micro g/kg per min there were no changes in GFR, urine output, heart rate, or blood pressure. At an infusion rate of 7.5 micro g/kg per min there was no change in GFR, although urine output, heart rate, and blood pressure all increased. At 2.5 micro g/kg per min there were significant increases in GFR and urine output, with no changes in blood pressure or heart rate. In oliguric, non-hypotensive neonates, GFR increased significantly at 2.5 micro g/kg per min of dopamine. This probably reflects the effects of afferent vasodilatation and may be important clinically when enhancement of GFR is the major treatment objective.     

A new procedure for evaluation of renal function without urine collection in rat

BACKGROUND: A new procedure to improve the accuracy of inulin assessment and renal glomerular filtration rate (GFR) avoiding urine sampling was compared and validated versus the reference procedure (with urine sampling and Anthrone reaction) in conscious unrestrained male Wistar rats. METHODS: The hemodynamic study consisted of a priming dose of inulin (16 mg/kg) and para-aminohippurate (PAH; 8 mg/kg) followed by an infusion of inulin (36 mg/mL) and PAH (5.8 mg/mL) at a rate of 0.055 mL/min until steady-state conditions were reached (105 min). Inulin concentrations from samples were determined by a new enzymatic assay and Anthrone reaction. PAH concentrations were determined according to the standard method described by Smith et al. RESULTS: A high correlation was found between GFR and renal blood flow (RBF) values calculated using the alternative (without urine sampling) and the reference (with urine sampling) clearance techniques (r = 0.98, P < 0.001, and r = 0.97, P < 0.001, respectively). Moreover, a significant and positive correlation between the values obtained from enzymatic and Anthrone inulin assessments was found (r = 0.99, P < 0.001). Likewise, the values of the 95% confidence interval (mean +/- 2 SD) for the enzymatic inulin assay showed a good agreement with those achieved with Anthrone (1.14 +/- 0.21 and 1.14 +/- 0.19 mL. min-1. 100 g-1 rat body weight, respectively). CONCLUSIONS: This new approach has methodological and experimental advantages with respect to traditional procedures, making it a useful tool, not only for research purposes but also in the clinical setting.     

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.     

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.     

Determination of inulin clearance by single injection or infusion in children

The reference method to determine the glomerular filtration rate (GFR) in children is the urinary clearance of inulin during a continuous intravenous infusion. Alternatively, the plasma clearance of inulin can be determined, which does not require urine collection. This study compared the determination of the inulin plasma clearance in 24 pediatric patients by two methods: the single injection and the continuous infusion method. In the single injection method 5000 mg/m² inulin was administered as bolus injection, and blood samples were drawn 10, 30, 90, and 240 min after administration. For the continuous infusion method inulin was started overnight and blood samples were collected the next day. The inulin plasma clearance determined by the single injection method was on average 9.7 ml min^–1 1.73 m^–2 higher than the clearance determined with the continuous infusion method (95% CI: 5.3–14.2). The difference between the two methods was smaller at lower GFRs. The difference in results generated by the two methods in children is small and is considered acceptable in clinical practice. For practical reasons, the single injection method with minimum sampling is preferred.     

Selective endothelin B receptor blockade does not influence BNP-induced natriuresis in man

Brain natriuretic peptide (BNP) and endothelin-1 (ET-1) both exhibit natriuretic activity within the human kidney. Furthermore, they both act partly through activation of the endothelial nitric oxide pathway. Since ET-1 may cause vasodilation and natriuresis via stimulation of the ET-B receptor, the aim of the present study was to investigate whether renal ET-B receptors participate in the renal actions of BNP. In this placebo-controlled, crossover study, we infused BNP (4 pmol/kg/min) or placebo (i.v.) for 1 h, with or without co-infusion of the ET-B receptor antagonist BQ-788 (50 nmol/min) for 15 min on 4 separate days, in 10 healthy subjects (mean age 54+/-6 years.). During infusion, we measured effective renal plasma flow (ERPF), and glomerular filtration rate (GFR) using PAH/inulin clearance. Cardiac output was measured before and after infusion, using echocardiography. Blood pressure and heart rate (HR) were monitored as well. Urine and plasma samples were taken every hour to measure diuresis, natriuresis, cyclic 3',5' guanosine monophosphate, and ET-1 levels. BNP with or without ET-B receptor blockade increased natriuresis and diuresis. In addition, BNP alone increased GFR and filtered load, without changing ERPF. BQ-788 infusion did not affect renal hemodynamics or natriuresis. Neither BNP nor BQ-788 altered cardiac output, blood pressure, and heart rate. In conclusion, the present study shows that selective ET-B receptor blockade has no effect on the BNP-induced natriuresis and glomerular filtration rate.     

Renal hemodynamic effects of somatostatin are not related to inhibition of endogenous insulin release

BACKGROUND: Somatostatin inhibits endocrine and exocrine secretions and exerts renal vasoconstriction. The mechanism underlying somatostatin's vascular effects is unknown. Since insulin can cause vasodilation, we hypothesized that removal of basal insulin release by somatostatin may contribute to somatostatin-induced renal vasoconstriction. METHODS: The study was conducted in different protocols comprising forty-six healthy male volunteers. Randomized studies were performed to compare the effects of somatostatin alone (0.1 microg/kg/min) to the effects of somatostatin + low dose insulin (0.1 mU/kg/min), the effects of somatostatin + low dose insulin to the effects of somatostatin + high dose insulin (1.5 mU/kg/min), and the effects of insulin (1.5 mU/kg/min) + somatostatin. Renal plasma flow (RPF) and glomerular filtration rate (GFR) were measured with the para-aminohippurate (PAH) and the inulin clearance technique, respectively. Blood pressure and pulse rate were measured non-invasively. RESULTS: Somatostatin alone decreased GFR (-14 +/- 6%, P < 0.001) and RPF (-16 +/- 7%, P < 0.001) whereas systemic hemodynamics were unchanged. Preceding or concomitant infusion of insulin at high doses (insulin plasma concentration of 127 +/- 25 or 144 +/- 17 microU/mL) but not co-infusion with low dose insulin (insulin plasma concentration of 11 +/- 3 microU/mL) mitigated or reversed the vasoconstrictive actions of somatostatin on GFR and RPF. CONCLUSIONS: Somatostatin induces marked renal vasoconstriction and exogenous restoration of fasting insulin concentrations does not influence the renal vascular effects. Therefore, it is unlikely that somatostatin-induced vasoconstriction is due to removal of basal insulin. Plasma insulin concentrations in the high postprandial range can reverse somatostatin-induced renal vasoconstriction, suggesting functional antagonism.     

Utility of radioisotopic filtration markers in chronic renal insufficiency: simultaneous comparison of 125I-iothalamate, 169Yb-DTPA, 99mTc-DTPA, and inulin. The Modification of Diet in Renal Disease Study

Assessment of glomerular filtration rate (GFR) with inulin is cumbersome and time-consuming. Radioisotopic filtration markers have been studied as filtration markers because they can be used without continuous intravenous (IV) infusion and because analysis is relatively simple. Although the clearances of 99mTc-diethylenetriamine-pentaacetic acid (DTPA), 169Yb-DTPA, and 125I-iothalamate have each been compared with inulin, rarely has the comparability of radioisotopic filtration markers been directly evaluated in the same subject. To this purpose, we determined the renal clearance of inulin administered by continuous infusion and the above radioisotopic filtration markers administered as bolus injections, simultaneously in four subjects with normal renal function and 16 subjects with renal insufficiency. Subjects were studied twice in order to assess within-study and between-study variability. Unlabeled iothalamate was infused during the second half of each study to assess its effect on clearances. We found that renal clearance of 125I-iothalamate and 169Yb-DTPA significantly exceeded clearance of inulin in patients with renal insufficiency, but only by several mL.min-1.1.73m-2. Overestimation of inulin clearance by radioisotopic filtration markers was found in all normal subjects. No differences between markers were found in the coefficient of variation of clearances either between periods on a given study day (within-day variability) or between the two study days (between-day variability). The true test variability between days did not correlate with within-test variability. We conclude that the renal clearance of 99mTc-DTPA, 169Yb-DTPA, or 125I-iothalamate administered as a single IV or subcutaneous injection can be used to accurately measure GFR in subjects with renal insufficiency; use of the single injection technique may overestimate GFR in normal subjects.     

A novel rodent model of severe renal ischemia reperfusion injury

Renal ischemia reperfusion injury (IRI) is a major problem, currently without treatments in clinical use. This reflects the failure of animal models to mimic the severity of IRI observed in clinical practice. Most described models lack both the ability to inflict a permanent reduction in renal function and the sensitivity to demonstrate the protective efficacy of different therapies in vivo. To test novel cell-based therapies, we have developed a model of renal IRI in Fisher 344 rats. Animals were subjected to 120?min of unilateral warm ischemia, during which they underwent an intra-renal artery infusion of therapeutic agents or vehicle. At either 2 or 6 weeks post-surgery, animals underwent terminal glomerular filtration rate (GFR) studies by inulin clearance to most accurately quantify renal function. Harvested kidneys underwent histological analysis. Compared to sham operations, saline treated animals suffered a long-term reduction in GFR of ≈50%. Histology revealed short- and long-term disruption of renal architecture. Despite the injury severity, post-operative animal losses are <5%. This model produces a severe, consistent renal injury that closely replicates the pathological processes encountered in clinical medicine. Renal artery infusion mimics the route likely employed in clinical transplantation, where the renal artery is accessible. Inulin clearance characterizes GFR, allowing full assessment of therapeutic intervention. This model is useful for screening therapeutic agents prior to testing in a transplant model. This reduces animal numbers needed to test drugs for clinical transplantation and allows for refinement of dosing schedules.     

Renal function and hemodynamics during prolonged isoflurane-induced hypotension in humans

The effect of isoflurane-induced hypotension on glomerular function and renal blood flow was investigated in 20 human subjects. Glomerular filtration rate (GFR) and effective renal plasma flow (ERPF) were measured by inulin and para-aminohippurate (PAH) clearance, respectively. Anesthesia was maintained with fentanyl, nitrous oxide, oxygen, and isoflurane. Hypotension was induced for 236.9 +/- 15.1 min by increasing the isoflurane inspired concentration to maintain a mean arterial pressure of 59.8 +/- 0.4 mmHg. GFR and ERPF decreased with the induction of anesthesia but not significantly more during hypotension. Postoperatively, ERPF returned to preoperative values, whereas GFR was higher than preoperative values. Renal vascular resistance increased during anesthesia but decreased when hypotension was induced, allowing the maintenance of renal blood flow. We conclude that renal compensatory mechanisms are preserved during isoflurane-induced hypotension and that renal function and hemodynamics quickly return to normal when normotension is resumed.     

Characterization of tubular functional capacity in humans using para-aminohippurate and famotidine

BACKGROUND: Renal drug excretion by glomerular filtration and active tubular secretion may be altered by factors such as acute and chronic renal disease, nephrotoxins, and drug interactions. Thus, accurate and reproducible methods for quantitation of glomerular filtration rate (GFR) and tubular functional capacity are critical. METHODS: We utilized a four-step sequential infusion method to characterize anionic [para-aminohippurate (PAH)] and cationic (famotidine) tubular functional capacity in healthy volunteers. Filtration and secretion rates were quantitated from renal clearance and iothalamate-derived GFR determinations. RESULTS: Concentration-dependent renal clearance of PAH was observed at plasma concentrations> 100 mg/L; renal clearances were 442 +/- 131 (mean +/- SD), 423 +/- 94, 233 +/- 45, and 152 +/- 18 mL/min/1.73 m2 at plasma concentrations of 18 +/- 2, 92 +/- 5, 291 +/- 47 and 789 +/- 28 mg/L, respectively. The apparent affinity (Km) and maximum secretory capacity (TmPAH) were 141 +/- 70 mg/L and 71 +/- 16 mg/min/1.73 m2, respectively. The unbound renal clearance and tubular secretory clearance of famotidine were 384 +/- 70 and 329 +/- 78 mL/min/1.73 m2, respectively, and were not significantly correlated with the unbound plasma concentrations, which ranged from 126 to 2659 ng/mL. The rate of tubular secretion was linear at unbound plasma concentrations up to 2659 ng/mL. CONCLUSIONS: These data indicate that a sequential infusion method using PAH may be used to characterize the anionic secretory component of proximal tubular function. The tubular clearance of famotidine may be a suitable index of the cationic secretory capacity of the proximal tubule in humans. Saturation of the cationic secretory pathway was not observed, and further investigation into parallel pathways of cationic secretion, such as p-glycoprotein, may be warranted.     

Glomerular filtration rate measurement and estimation in chronic kidney disease

Glomerular filtration rate (GFR) assesses kidney function. GFR is measured by renal clearance techniques; inulin clearance is the gold standard but is not easily measured. Thus, other methods to determine GFR have been utilized. Endogenous creatinine clearance (CrCl) is the most widely used, but creatinine secretion falsely elevates GFR. Cimetidine inhibits creatinine secretion, such that CrCl equals GFR, provided there are no difficulties with bladder emptying. Estimation of GFR from serum creatinine (e.g. Schwartz formula) is useful clinically; however, such formulae have not been updated for enzymatic creatinine autoanalyzers. Cystatin C, a small protein, is produced at a relatively constant rate and is reabsorbed in the proximal tubule. Cystatin C may be more sensitive than creatinine in detecting a reduction in GFR, but further studies are needed to prove this. Single injection (plasma) clearance techniques are the most precise measures of GFR. Iohexol is an exogenous marker that is comparable to inulin and ⁵¹Cr-EDTA and can be measured by high-performance liquid chromatography (HPLC). Our pilot and the Chronic Kidney Disease in Children (CKiD) North American studies show that iohexol can accurately measure GFR using a four-point plasma disappearance curve national studies show that iohexol can accurately measure GFR using a four-point plasma disappearance curve (10, 30, 120, and 300 min) or, in most cases, a two-point disappearance time (120 and 300 min).     

A comparison of three different techniques for measuring glomerular filtration rate

The clearance of inulin, creatinine and radioactive tracers from the blood may be used to measure glomerular filtration rate (GFR). These techniques, however, are usually invasive and time-consuming. Although the clearance of a radioactive tracer is usually applied in nuclear medicine for the determination of GFR, it is also possible to convert the concentration of the tracer in the kidneys to absolute GFR by means of a regression equation. As this new technique is much faster, we have compared it with the conventional technique. A good correlation was found with the standard radionuclide techniques (r = 0.91), but the reference method was under-estimated on the average by 14 ml/min. The new regression equation derived in our clinic will ensure future accurate GFR measurements within 6 minutes.     

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.