Small intra- and large inter-individual variability in lithium clearance in humans

Occupational exposure to metals among battery recyclers in France: Biomonitoring and external dose measurements

In battery-recycling facilities, exposure to trace elements may occur through inhalation of contaminated dust or vapor emanating from the treatment processes. Exposure of battery-recycling workers to lead has been quite well covered in the literature. In contrast, we lack data on exposure to other elements contained in batteries. The aim of this study was to characterize the exposure of French battery recyclers to multiple elements using biomonitoring and airborne measurements. Eighty-six workers participated in the study. Inhalable metal concentrations were determined for personal airborne samples, and total exposure was determined from pre-shift and post-shift urine samples collected during the working week. In both types of sample, a total of 33 trace elements were measured using inductively coupled plasma mass spectrometry. Results showed battery recyclers to be mostly exposed to Cd, Co, Cr, Li, Mn, Ni, and Pb. Administrative and sorting workers were exposed at lower levels than maintenance, treatment, and dismantling workers. Cd, Co, Li, Mn, and Ni were detected at high levels in air samples, especially near the treatment facilities, with airborne cadmium levels of up to 79.4 µg/m³. Urinary sample analysis indicated exposure to Cd and Co, with levels measured at up to 27.6 and 3.34 µg/g of creatinine, respectively. Concentrations were compared to data reported for e-waste recycling companies. The data presented provide valuable information on exposure to trace elements for workers involved in battery-recycling. They also highlight the need to improve both collective and individual protective measures, which were not sufficient in the participating companies.

Effect of Acetazolamide on Obesity-Induced Glomerular Hyperfiltration: A Randomized Controlled Trial

AIMS

Obesity is an important risk factor for the development of chronic kidney disease. One of the major factors involved in the pathogenesis of obesity-associated kidney disease is glomerular hyperfiltration. Increasing salt-delivery to the macula densa is expected to decrease glomerular filtration rate (GFR) by activating tubuloglomerular feedback. Acetazolamide, a carbonic anhydrase inhibitor which inhibits salt reabsorption in the proximal tubule, increases distal salt delivery. Its effects on obesity-related glomerular hyperfiltration have not previously been studied. The aim of this investigation was to evaluate whether administration of acetazolamide to obese non diabetic subjects reduces glomerular hyperfiltration.

MATERIALS AND METHODS

The study was performed using a randomized double-blind crossover design. Obese non-diabetic men with glomerular hyperfiltration were randomized to receive intravenously either acetazolamide or furosemide at equipotent doses. Twelve subjects received the allocated medications. Two weeks later, the same subjects received the drug which they had not received during the first study. Inulin clearance, p-aminohippuric acid clearance and fractional lithium excretion were measured before and after medications administration. The primary end point was a decrease in GFR, measured as inulin clearance.

RESULTS

GFR decreased by 21% following acetazolamide and did not decrease following furosemide. Renal vascular resistance increased by 12% following acetazolamide, while it remained unchanged following furosemide administration. Natriuresis increased similarly following acetazolamide and furosemide administration. Sodium balance was similar in both groups.

CONCLUSIONS

Intravenous acetazolamide decreased GFR in obese non-diabetic men with glomerular hyperfiltration. Furosemide, administered at equipotent dose, did not affect GFR, suggesting that acetazolamide reduced glomerular hyperfiltration by activating tubuloglomerular feedback.

TRIAL REGISTRATION

ClinicalTrials.gov NCT01146288.

Obesity-induced glomerular hyperfiltration: its involvement in the pathogenesis of tubular sodium reabsorption

BACKGROUND

Obesity is associated with hypertension and glomerular hyperfiltration. A major mechanism responsible for the obesity-associated hypertension is renal salt retention. An increased glomerular filtration fraction (FF) is expected to raise postglomerular oncotic pressure and to increase proximal tubular sodium reabsorption. The aim of the present study was to verify whether obesity-associated hyperfiltration leads to increased postglomerular oncotic pressure and increased proximal sodium reabsorption.

METHODS

Twelve obese subjects (BMI >36) and 19 lean subjects participated in the study. They underwent measurement of glomerular filtration rate (GFR), renal plasma flow (RPF) and fractional excretion of lithium (FE Li).

RESULTS

GFR, RPF and FF were 61%, 28% and 29% higher, respectively, in the obese than in the control group (P < 0.00001 for GFR, P < 0.005 for RPF and P < 0.00005 for FF). Half of the obese group had increased FF with increased GFR, while the other half had normal FF with high-normal or increased GFR. Postglomerular oncotic pressure was 13% higher (P < 0.03) and FE Li was 33% lower (P < 0.005) in the obese group with high FF than in the lean group. Postglomerular oncotic pressure and FE Li were normal in the obese group with normal FF.

CONCLUSIONS

These results suggest that glomerular hyperfiltration may lead to increased proximal tubular sodium reabsorption in the obese.

Altered renal handling of sodium in human hypertension: short review of the evidence

A pathogenic role of the kidney in hypertension has been strongly supported by experimental studies by Guyton and Dahl since the 1960s. In the early 1980s, de Wardener and MacGregor proposed that in hypertensive patients the ability of the kidneys to excrete a sodium load could be genetically impaired. Since then, "sodium-sensitive" hypertension has been the object of numerous studies, mostly on animal models because of the difficulty to investigate the renal handling of sodium in humans. More recently, considerable progress in this field has been made thanks to the in vivo study of segmental renal tubular function by the clearance of lithium and to the growing knowledge of the genetics of renal tubular sodium transport systems. The scope of this review is to briefly review the most relevant information gathered by the investigation of segmental renal tubular sodium handling in humans as related to blood pressure regulation and hypertension. In aggregate, the results of these studies strongly support the association between altered renal sodium handling and high blood pressure and suggest a causal role of genetic, nutritional, metabolic, and neurohormonal factors. All of these factors, alone or in combination, may be able to impair the normal renal tubular sodium handling and influence blood pressure homeostasis. The paradigm of the pathogenic role of the kidney in hypertension is thus relentlessly shifting toward the definition of inherited as well as acquired renal tubular defects and molecular alterations, providing a plausible explanation for the alteration in blood pressure levels.

Altered renal sodium handling in men with abdominal adiposity: a link to hypertension

OBJECTIVES

Central adiposity, insulin resistance and hypertension are clearly interrelated but the mechanisms underlying this association have not been thoroughly elucidated. As renal sodium handling plays a central role in salt-sensitive forms of hypertension, we investigated the relation of renal tubular sodium handling to abdominal adiposity, blood pressure and insulin sensitivity.

DESIGN

Population-based study.

PARTICIPANTS

Five hundred and fifty-five untreated Olivetti male workers, aged 25-75 years.

SETTING

Olivetti factory medical centers in Pozzuoli and Marcianise (Naples, Italy)

MAIN OUTCOME MEASURES

Anthropometric indices, serum insulin, homeostatic model assessment index of insulin sensitivity, blood pressure, fractional excretions of uric acid and exogenous lithium (as markers of renal tubular sodium handling).

RESULTS

In univariate analysis, measures of central adiposity (i.e. sagittal abdominal diameter and umbilical circumference) were directly correlated with serum insulin (P < 0.001) and blood pressure levels (P < 0.001) and inversely associated with the fractional excretions of uric acid and lithium (P = 0.01-0.001). In multiple linear regression analysis, the same anthropometric indices but not the measures of peripheral adiposity (arm circumference and tricipital skinfold thickness), were significant predictors of the fractional excretion of uric acid and lithium, independently of age, blood pressure and serum insulin levels (P = 0.01-0.001).

CONCLUSIONS

Abdominal adiposity was associated with altered renal tubular sodium handling apart from insulin resistance and high blood pressure. The data indicate that men with prevalent abdominal adiposity have an enhanced rate of tubular sodium reabsorption, mainly at proximal sites. These findings provide a possible mechanistic link between central adiposity and salt-dependent hypertension.

Renal sodium handling in acute and chronic salt loading/depletion protocols: the confounding influence of acute water loading

OBJECTIVES

Renal tubular sodium handling was measured in healthy subjects submitted to acute and chronic salt-repletion/salt-depletion protocols. The goal was to compare the changes in proximal and distal sodium handling induced by the two procedures using the lithium clearance technique.

METHODS

In nine subjects, acute salt loading was obtained with a 2 h infusion of isotonic saline, and salt depletion was induced with a low-salt diet and furosemide. In the chronic protocol, 15 subjects randomly received a low-, a regular- and a high-sodium diet for 1 week. In both protocols, renal and systemic haemodynamics and urinary electrolyte excretion were measured after an acute water load. In the chronic study, sodium handling was also determined, based on 12 h day- and night-time urine collections.

RESULTS

The acute and chronic protocols induced comparable changes in sodium excretion, renal haemodynamics and hormonal responses. Yet, the relative contribution of the proximal and distal nephrons to sodium excretion in response to salt loading and depletion differed in the two protocols. Acutely, subjects appeared to regulate sodium balance mainly by the distal nephron, with little contribution of the proximal tubule. In contrast, in the chronic protocol, changes in sodium reabsorption could be measured both in the proximal and distal nephrons. Acute water loading was an important confounding factor which increased sodium excretion by reducing proximal sodium reabsorption. This interference of water was particularly marked in salt-depleted subjects.

CONCLUSION

Acute and chronic salt loading/salt depletion protocols investigate different renal mechanisms of control of sodium balance. The endogenous lithium clearance technique is a reliable method to assess proximal sodium reabsorption in humans. However, to investigate sodium handling in diseases such as hypertension, lithium should be measured preferably on 24 h or overnight urine collections to avoid the confounding influence of water.

Influence of Losartan Therapy on Tubular Sodium Kinetics in Mild to Moderate Hypertension

Losartan is a selective antagonist of angiotensin II and it is useful in the therapy of tubular sodium kinetics in mild to moderate hypertension. In this study 30 subjects with mild to moderate hypertension were treated for 2 months with Losartan and were compared to control group of 30 normotensive subjects. Inulin and para aminohippuric acid (PAH) were administered intravenously to both groups, and blood and urine samples were collected every 30 minutes to determine baseline levels of inulin, PAH, lithium, sodium and potassium. A protein meal was given without salt, cereals nor vegetables. After 4 clearance periods were determined. Glomerular filtration rate data from treated and control subjects were not statistically significant. However, lithium clearance, fractional excretion, absolute distal reabsorption of sodium, as well as filtration fraction from Losartan treated and untreated subjects were highly significant at all minutes studied (30-60-90-120, and 180). In this paper we confirm that Losartan can be identified as a drug with high tollerability compared to other compounds of the same class that act on receptor inhibition for the managment of hypertension.

Determination of trace lithium in biological fluids using graphite furnace atomic absorption spectrophotometry: variability of urine matrices circumvented by cation exchange solid phase extraction

A graphite furnace atomic absorption spectrometry method has been developed for the quantitative determination of submicromolar endogenous concentration of lithium in human plasma and urine using pyrolitically-coated graphite tubes in combination with ammonium nitrate matrix modification. This latter treatment could not completely abolish the interferences caused by the matrix, notably in urine samples. The variability of the urinary matrices required an additional standardization procedure by solid-phase extraction on strongly acidic cation exchange cartridges. Matrix-matched samples were used for the establishment of calibration curves with the addition-calibration method. Calibration curves were linear up to 0.72 mumol/l (1.0 > r2 > 0.99). The described method enables accurate measurements of trace-lithium in biological samples at concentrations down to 0.03 mumol/l with intra- and inter-day variabilities < 10%. The method was applied to the determination of trace-lithium levels in urine and plasma samples from healthy individuals enabling the calculation of its fractional excretion (FeLi) (median range 17.3%), a value which reflects the functional capacity of the kidney to reabsorb sodium and water at the proximal tubular portion of the nephron. This sensitive method can thus be used as an investigative and diagnostic tool in various renal pathophysiological conditions, in clinical research, and may also be applied to studies on the trace-lithium status of population in connection with psycho-affective disorders.

Renal sodium handling in patients with untreated hypertension and white coat hypertension

Renal tubular sodium handling was investigated prospectively in 48 normotensive subjects, 53 untreated hypertensive patients, and 13 patients with white coat hypertension using endogenous trace lithium as a marker of proximal sodium reabsorption. A 12-hour daytime ambulatory blood pressure recording was performed in all patients to confirm the diagnosis of hypertension. Patients were included in the white coat hypertension group if their office blood pressure was above 160/90 mm Hg but the mean value of their 12-hour ambulatory recording was lower than 140/90 mm Hg. All participants were studied on their normal diet and ate salt freely. Fractional excretions of sodium (FENa), lithium (FELi), and potassium (FEK) were measured simultaneously before blood pressure recording. FENa was significantly higher in hypertensive patients (0.84 +/- 0.05%, P < .05) than in normotensive control subjects (0.60 +/- 0.06%), and FELi was comparable in the two groups (15.4 +/- 0.65% in hypertensive patients and 17.0 +/- 0.9% in control subjects). However, the relation between FENa and FELi was significantly different in normotensive subjects and hypertensive patients (P < .001), so that for a given increase in FENa a smaller increase in FELi was observed in hypertensive patients. In addition, the ratios of urinary lithium to sodium and urinary potassium to sodium were significantly reduced in hypertensive patients, suggesting an increased proximal reabsorption of sodium. Similar alterations in renal tubular sodium handling were observed in patients with white coat hypertension. These results suggest that an increased sodium reabsorption in the proximal tubule may contribute to the maintenance of hypertension and that white coat hypertension might represent a prehypertensive state.

Effects of insulin-like growth factor I on renal function in normal men

Acute and chronic studies in rats have shown that administration of human recombinant insulin-like growth factor I (rhIGF-I) lowers renal vascular resistance and increases RPF, GFR and proximal tubular phosphate absorption. In the present study we examined the effects of subcutaneous injections of rhIGF-I on glomerular and tubular function in eight normal men. Individuals were studied for 5.5 consecutive days in a clinical research center while they ate a constant diet. Four subjects were studied in a non-volume expanded state (Group 1) and four individuals were evaluated during a saline load. From the second to the fourth day, subjects received subcutaneous injections of rhIGF-I, 60 micrograms/kg, at 0800, 1400 and 2000 hours. After commencing the rhIGF-I injections, serum IGF-I levels rose quickly and remained at about three to four times that of baseline throughout the period of rhIGF-I injections. In both the normal and the saline loaded subjects, renal vascular resistance decreased and RPF and GFR (PAH and inulin clearances) rose quickly and were clearly altered within six hours after starting the rhIGF-I injections. RPF had increased by 32 +/- 3% and 33 +/- 2% (grand mean +/- SEM) in the normal and the saline loaded subjects, and GFR rose by 22 +/- 3% and 36 +/- 4% in the two groups. In both groups the absolute and the fractional excretion of phosphate decreased markedly during rhIGF-I treatment, but the absolute and fractional excretion of calcium did not change. The urinary fractional and absolute excretion of albumin and IgG also increased, although slightly, with rhIGF-I injections. There was no consistent effect of IGF-I on tubular sodium handling. These findings demonstrate that in normal men subcutaneous injections of rhIGF-I greatly increase RPF, GFR, and tubular phosphorus reabsorption and enhances microproteinuria.

Renal handling of endogenous lithium in experimental diabetes mellitus in the rat

1. The usefulness of determining the renal handling of endogenous lithium as a marker of proximal tubular sodium reabsorption was assessed in streptozotocin induced diabetes mellitus in the Sprague-Dawley rat. 2. The clearance and fractional excretion of lithium were determined before and following the development of diabetes mellitus, and compared with measurements of proximal tubular reabsorption made directly using micropuncture techniques. Endogenous lithium was measured in order to avoid the toxic tubular effects of exogenously administered lithium salts. 3. Although a trend existed for a reduction in the fractional excretion of lithium in diabetic animals (1.8 +/- 0.3 vs 2.4 +/- 0.5%; P greater than 0.20), this did not reach statistical significance and did not accurately reflect the change in directly measured tubular Na reabsorption. 4. The decrease in proximal tubular Na reabsorption demonstrated in diabetic animals treated with phlorizin was not significantly reflected in the fractional lithium excretion, although again a corresponding trend was evident (1.9 +/- 0.8 vs 0.6 +/- 0.2%; P greater than 0.10. 5. In summary, the significant alterations in tubular Na handling in diabetes mellitus, previously demonstrated directly using micropuncture techniques, are not reflected in the renal handling of endogenous lithium. This indirect method is inadequate to assess proximal tubular Na transport in experimental diabetes mellitus.

Further studies on the mechanism of the natriuretic response to low-dose dopamine in man: effect on lithium clearance and nephrogenic cAMP formation

The effect of intravenous infusion of low-dose dopamine on electrolyte excretion, lithium clearance, nephrogenous cAMP formation and renal haemodynamics was investigated in healthy volunteers. Dopamine significantly increased the urine flow rate by 70.6% and urinary sodium excretion by 72%, but did not change creatinine clearance, PRA or plasma levels of AVP, ANP and cAMP. Renal plasma flow significantly increased by 48.6%; the glomerular filtration rate was not changed. Lithium per se increased basal PRA, but had no effect on the increments of urine flow rate, sodium excretion and renal blood flow induced by dopamine. Dopamine significantly increased the fractional excretion of lithium (representing fractional excretion of sodium at the proximal level). The increase in urinary sodium excretion during dopamine infusion, significantly correlated with the increase in fractional excretion of lithium (r = 0.94; P less than 0.01) and the increase in nephrogenous cAMP formation (r = 0.96; P less than 0.01). No correlation was found between the increase in urinary sodium excretion and the increase in renal blood flow. In conclusion, this study confirms that low-dose dopamine increases renal blood flow and urinary sodium excretion in healthy volunteers. This natriuretic response appears to be due to interaction with proximal tubular dopamine receptors, which are positively coupled to adenylate cyclase.

Postischemic diagnostic localization of tubular lesions

Several functional parameters were applied in an experimental model of ischemia to test the ability to localize the distribution of tubular lesions. Canine kidneys were perfused with protective solutions and rendered ischemic for definite periods. Renal function was determined during a subsequent 3-h reperfusion. The pattern and the extent of renal injury were influenced by varying the duration of ischemia and by modifying the protective solution used. The results suggest that by employing an appropriate selection of parameters it is possible to allocate renal injury to definite sections of the tubules. According to such an evaluation, under protection with HTK-solution, the proximal tubule limits the tolerance of renal ischemia. The thick ascending limb shows some vulnerability that is aggravated by disadvantageous modifications of the protective solution and that may become more pronounced in the course of reperfusion. In contrast, more distal parts of the nephron retain a remarkable reserve transport capacity after a tolerable level of ischemia.