Pietro Anastasio

Glomerular filtration rate in severely overweight normotensive humans

The study examined whether indexing glomerular filtration rate (GFR) for body surface area is appropriate for people who are severely overweight. Twenty normotensive adult men who were severely overweight but without microalbuminuria were enrolled into this study. The control group consisted of 20 healthy subjects matched for age, sex, and height. GFR was determined by measuring insulin with the continuous-infusion method. The clearance of endogenous creatinine was also measured after two daily urine collections. Renal plasma flow (RPF) was measured by p-aminohippurate clearance using the continuous-infusion method. Lean body weight was measured by impedentiometry. Adjusting for body surface area (in 1.73 m(2)) caused a significant reduction in GFR (P < 0.0001) in overweight humans (84.1 +/- 2.32 versus 109.6 +/- 3.07 mL/min/1.73 m(2)). The difference disappeared when GFR/height criteria were adopted. No difference between obese and healthy controls occurred after adjusting for lean body weight. Data for creatinine clearance paralleled those with insulin clearance; a significant reduction (P < 0.001) occurred after indexing for basal surface area, which disappeared after correction for height, as well as for lean body weight.

Effects of thyroid hormones on heart and kidney functions.

Thyroid hormones affect the functions of several organs including the heart and kidney. Using isolated left papillary muscles we have investigated the action of thyroid hormones on the mechanical and electrical properties of the heart. We found that pure hypothyroidism causes a depression in contractile and electrical parameters, but we noticed that superimposed hypoparathyroidism accounts for the marked prolongation in contractile kinetics and action potential duration. At kidney level we have shown that thyroid hormones affect proximal tubular sodium transport and this effect is only partially mediated by the action of thyroid hormones on Na-K-ATPase activity. Using the micropuncture technique, we hypothesized that the early effect of thyroid hormone action is on the potassium permeabilty of proximal tubular cell membrane. This latter effect would explain the increase in isotonic fluid reabsorption through an increase in the driving force for sodium. Finally, hypothyroid patients have a decrease in glomerular filtration rate and renal plasma flow that are completely reversed by thyroxine administration. On the other hand, hyperthyroid subjects exhibit a significant increase in both parameters.

Predicted creatinine clearance to assess glomerular filtration rate in chronic renal disease in humans

The work was designed to assess the suitability of both measured endogenous creatinine clearance (CCR) and predicted creatinine clearance (P-CCR) to evaluate GFR in chronic renal disease (CRD) by utilizing the renal clearance of inulin (CIN) as gold standard. A total of 124 subjects were studied (62 healthy, 62 with CRF). CCR significantly overestimated GFR in healthy subjects as well as in CRF, whereas P-CCR was identical to GFR. The CCR/CIN ratio which calculates the fractional creatinine clearance and provides a rough estimation of the contribution of creatinine secretion in explaining the differences between CCR and GFR was increased in CRD and especially in CRD of glomerular origin. The ration P-CCR/CIN was significantly lower than CCR/CIN in healthy subjects and in patients with CRD of glomerular origin. The data are against the use of CCR in assessing GFR in healthy subjects and in patients with CRD.

Measurement of Glomerular FiltrationRate by the 99mTc-DTPA Renogram Is Less Precise than Measured and Predicted Creatinine Clearance

The work was devised to compare measurements of glomerular filtration rate (GFR) by technetium-99m-diethylenetriaminepentacetic acid (99mTc-DTPA) renogram to those by creatinine clearance (measured and predicted by Cockroft and Gault) and by inulin clearance. A total number of 65 individuals were enrolled: 15 healthy controls and 50 patients with renal disease. Compared to inulin clearance used as the gold standard, 99mTc-DTPA overestimated at low and underestimated at high GFRs. 99mTc-DTPA measurements were less precise than creatinine clearance except for individuals with GFR >100 ml/min × 1.73 m2. Measured creatinine clearance had the highest correlation coefficient with inulin clearance, 99mTc-DTPA clearance the lowest. In correlation analyses, 81.5% of the interindividual variability for measured creatinine clearance could be explained by true differences in inulin clearance; this value dropped to 59.1 and 57.4% for predicted creatinine clearance and 99mTc-DTPA, respectively. In patients with GFR <25 ml/min × 1.73 m2, all 99mTc-DTPA measurements were out of the 95% confidence interval for the inulin measurement. It can be inferred that 99mTc-DTPA clearance from the renogram is less precise than measured and predicted creatinine clearance.

Pancreatectomy Abolishes the Renal Hemodynamic Response to a Meat Meal in Man

N.G. DeSanto, MD, Via Pansini 5, Policlinico Università, Pad 17, I-80131 Naples (Italy) Dear Sir, According to Brenner et al. [1], the hyperfiltration response which follows intravenous amino acid administration [2–4] of ingestion of a meat meal [5, 6] may be due to a circulating hormone or some other intermediate effector among which glucagon may be a good candidate. We report on the absence of the hyperfiltration response to a meat meal in man after total pancreatectomy. This finding points to the role of a factor of pancreatic origin in the genesis of the renal hemodynamic response to protein load. We studied a 45-year-old man, weighing 72 kg, who, because of severe acute pancreatitis, had undergone total pancreatectomy 4 years earlier. After surgery he had strictly adhered to an appropriate protocol of insulin administration and to a dietary regimen providing 40 g of protein and 2,000 cal/day. Protein intake was controlled before the study on 3 consecutive days by means of urea generation rates. At the time of the study, plasma creatinine was 0.99 mg/dl, creatinine clearance 84 ml/min × 1.73 m2, blood urea 48 mg/dl, and fasting blood glucose 1.55 g/l. Microalbuminuria was absent. The patient was studied before (3 clearance studies (C1-C3) and after a meat meal MM 5 clearance studies (C4-C8) at 30, 60, 90,120 and 180 min). Each clearance lasted 30 min with the exception of C8 lasting 60 min. The meat meal provided 2 g of protein/kg body weight in the form of cooked red meat. All data measured inCι-C3 Table 1. Effects of a meat meal in a pancreatectomized man

Effects of a Meat Meal on Renal Sodium Handling and Sodium Balance

Protein ingestion increases renal blood flow and glomerular filtration rate (GFR). This study investigated in healthy adults if the renal response to protein ingestion includes changes in urinary sodium (Na) excretion rate and Na balance. Renal clearance of Na and inulin (used as index of GFR) were measured in 25 healthy adults before (90 min) and after (180 min) a standard meal and, as control, before and after administration of water and Na-chloride (saline). The meal consisted of red lean meat (2 g protein/kg body weight); in control experiments, water and Na were given to match water and Na content of the meal. ANOVA for repeated measures, Student’s t-test, and linear regression were used for statistical analysis. GFR and urinary Na excretion increased over baseline after the meal (p < 0.001), not after saline. The post-meal natriuretic response was accounted for an early (0–90 min) increase in glomerular filtered load of Na (p < 0.001) and a late (90–180 min) reduction in tubular Na reabsorption (p < 0.02). Urine flow rate and plasma Na did not significantly change after the meal and in control experiments. Analysis of Na balance showed that post-meal Na excretion was significantly higher than baseline also after Na balance returned to pre-meal values. In healthy individuals, a meat meal stimulates natriuresis and causes a net decrease in Na balance. The renal natriuretic response to the meal appears secondary to the meal-induced changes in renal hemodynamics. The data are in keeping with the hypothesis that dietary protein intake affects also renal Na handling.

Renal Handling of Sodium after an Oral Protein Load in Adult Humans

This investigation was designed to study (1) renal sodium handling after an oral protein load and (2) its relationship to some known determinants of the hemodynamic response (glucagon, insulin, growth hormone, renin, aldosterone, and plasma amino acid concentration). To this end of group of 8 adult subjects was studied before (three 30-min clearances) and after a meat meal (MM; five 30-min clearances at 30, 60, 90, 120 and 180 min). The MM provided 2 g/kg BW of protein. Within 30 min from the MM an hyperfiltration response was seen, which was paralleled by a 2-fold increase in plasma alanine concentration while total plasma amino acid concentration was not different from the baseline values. The hemodynamic response was associated with a normally operating tubuloglomerular feedback mechanism independent of renin-aldosterone activity, but possibly associated with an early increase in plasma glucagon concentration and later on with a modest increase in postmeal plasma insuling concentration.

Delay in Renal Hemodynamic Response to a Meat Meal in Severe Obesity

Background/Aims: Little information is available about the tubular functions and the renal adjustments that take place in obese subjects after a protein meal. How the excess fat may affect renal response to dietary proteins is currently only partially understood. This paper aims to address (i) whether severe obesity, in the absence of other comorbidities, is responsible of kidney dysfunction at either the glomerular or the tubular level and (ii) whether it compromises renal adaptations to a large protein meal. Methods: Twenty-eight obese subjects without albuminuria, along with 20 control subjects, age and gender matched, have been studied. The glomerular filtration rate (GFR; inulin clearance), renal plasma flow (p-aminohippurate clearance), the proximal tubular function (lithium clearance), the fractional excretion of sodium (FPRNa) have been measured at the basal level (steady state) and after a protein meal (perturbation). Results: Under steady state conditions, filtration fraction, proximal tubular sodium handling and the FPRNa were not significantly different in non proteinuric obese subjects compared with controls. However, a protein meal led to a delayed glomerular hyperfiltration in obese patients compared with controls. Conclusion: This study shows that obese patients, in the absence of significant comorbidities, have a normal proximal tubule Na+ absorption at basal; conversely, these subjects showed a different response to a protein meal compared with normal subjects in terms of changes of GFR. Overall, these results suggest that the modified hemodynamic response to a protein meal might be the earliest hallmark of future kidney dysfunction in obese subjects.

Body Impedance Studies in End-Stage Heart Failure

This study adds another category of patients to those amenable to body impedance analysis (BIA). BIA measurements were obtained for the first time in 23 male patients with end-stage heart failure who were waiting for heart transplantation, and the data were compared with those obtained in 69 healthy controls matched for age, sex, height and weight. The data indicate that in end-stage heart failure there is an increased reactance (p<0.01) and an altered intracellular water/extracellular water ratio (p<0.03) due to the increased intracellular water (p<0.01) and decreased extracellular water (p<0.01).

Acid-base state in patients after cardiac transplantation.

Patients with advanced heart failure commonly develop simple or mixed acid-base disturbances. The altered acid-base homeostasis can occur as a consequence of the heart failure itself, the therapeutic interventions, or associated conditions. The present study examined acid-base disorders in patients with heart failure who received successful heart transplantation. The information collected should provide light on the determinants of acid-base disorders in this patient population. Seventy status 2 UNOS (United Network Organ Sharing) patients listed for heart transplantation were enrolled in this study. All patients received loop diuretics, spironolactone, ACE inhibitors, carvedilol and digitalis as needed. Patients were studied again at discharge after transplantation, under cyclosporine, azathioprine, steroids, loop diuretics and ACE inhibitors. After heart transplantation, a significant increase of ejection fraction from 19.7 ± 0.63 to 53.6 ± 0.9% (p < 0.0001) occurred along with a concomitant reduction of central venous pressure (p < 0.0001) from 12.6 ± 0.20 to 6.9 ± 0.21 mm Hg. Before heart transplantation there was high-normal pH (7.43 ± 0.009), slight loss of hydrogen ions (35.4 ± 0.4 nmol/l), slightly reduced pCO2 (37.6 ± 1.1 mm Hg). After heart transplantation a stability of blood pH and hydrogen ion concentrations was found but bicarbonate increased significantly (p < 0.02) from 24.2 ± 0.61 to 26.2 ± 0.51 mmol/l and pCO2 from 37.6 ± 1.1 to 39.3 ± 0.7 mm Hg (p < 0.05). Plasma renin activity averaged 3.80 ± 0.6 pg/ml before heart transplantation and 2.82 ± 0.4 pg/ml after (p < 0.01). Aldosterone concentration averaged 380 ±15 pg/ml before heart transplantation and 280 ± 10 pg/ml after (p < 0.01). These data suggest that in patients before heart transplantation there is a mixed acid-base imbalance that includes respiratory alkalosis and metabolic alkalosis. After transplantation the recovery of the abnormal circulatory status erased the initial respiratory alkalosis but metabolic alkalosis persisted and accounted for a further rise in plasma bicarbonate.