Lithium as an indicator of proximal sodium reabsorption

Mechanistic insights into the primary and secondary alterations of renal ion and water transport in the distal nephron

The kidneys, by equilibrating the outputs to the inputs, are essential for maintaining the constant volume, pH, and electrolyte composition of the internal milieu. Inability to do so, either because of internal kidney dysfunction (primary alteration) or because of some external factors (secondary alteration), leads to pathologies of varying severity, leading to modification of these parameters and affecting the functions of other organs. Alterations of the functions of the collecting duct (CD), the most distal part of the nephron, have been extensively studied and have led to a better diagnosis, better management of the related diseases, and the development of therapeutic tools. Thus, dysfunctions of principal cell-specific transporters such as ENaC or AQP2 or its receptors (mineralocorticoid or vasopressin receptors) caused by mutations or by compounds present in the environment (lithium, antibiotics, etc.) have been demonstrated in a variety of syndromes (Liddle, pseudohypoaldosteronism type-1, diabetes insipidus, etc.) affecting salt, potassium, and water balance. In parallel, studies on specific transporters (H⁺ -ATPase, anion exchanger 1) in intercalated cells have revealed the mechanisms of related tubulopathies like distal renal distal tubular acidosis or Sjögren syndrome. In this review, we will recapitulate the mechanisms of most of the primary and secondary alteration of the ion transport system of the CD to provide a better understanding of these diseases and highlight how a targeted perturbation may affect many different pathways due to the strong crosstalk and entanglements between the different actors (transporters, cell types).

Na restriction activates epithelial Na channels in rat kidney through two mechanisms and decreases distal Na+ delivery

KEY POINTS

Dietary Na restriction, through the mineralocorticoid aldosterone, acts on epithelial Na channels via both fast (24 h) and slow (5-7 days) mechanisms in the kidney. The fast effect entails increased proteolytic processing and trafficking of channel protein to the apical membrane. It is rapidly reversible by the mineralocorticoid receptor antagonist eplerenone and is largely lost when tubules are studied ex vivo. The slow effect does not require increased processing or surface expression, is refractory to acute eplerenone treatment, and is preserved ex vivo. Both slow and fast effects contribute to Na retention in vivo. Increased Na⁺ reabsorption in the proximal tubule also promotes Na conservation under conditions of chronic dietary Na restriction, reducing Na⁺ delivery to the distal nephron.

ABSTRACT

Changes in the activity of the epithelial Na channel (ENaC) help to conserve extracellular fluid volume. In rats fed a low-salt diet, proteolytic processing of ENaC increased within 1 day, and was almost maximal after 3 days. The rapid increase in the abundance of cleaved αENaC and γENaC correlated with decreased urinary Na⁺ excretion and with increased ENaC surface expression. By contrast, ENaC activity, measured ex vivo in isolated cortical collecting ducts, increased modestly after 3 days and required 5 days to reach maximal levels. The mineralocorticoid receptor antagonist eplerenone reversed the increase in cleaved γENaC and induced natriuresis after 1 or 3 days but failed to alter either ENaC currents or Na⁺ excretion after 7 days of Na restriction. We conclude that Na depletion, through aldosterone, stimulates ENaC via independent fast and slow mechanisms. In vivo, amiloride-induced natriuresis increased after 1 day of Na depletion. By contrast, hydrochlorothiazide (HCTZ)-induced natriuresis decreased gradually over 7 days, consistent with increased ability of ENaC activity to compensate for decreased Na⁺ reabsorption in the distal convoluted tubule. Administration of amiloride and HCTZ together increased Na⁺ excretion less in Na-depleted compared to control animals, indicating decreased delivery of Na⁺ to the distal nephron when dietary Na is restricted. Measurements of creatinine and Li⁺ clearances indicated that increased Na reabsorption by the proximal tubules is responsible for the decreased delivery. Thus, Na conservation during chronic dietary salt restriction entails enhanced transport by both proximal and distal nephron segments.

Glomerular and tubular effects of nitric oxide (NO) are regulated by angiotensin II (Ang II) in an age-dependent manner through activation of both angiotensin receptors (AT1Rs and AT2Rs) in conscious lambs

Renin-angiotensin (RAS) and nitric oxide (NO) systems and the balance and interaction between them are considered of primary importance in maintaining fluid and electrolyte homeostasis. It has been suggested that the effects of NO may be modulated at least in part by the angiotensin (Ang) II, yet the roles of angiotensin receptor type 1 (AT1R) and type 2 (AT2R) are not well understood. Even though both Ang II and NO are elevated at birth and during the newborn period, their contribution to the adaptation of the newborn to life after birth as well as their physiological roles during development are poorly understood. The aim of this study was to determine if NO regulation of renal function during postnatal maturation is modulated by Ang II through activation of AT1R or AT2R or both receptors. Glomerular and tubular effects of either AT1R selective antagonist ZD 7155, AT2R selective antagonist PD 123319, and both antagonists ZD 7155 plus PD 123319, were measured in 1- (N = 9) and 6-week-old (N = 13) conscious, chronically instrumented lambs before and after removal of endogenous NO with L-arginine analogue, L-NAME. Two-way analysis of variance (ANOVA) procedures for repeated measures over time with factors age and treatment were used to compare the effects of the treatments on several glomerular and tubular variables in both groups. This study showed that L-NAME infusion after pre-treatment with ATR antagonists did not alter glomerular function in 1- or 6-week-old lambs. NO effects on electrolytes handling along the nephron during postnatal development were modulated by Ang II through AT1R and AT2R in an age-dependent manner. Selective inhibition of AT1R and AT2R increased excretion of Na⁺, K⁺, and Cl^- in 6- but not in 1-week-old lambs. In 6-week-old lambs, urinary flow rate increased by 200%, free water clearance increased by 50%, and urine osmolality decreased by 40% after L-NAME was added to the pre-treatment with ZD 7155 plus PD 123319. When L-NAME was added either to ZD 7155 or PD 123319, the same trend in the alterations of these variables was observed, albeit to a lower degree. In conclusion, in conscious animals, during postnatal maturation, Ang II modulates the effects of NO on glomerular function, fluid, and electrolyte homeostasis through AT1Rs and AT2Rs in an age-dependent manner. Under physiological conditions, AT2Rs may potentiate the effects of AT1R, providing evidence of a crosstalk between ATRs in modulating NO effects on fluid and electrolyte homeostasis during postnatal maturation. This study provides new insights on the regulation of renal function during early postnatal development showing that, compared with later in life, newborns have impaired capacity to regulate glomerular function, water, and electrolyte balance.

Renal effects of angiotensin II in the newborn period: role of type 1 and type 2 receptors

BACKGROUND

Evidence suggests a critical role for the renin-angiotensin system in regulating renal function during postnatal development. However, the physiological relevance of a highly elevated renin-angiotensin system early in life is not well understood, nor which angiotensin receptors might be involved. This study was designed to investigate the roles of angiotensin receptors type 1 (AT1R) and type 2 (AT2R) in regulating glomerular and tubular function during postnatal development.

METHODS

The renal effects of the selective antagonist to AT1R, ZD 7155 and to AT2R, PD 1233319 were evaluated in two groups of conscious chronically instrumented lambs aged ~ one week (N = 8) and ~ six weeks (N = 10). Two experiments were carried out in each animal and consisted of the assessment of renal variables including glomerular and tubular function, for 30 min before (Control) and 60 min after infusion of ZD 7155 and PD 123319, respectively. Statistical significance was determined using parametric testing (Student t-test, analysis of variance ANOVA) as appropriate.

RESULTS

ZD 7155 infusion was associated with a significant decrease in glomerular filtration rate and filtration fraction at one but not six weeks; urinary flow rate decreased significantly in older animals, whereas sodium excretion and free water clearance were not altered. There was an age-dependent effect on potassium handling along the nephron, potassium excretion decreasing after ZD 7155 infusion in younger but not in older lambs. PD 123319 had no significant effects on glomerular filtration rate and tubular function in either age group.

CONCLUSIONS

These results provide evidence to support an important role for AT1Rs in mediating the renal effects of angiotensin II during postnatal maturation in conscious developing animals. In contrast to a role for AT2Rs later in life, there appears to be no role for AT2Rs in influencing the renal effects of Angiotensin II in the postnatal period.

Lithium in the Kidney: Friend and Foe?

Trace amounts of lithium are essential for our physical and mental health, and administration of lithium has improved the quality of life of millions of patients with bipolar disorder for >60 years. However, in a substantial number of patients with bipolar disorder, long-term lithium therapy comes at the cost of severe renal side effects, including nephrogenic diabetes insipidus and rarely, ESRD. Although the mechanisms underlying the lithium-induced renal pathologies are becoming clearer, several recent animal studies revealed that short-term administration of lower amounts of lithium prevents different forms of experimental AKI. In this review, we discuss the knowledge of the pathologic and therapeutic effects of lithium in the kidney. Furthermore, we discuss the underlying mechanisms of these seemingly paradoxical effects of lithium, in which fine-tuned regulation of glycogen synthase kinase type 3, a prime target for lithium, seems to be key. The new discoveries regarding the protective effect of lithium against AKI in rodents call for follow-up studies in humans and suggest that long-term therapy with low lithium concentrations could be beneficial in CKD.

Angiotensin II contributes to glomerular hyperfiltration in diabetic rats independently of adenosine type I receptors

Increased angiotensin II (ANG II) or adenosine can potentiate each other in the regulation of renal hemodynamics and tubular function. Diabetes is characterized by hyperfiltration, yet the roles of ANG II and adenosine receptors for controlling baseline renal blood flow (RBF) or tubular Na(+) handling in diabetes is presently unknown. Accordingly, the changes in their functions were investigated in control and 2-wk streptozotocin-diabetic rats after intrarenal infusion of the ANG II AT1 receptor antagonist candesartan, the adenosine A1 receptor antagonist 8-cyclopentyl-1,3-dipropylxanthine (DPCPX), or their combination. Compared with controls, the baseline blood pressure, RBF, and renal vascular resistance (RVR) were similar in diabetics, whereas the glomerular filtration rate (GFR) and filtration fraction (FF) were increased. Candesartan, DPCPX, or the combination increased RBF and decreased RVR similarly in all groups. In controls, the GFR was increased by DPCPX, but in diabetics, it was decreased by candesartan. The FF was decreased by candesartan and DPCPX, independently. DPCPX caused the most pronounced increase in fractional Na(+) excretion in both controls and diabetics, whereas candesartan or the combination only affected fractional Li(+) excretion in diabetics. These results suggest that RBF, via a unifying mechanism, and tubular function are under strict tonic control of both ANG II and adenosine in both control and diabetic kidneys. Furthermore, increased vascular AT1 receptor activity is a contribution to diabetes-induced hyperfiltration independent of any effect of adenosine A1 receptors.

Glomerular and tubular responses to N(G)-nitro-L-arginine methyl ester are age dependent in conscious lambs

The present experiments were carried out to investigate the role of endogenously produced NO in modulating renal function during postnatal maturation under physiological conditions. In conscious, chronically instrumented lambs aged approximately 1 (n = 8) and approximately 6 wk (n = 8) of postnatal life, various parameters of glomerular and tubular function were measured for 1 h before and 1 h after intravenous injection of 20 mg/kg of N(G)-nitro-L-arginine methyl ester (L-NAME; experiment 1) or its inactive isomer D-NAME (experiment 2). After administration of L-NAME to 1-wk-old lambs, glomerular filtration rate (GFR) and filtration factor (FF) decreased by approximately 50% at 20 min, remaining decreased at 60 min. In 6-wk-old lambs, GFR and FF remained constant after L-NAME. Proximal fractional Na(+) reabsorption decreased after L-NAME administration to lambs aged 6 wk, resulting in a prompt natriuresis; this was sustained for 60 min. There were no effects of L-NAME on proximal fractional Na(+) reabsorption in 1-wk-old lambs. In 6-wk-old lambs, urinary flow rate increased by approximately 500%, free water clearance increased by approximately 50%, and urinary osmolality decreased by approximately 60% after L-NAME administration; no effects on these variables were measured in 1-wk-old lambs. The diuresis after L-NAME administration to 6-wk-old lambs was unaccompanied by any changes in plasma levels of arginine vasopressin. There were no effects of D-NAME on any of the measured variables. We conclude that endogenously produced nitric oxide modulates glomerular and tubular function in an age-dependent manner.

Effects of perindopril and hydrochlorothiazide on the long-term progression of lithium-induced chronic renal failure in rats

Administration of lithium in the diet to new-born rats induces chronic renal failure associated with hypertension, proteinuria and irreversible tubulo-interstitial morphological changes. In the present study we induced chronic renal failure by administration of lithium for 16 weeks to new-born rats, and examined the spontaneous course of this nephropathy and the effects of antihypertensive treatment with either perindopril (12 mg/kg diet) or hydrochlorothiazide (500-1000 mg/kg diet) during a 24 weeks follow up period without lithium. In the placebo group, progression to terminal uraemia occurred in all rats with severe renal failure (initial Purea > 15 mM) (10 of 18). Rats with mild-moderate renal failure (Purea 9-15 mM) showed no deterioration in renal function despite persistent systolic hypertension and irreversible structural renal changes. Perindopril normalized the blood pressure in all rats but did not prevent the progression to terminal uraemia (8 to 18). Hydrochlorothiazide partially controlled the hypertension and accellerated the progression of uraemia without increasing the mortality (7 of 17). Irrespective of treatments, the predominant quantitative structural changes (e.g. decreased volume of proximal tubular cells) showed significant correlations with the degree of renal dysfunction, but not with systolic blood pressure in the surviving rats. It is concluded that progression of lithium-induced nephropathy to terminal uraemia occurs when the nephrotoxic insult results in a more than 50% reduction of the glomerular filtration rate, judged from Purea levels. The failure of effective antihypertensive treatment with an angiotension-converting enzyme inhibitor to modify the progression suggests that in this model, systemic or glomerular hypertension may not be an important pathophysiological factor. The structural and functional deterioration observed in Li-uraemic rats during treatment with hydrochlorothiazide remains unexplained.

The effect of misoprostol on indomethacin-induced renal dysfunction in well-compensated cirrhosis

BACKGROUND/AIMS

Indomethacin has been shown to have adverse effects on renal function in patients with well-compensated alcoholic cirrhosis. The aim of this study was to determine whether an oral prostaglandin E1 analogue, misoprostol, could prevent this indomethacin-induced renal dysfunction.

METHODS

Six patients with well-compensated alcoholic cirrhosis were studied. Renal hemodynamics and tubular function were assessed by clearance techniques before and after an oral dose of (i) 50 mg of indomethacin alone (I50), and (ii) a combination of I50 and 200 micrograms of misoprostol.

RESULTS

I50 produced a significant reduction in glomerular filtration rate, a fall in effective renal plasma flow and an increase in renal vascular resistance. Two hundred micrograms of misoprostol was able to abolish the deleterious renal effects of indomethacin totally, yielding an increase in glomerular filtration rate and effective renal plasma flow and a decrease in renal vascular resistance as well as an increase in urinary volume and urinary sodium excretion. These beneficial effects were maximal in the hour immediately following medication, but were only transient, and this may be a limiting factor in its clinical use.

CONCLUSIONS

If the beneficial renal effects of misoprostol could be confirmed after chronic administration, then the vasodilatory, natriuretic and diuretic potential of 200 micrograms of misoprostol could be of potential therapeutic value in patients with well-compensated alcoholic cirrhosis who require non-steroidal anti-inflammatory drug therapy.

Renal response to a saline load in well-compensated alcoholic cirrhosis

A total of 29 patients with well-compensated alcoholic cirrhosis and 9 healthy control subjects of similar age and sex were studied to assess their response to a challenge of 2 L of normal saline infused over a 1 hr period. Patients with cirrhosis had an adequate effective arterial blood volume in the basal state as assessed by neurohumoral markers of vascular filling. They also had a lower renal vascular resistance (p = 0.048) and a higher glomerular filtration rate (p = 0.014) than the controls, indicating the presence of renal vasodilation. Both groups were in sodium balance, but the patients with cirrhosis had a higher filtered load of sodium, an increased proximal tubular reabsorption of sodium (p = 0.015) and a decreased fractional excretion of sodium (p < 0.001). The administration of a saline load was not accompanied by any significant changes in the renal circulation in the patients with cirrhosis. They were unable to suppress their proximal tubular reabsorption of sodium to the same extent as the controls (p = 0.012), so by the fourth hour a significant difference in the rate of urinary excretion of sodium was evident. In the patients with cirrhosis, glomerular filtration rate before and after the saline load correlated significantly with indocyanine green extraction (r = 0.65; p = 0.002), whereas the tubular handling of sodium was dependent on antipyrine clearance (r = 0.80; p < 0.001).(ABSTRACT TRUNCATED AT 250 WORDS)

Nifedipine: its effects on renal hemodynamics and sodium homeostasis in well-compensated alcoholic cirrhosis

Following the administration of 10 mg of nifedipine to 11 patients with well-compensated alcoholic cirrhosis, there was a significant fall in mean arterial blood pressure, accompanied by an increase in heart rate, presumably due to a significant decrease in systemic vascular resistance. Despite the fall in renal perfusion pressure, there was an increase in the effective renal plasma flow and a significant decrease in renal vascular resistance. The glomerular filtration rate was preserved, suggesting that the decrease in renal vascular resistance was due to a preferential decrease in afferent arteriolar tone. There were no significant changes in the filtered sodium load or the tubular reabsorption of sodium and urinary sodium, and urinary volume did not alter significantly. Although the current study indicates that nifedipine can improve the renal circulation in patients with cirrhosis, the significant effects on the systemic circulation suggest that its potential to reverse the intense renal vasoconstriction that can complicate the clinical course of advanced liver disease is unlikely to be of value in the treatment of the hepatorenal syndrome.

Renal adaptations to continuous administration of furosemide and bendroflumethiazide in rats

During continuous treatment with diuretics, the kidney adapts to the initial Na loss by activating antinatriuretic mechanisms which serve to prevent further Na and volume losses. To study the renal sites of adaptations to constant diuretic treatment, bendroflumethiazide (4 mg daily), furosemide (8 mg daily) or vehicle (0.24 ml daily) was infused intraperitoneally to female Wistar rats by implanted osmotic minipumps. Half of the animals (groups vol.) were randomized to receive a balanced saline solution to drink in addition to water in order to replace Na, K and volume losses. On the 6th day of treatment, clearances of inulin, Na, and Li were determined during four consecutive 6 hr periods. Circadian changes in renal excretions occurred in all groups with highest excretions of Na, Li and water in the dark period (6 p.m. to 6 a.m.). Renal changes induced by continuous infusion of diuretics were most pronounced in the dark period and would probably not have been disclosed if the clearance experiments had been restricted to the daytime. The average 24-hour clearance for inulin (glomerular filtration rate) was not different among groups, except for a 20% decrease in the furosemide group. The 24-hour fractional Na excretion, being approximately 0.5% in the vehicle group, increased to approximately 0.8% in group (bendroflumethiazide+vol) and to approximately 2.8% in group (furosemide+vol) but was not different from the vehicle group in the diuretic groups without volume replacement.(ABSTRACT TRUNCATED AT 250 WORDS)

Simulation of lithium transport along the thin segments of Henle's loop

Although the renal clearance of lithium is widely used as an index of sodium and water delivery to the end of the proximal tubule, micropuncture studies of superficial nephrons suggest that lithium may be reabsorbed additionally in the loop of Henle. In order to examine the possibility of lithium transport in the thin loop segments of deep nephrons, we conducted a computer simulation study using a modification of the mathematical model reported previously. The data for the model were obtained from measurements of osmolality and electrolyte concentrations in systemic plasma and renal papillary interstitial fluid of control and furosemide-treated rats. Papillary interstitium/plasma Li+ concentration ratios were 3.23 and 1.48 in the control and the furosemide group, respectively. Assuming that solute concentration in the renal medulla increases as an exponential function, and applying phenomenological coefficients obtained from hamsters, the transport profiles of Li+ along the thin loop segments were calculated to be very similar to those of Na+. In the control group, about 82% of delivered Li+ was reabsorbed along the entire thin loop segments, with all segments contributing equally. This value may represent the highest possible capacity of the thin loop segments. In the furosemide group, Li+ reabsorption in the thin loop was reduced to 31% of delivered Li+. From these analyses, we conclude that an appreciable amount of lithium may be reabsorbed in the thin loop segments of long-looped nephrons by passive mechanisms. Furosemide inhibits Li+ reabsorption by dissipating the osmotic concentration gradient in the renal medulla.(ABSTRACT TRUNCATED AT 250 WORDS)

Indomethacin-induced renal dysfunction in patients with well-compensated cirrhosis

BACKGROUND

Patients with cirrhosis and ascites are especially sensitive to the adverse renal effects of indomethacin-induced inhibition of prostaglandin synthesis. The aim of this study was to determine whether indomethacin affects renal function in patients with well-compensated cirrhosis.

METHODS

Clearance techniques were used to assess renal hemodynamics and sodium and water homeostasis.

RESULTS

The oral administration of 50 mg of indomethacin to well-compensated patients with alcoholic cirrhosis was followed by a significant decrease in glomerular filtration rate (GFR) and effective renal plasma flow because of a preferential increase in afferent arteriolar tone. Indomethacin was both antidiuretic and antinatriuretic due principally to decreased free water clearance and increased proximal tubular reabsorption of sodium. The acute changes in renal function were not sustained. Patients with a high basal GFR were particularly sensitive to the adverse renal effects of indomethacin.

CONCLUSIONS

This study indicates that in patients with well-compensated cirrhosis renal prostaglandins are functionally active and may contribute to the pathogenesis of glomerular hyperfiltration. Nonsteroidal anti-inflammatory drugs should be used with caution in all patients with cirrhosis.

Chronopharmacokinetics and chronotoxicity of lithium in mice eating normal and low-sodium diets

The temporal aspects of the pharmacokinetics and toxicity of lithium were studied in mice eating normal and low-sodium diets. ICR male mice, housed under a light:dark (LD; 12:12) cycle, were injected with variable doses of lithium chloride i.p. A circadian rhythm was found in lithium clearance after a single administration in mice eating the normal diet showed the maximum value in the early dark phase and the minimum in the early light phase. The repeated administration of lithium did not affect the rhythm of the pharmacokinetics of the drug under the LD cycle. Although the low-sodium diet significantly decreased the lithium clearance, it did not influence the rhythm of the clearance. Higher toxicity was demonstrated in mice injected with the drug at the time of day with lower lithium clearance in the single-dose study but not in the repeated-doses study, regardless of the diet conditions. The low-sodium diet increased the acute and chronic toxicity of lithium. The results indicate that there is a circadian rhythm of acute toxicity and clearance of lithium after a single dose or repeated administration of the drug in mice eating normal and low-sodium diets and that the low-sodium diet increases lithium toxicity by reducing the clearance of the drug without influencing the rhythm characteristics.

Effects of Felodipine on the dog kidney: a lithium clearance study

This study was performed in order to investigate the possible influence of sympathetic nerve activity on the effects of the dihydropyridine calcium antagonist felodipine on absolute and fractional reabsorption rates of sodium and water in proximal and distal tubular segments in the dog kidney. Clearance of 51Cr-EDTA was used as a measure of glomerular filtration rate (GFR). GFR, urinary excretion rates of sodium and water, and lithium clearance (C-Li) were used for assessing the absolute and fractional tubular reabsorption rates. Felodipine infusion into the right renal artery increased renal vascular conductance (renal blood flow divided by renal arteriovenous pressure gradient) significantly (by 9%) while GFR remained unchanged. Calculated absolute proximal reabsorption rates remained unchanged while distal sodium reabsorption rate increased significantly from 2.1 +/- 0.3 to 2.7 +/- 0.4 mmol min-1. Sodium clearance (C-Na) increased from 0.22 +/- 0.08 to 0.40 +/- 0.07 ml min-1. The alpha-adrenergic blockade with phentolamine did not affect renal haemodynamic or excretory variables, nor did it influence the haemodynamic response to felodipine. After alpha-adrenergic blockade felodipine caused an increase in C-Na from 0.28 +/- 0.06 ml min-1 to 0.63 +/- 0.04 ml min-1, which was significantly greater than that measured after felodipine alone. The distal load (C-Li) was not significantly different from that obtained after felodipine alone, but distal sodium reabsorption rate increased less significantly after alpha-adrenergic blockade. The results suggest that felodipine, by its effect on tubular flow and/or composition, activates local alpha-adrenergic reflex mechanism(s), which stimulates distal sodium reabsorption, thereby attenuating the natriuretic effect.

Tubular sodium handling in cirrhotic patients with ascites as analysed by the renal lithium clearance method

The proximal and distal sodium reabsorption were calculated from lithium clearance in 21 healthy controls and 24 cirrhotic patients with ascites after 4 days under a sodium-restricted diet. The values of fractional lithium clearance were lower in patients than in controls (7.37 +/- 0.87 vs. 18.13 +/- 1.76%, P less than 0.001). Fractional proximal sodium reabsorption was increased in patients compared with controls (92.8 +/- 1.1 vs. 81.8 +/- 1.7%, P less than 0.001). No differences were found in fractional distal sodium reabsorption between controls and patients (96.9 +/- 0.8 vs. 98.6 +/- 0.1%). When patients were separated into two subgroups according to their sodium balance, it was found that fractional distal sodium reabsorption was increased in patients whose balance remained positive, compared with patients on a negative sodium balance (98.99 +/- 0.26 vs. 94.11 +/- 1.50%, P less than 0.05). In addition, the natriuretic response to a specific dose of spironolactone was higher in patients on positive sodium balance compared with patients on negative sodium balance (per cent increase in natriuresis after spironolactone 300 mg day-1: 355.24 +/- 73.98 vs. 84.21 +/- 15.8%, P less than 0.01). We conclude that proximal sodium reabsorption is increased in cirrhotics with ascites. In addition, distal sodium reabsorption is enhanced only in those patients which exhibit avid sodium retention.

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.

Tubular site of renal sodium retention in ascitic liver cirrhosis evaluated by lithium clearance

Renal tubular sodium handling was evaluated in 27 non-azotemic cirrhotic patients with ascites and positive sodium balance and in 17 controls after at least 5 days of a constant sodium intake using the lithium clearance as an index of fluid delivery to the distal tubule. Plasma renin activity and plasma aldosterone were also evaluated. Sodium fractional excretion, filtered sodium load, absolute sodium distal delivery, lithium fractional excretion and absolute distal sodium reabsorption were significantly lower in cirrhotics than in controls (0.58 +/- 0.11 vs. 1.29 +/- 0.12%, P less than 0.001; 12529 +/- 677 vs. 15707 +/- 796 microEq min-1 1.73 m-2 BSA, P less than 0.005; 2384 +/- 135.2 vs. 3685 +/- 219.3 microEq min-1 1.73 m-2 BSA, P less than 0.001; 19.5 +/- 1.0 vs. 24.2 +/- 1.3%, P less than 0.01; 2299 +/- 127 vs. 3485 +/- 214 microEq min-1 1.73 m-2 BSA, P less than 0.001, respectively). A correlation was found between lithium clearance and sodium clearance only in cirrhotic patients (r = 0.62; P less than 0.01). Distal sodium reabsorption evaluated as a per cent of filtered sodium load was lower in cirrhotics than in controls (19.1 +/- 1.0 vs. 22.4 +/- 1.2%, P less than 0.05) while distal sodium reabsorption evaluated as a per cent of sodium distal delivery was higher in cirrhotics than in controls (96.7 +/- 0.4 vs. 94.4 +/- 0.5%, P less than 0.005).(ABSTRACT TRUNCATED AT 250 WORDS)

A lithium clearance study of sodium reabsorption at the proximal tubule in liver cirrhosis with ascites

Since the reabsorption of lithium occurs almost exclusively in the proximal tubule and is associated with that of sodium, the fractional excretion of lithium (FELit) ws examined in 18 patients with cirrhosis in order to examine the reabsorption rate of sodium at the proximal tubule. As expected, the fractional excretion of sodium (FENa) was significantly lower in cirrhotic patients with ascites (0.43 +/- 0.10%, mean +/- SEM) than in cirrhotic patients without ascites (0.75 +/- 0.14%, P less than 0.05) and healthy controls (0.82 +/- 0.17%, P less than 0.05). By contrast, there was no significant difference in FELit among cirrhotic patients with ascites (16.7 +/- 2.0%), cirrhotic patients without ascites (15.4 +/- 2.0%) and controls (17.4 +/- 1.5%). It is unlikely, therefore, that in cirrhotic patients with ascites, the impaired sodium excretion is solely caused by the abnormal sodium reabsorption capacity of the proximal tubule.

Renal hyper-responsiveness to blood volume expansion in Brattleboro rats is not related to plasma ANF immunoreactivity

1. Anaesthetized homozygous Brattleboro (DI) rats were used to study the renal response to iso-oncotic blood volume expansion. 2. With the same degree of hypervolaemia DI rats had exaggerated diuresis, natriuresis, and chloriuresis, but not kaliuresis, compared with heterozygous control rats. This increased excretion resulted in negative water balance by the end of the experiment in DI rats, whereas the controls showed restoration of normal balance. The control rats retained significant amounts of sodium and chloride, the Brattleboro rats, however, did not. 3. The lithium clearance method was used to localize the defect in sodium reabsorption. As judged from this method, there was a significantly lower sodium reabsorption in the proximal tubules as well as in the distal parts of the nephron of DI rats. 4. Plasma immunoreactivity of atrial natriuretic factor (ANF) was not different between groups before volume expansion. ANF levels rose and fell similarly in both groups during and after the iso-oncotic infusion. 5. Our results demonstrate that DI rats respond to acute hypervolaemia with an exaggerated diuresis and saluresis. The mechanism of the increased salt excretion may involve inhibition of sodium transport in the proximal tubules as well as in the distal parts of the nephron. These transport defects are not dependent on differing plasma ANF levels.

Evaluation of lithium clearance as a marker of proximal tubule sodium handling

Estimations of proximal tubule sodium reabsorption with the FELi method come closer to direct measurements than any other indirect method. There is little doubt that most lithium reabsorption takes place in the proximal tubules, very likely in proportion to the reabsorption of sodium and water. It is also likely that changes in proximal tubule sodium reabsorption due to changes in volume status are paralleled by changes in proximal tubule lithium reabsorption, at least in the superficial nephrons. Nonetheless, changes in FELi probably do not purely reflect changes in proximal reabsorption, since lithium is also handled beyond the proximal tubules. Acknowledged problems are lithium reabsorption in Henle's loop and in the late distal and collecting tubules. The latter occurs in the rat and the dog, but not or much less in men. Sodium restriction enhances this lithium transport considerably. It is as yet uncertain whether other conditions, such as increased vasopressin activity or lowering of renal perfusion pressure, also influence this transport. Amiloride appears to prevent this reabsorption of lithium. Therefore, this drug can be used in lithium clearance studies whenever unwanted "distal" lithium reabsorption is expected. Lithium reabsorption in Henle's loop forms a greater problem as it cannot be prevented by any drug without influencing proximal tubule reabsorption. It is estimated that about 7% of the filtered lithium (one-tenth of total lithium reabsorption) is normally taken up here, preferentially in deep nephrons. In view of studies with furosemide, this reabsorption probably varies with sodium intake, but the proportion of this variation to that of proximal tubule lithium reabsorption is obscure. This remains an uncertain factor in any circumstance where the lithium clearance method is used. In some conditions the change in FELi may be so large relative to the expected changes in proximal reabsorption, that use of FELi as marker of end-proximal solute delivery seems unjustified. Disproportionately large suppression is likely during mineralo-corticoid-induced volume expansion, and stimulation during prostaglandin synthesis inhibition and vasopressin. Based on observations in these conditions the potential range of lithium reabsorption in the loop of Henle would be 0 to 15% of filtered load. In this review attention was paid mainly to the validity of lithium clearance as a pure "proximal marker". Many of our interpretations suffer from incomplete certainty with respect to the renal effects of tested maneuvers, a problem which is acknowledged.(ABSTRACT TRUNCATED AT 400 WORDS)

The effects of cimetidine on creatinine excretion, glomerular filtration rate and tubular function in renal transplant recipients

The renal clearance of endogenous creatinine (CCr), sodium (CNa) and lithium (CLi) was determined before and after a single intravenous bolus of cimetidine in nine renal transplant recipients. The glomerular filtration rate (GFR) was measured with 125I-iothalamate clearance (CTh). The initial CCr of 65 ml/min (median) was reduced to a nadir of 46 ml/min (p less than 0.01) during the first 2 h after infusion of cimetidine. GFR remained unchanged, and thus the fractional clearance of creatinine (CCr/CTh) was reduced from 1.43 (median) to 1.03 (p less than 0.01). CNa and the fractional excretion of sodium decreased throughout the study (p less than 0.05); CLi was unchanged. In conclusion cimetidine, when measured during 1-h clearance periods, interferes with tubular creatinine secretion in the denervated kidney of transplant recipients without affecting the glomerular filtration rate or proximal tubular flow. This suggests that on-going cimetidine treatment must be taken into account when graft function is evaluated by the CCr alone.

Hyperresponsiveness to atrial natriuretic factor in adult Brattleboro rats

Renal and hemodynamic effects of an intravenous infusion of atrial natriuretic factor (ANF) (8 micrograms/h) were studied in homozygous Brattleboro rats, which lack endogenous vasopressin. Heterozygous rats were used as controls. ANF-induced increases in sodium, chloride and volume excretion were higher, whereas changes in potassium excretion were lower in homozygous, as compared to heterozygous rats. The initial decrease in arterial blood pressure after ANF infusion was greater in the homozygous group, whereas there were no differential effects on heart rate. Inulin clearance, as well as clearance and fractional excretion of lithium were not significantly different between groups. The results indicate that Brattleboro rats show an exaggerated diuretic as well as saluretic response to ANF. They suggest that these effects are localized in the distal nephron and may be due to the known anatomical abnormalities in juxtamedullary nephrons of Brattleboro rats.

Red-cell sodium-lithium countertransport and fractional excretion of lithium in normal and hypertensive humans

To examine the relations between erythrocyte sodium-lithium countertransport and renal proximal tubular sodium handling, we measured countertransport, and then subjected 30 normal and 32 hypertensive subjects, both white and black, to provocative maneuvers of volume expansion and contraction. The fractional excretions of sodium and lithium were measured simultaneously. In agreement with previous studies, we found that countertransport in erythrocytes was elevated in hypertensive patients compared with normal subjects. We also observed that whites have a higher level of countertransport than blacks. In the basal state, we found that fractional sodium excretion of hypertensive patients was no different than in normal subjects, whereas the fractional lithium excretion of hypertensive persons was increased compared with normotensive values. Volume expansion with 2 1 0.9% saline administered intravenously during a 4-hour period provoked an exaggerated natriuresis and a greater increase in fractional lithium clearance in hypertensive patients compared with the control group. With volume expansion and contraction, fractional lithium clearance and countertransport were directly correlated. Our data suggest that hypertensive persons do not have increased proximal tubular sodium reabsorption compared with normal subjects. Further, the exaggerated natriuresis of hypertension is, in part, the result of increased distal solute delivery. The fact that our hypertensive patients were older may partially explain the discrepancies between this report and previous observations.

Pathophysiology of increased urinary N-acetyl-beta-D-glucosaminidase activity in human hypertension: effect of cilazapril therapy

To investigate the pathophysiology of elevated urinary N-acetyl-beta-D-glucosaminidase (NAG) activity in human hypertension, total and fractional urinary NAG activities were correlated with Li clearance, a measure of proximal renal tubular Na reabsorption, in 15 white hypertensive subjects, aged 56 years, and in 13 normotensive control subjects. In 11 hypertensive subjects, the measurements were repeated after 2 months of antihypertensive therapy with the converting enzyme inhibitor cilazapril (2.5 or 5.0 mg daily). Urinary NAG activity was increased in hypertensives and correlated directly with Li clearance in both hypertensive and normotensive subjects. Li clearance and urinary NAG activity were reduced by antihypertensive therapy. The findings indicate an inverse correlation between urinary NAG activity and proximal renal tubular Na reabsorption, suggesting that NAG is reabsorbed in the proximal renal tubules with Na and other proteins. High Li clearance and urinary NAG activity in hypertension are in part functional and, therefore, reversible disturbances of renal function.

Clinical features and management of lithium poisoning

Lithium salts, in particular the carbonate and citrate, were formerly in widespread use, forming part of alkaline salt mixtures which were used for treatment of the many disorders belonging to the uric acid diathesis. Among these disorders were mania, depression, acute mania, acute melancholia and periodic depression. Satisfactory prophylactic effects on periodic depression were directly claimed. Daily doses of 3 to 26 mmol of lithium were recommended as standards. Only slight or moderate symptoms of poisoning were reported in a very few cases during the period in question (1860 to 1930), when the popularity of these lithium-containing prophylactic drugs with a favourable therapeutic index was at its peak. Lithium intoxication was not a serious clinical problem until 1949 when Cade introduced his fortuitously effective, but nevertheless high, dosage regimen which was continued until signs of recovery from mania appeared. For the maintenance dose, Cade in principle recommended, but seldom adhered to, 17 mmol/day. Chronic lithium intoxication starts insidiously with silent affliction of the kidneys followed by 'prodromal' symptoms, and when moderate severity has been reached, an accelerating renal vicious circle with decreasing kidney function is imminent. After this point the chronic intoxication resembles acute intoxication. Active detoxification at this, or an earlier stage, leaves the patient with a good chance of recovery. At a later stage, with the occurrence of oliguria, semi-coma or coma, and latent convulsive movement, recovery is less certain. There is no specific antidote for the toxic effects of lithium. Haemodialysis is the most effective treatment for acute lithium poisoning. For patients with impaired, or potentially impaired renal function, peritoneal dialysis may be an alternative, but less effective, treatment. Forced diuresis demands unimpaired renal function, and is little more effective than withdrawal of treatment, supplemented with correction of water and electrolyte balance. Sodium overloading is not recommended. Patients on lithium prophylaxis are treated on an outpatient basis. Prevention of intoxication depends on cooperation between patient and clinician, and possibly on the use of smaller, low risk dosages in most patients.

Prevalence, pathogenesis, and treatment of renal dysfunction associated with chronic lithium therapy

From the analysis of several studies published from 1979 to 1986 comprising 1,172 patients, we estimated that glomerular filtration rate (GFR) was normal in 85% of unselected patients on chronic lithium therapy. The remaining 15% of patients displayed only mild reduction in GFR, clustering at approximately 60 mL/min. Thus, the data available to date do not support earlier concerns that long-term lithium therapy could eventuate into renal insufficiency. The most prevalent renal effect of lithium is impairment of concentrating ability, which we estimated to be present in at least 54% of 1,105 unselected patients on chronic lithium therapy. This defect translated into overt polyuria in only 19% of unselected cases. A renal lesion confined to the collecting tubule has been described in humans who have taken lithium for short periods of time. This lesion may represent the collecting tubule's response to the intracellular accumulation of lithium, which interferes with cAMP formation and results in an early and probably reversible inhibition of antidiuretic hormone (ADH)-mediated water transport. However, long-term lithium therapy may induce a progressive and partly irreversible defect in concentrating ability. The potential risk for dehydration associated with lithium-induced polyuria, as well as the discomfort inherent to this side effect, deserves evaluation and consideration for therapeutic intervention. Amiloride has additional advantages over conventional treatment of nephrogenic diabetes insipidus using thiazide diuretics. The action of amiloride on ADH-mediated water transport seems specific in as much as it is capable of preventing the uptake of lithium in high resistance epithelia and thereby prevents the inhibitory effect of intracellular lithium on water transport. Unlike thiazides, amiloride has a weak natriuretic effect and is less likely to increase plasma lithium levels by causing volume contraction. In addition, amiloride, by conserving potassium, obviates the need for potassium supplementation that is usually required to prevent hypokalemia when thiazides are used to treat lithium-induced polyuria. Since amiloride may prevent chronic intracellular lithium accumulation in the collecting tubule, future studies should elucidate whether amiloride also has a role in preventing lithium-induced chronic tubulo-interstitial damage.

Adrenergic receptors and sodium reabsorption in normotensive subjects as related to salt sensitivity

We have studied proximal tubular sodium reabsorption as measured by lithium clearance, alpha-2 and beta-2 adrenergic receptors on circulating platelets and lymphocytes, respectively, and urinary aldosterone after variations of sodium intake in 24 normotensive volunteers. Fractional lithium clearance was 14.8% +/- 2.64 under a high salt diet of 200 mmol per day. After a low salt diet of 50 mmol/d for two weeks fractional lithium clearance did not change significantly (13.3% +/- 3.35). There were no correlations between alpha-2 adrenergic receptors, beta-2 adrenergic receptors or the alpha-2/beta-2 ratio and fractional lithium clearance, irrespective of the high or low salt diet. In contrast, a significant correlation was found between urinary aldosterone excretion and alpha-2 receptor densities under low salt diet (r = -0.55, n = 17, p less than 0.02). There were no correlations between beta-2 adrenoceptor density, alpha-2/beta-2 ratio and urinary aldosterone during high or low salt diet. Whereas our results are inconclusive about the value of lithium clearance determinations as a measure of proximal tubular sodium reabsorption during variations of sodium intake, we conclude, that alpha-adrenoceptor density, as measured on circulating blood cells, may possibly be representative for alpha-adrenergic equipment of the kidney. The inverse correlation between urinary aldosterone excretion in subjects equilibrated on a low salt diet of 50 mmol/d and alpha-2 adrenoceptor densities could be interpreted as an indirect evidence, that those subjects with a high alpha-2 adrenoceptor equipment show a high proximal tubular sodium reabsorption and thus can afford a low rate of aldosterone mediated distal tubular sodium reabsorption to maintain sodium balance. Our results are thus in accord with our previous hypothesis, that different receptor equipment of individual subjects may cause marked differences in sodium handling by the kidney. These differences may be responsible, at least in part, for the degree of salt sensitivity in individual subjects.

Effect of dietary sodium content on renal handling of lithium. Experiments in conscious diabetes insipidus rats

Previous studies have shown that the clearance of lithium (CLi) is a quantitative measure of the delivery of tubular fluid to Henle's loop in rats given food with an ordinary or high sodium content but not in rats given food with a low sodium content, because under these circumstances lithium is also reabsorbed to some extent in the distal nephron segment. The present study examines CLi, CNa and urine flow in diabetes insipidus rats at various dietary sodium contents. The results showed that CLi was 120 microliter/min/100 g b.w. when no distal reabsorption took place at a dietary sodium content of 300 mmol/kg. At a dietary sodium content of 5 mmol/kg the calculated distal lithium reabsorption reduced CLi by 55 microliter/min/100 g b.w.; at 25 mmol/kg distal reabsorption was reduced to half this value; at 50 mmol/kg distal reabsorption was slight and barely significant, and at 75-300 mmol/kg there was no distal reabsorption of lithium. It is concluded that CLi can be used as a quantitative measure of the delivery of tubular fluid to the loop of Henle at dietary sodium contents higher than 50-75 mmol/kg in the rat.

Effect of renal nerve activity on tubular sodium and water reabsorption in dog kidneys as determined by the lithium clearance method

The reliability of the lithium clearance method in studies of the effect of renal nerve activity upon tubular sodium and water handling in the dog kidney was investigated. Following unilateral acute surgical denervation of the kidney a significant increase in urinary flow rate (40 +/- 7%), sodium clearance (26 +/- 4%), lithium clearance (9 +/- 2%) and fractional lithium clearance (8 +/- 2%) was seen, as compared to the contralateral kidney with preserved innervation. Calculated absolute proximal reabsorption rate decreased significantly by 7 +/- 2%, while calculated absolute rates of distal reabsorption of sodium and water increased significantly by 9 +/- 2% and 8 +/- 2%. Low-frequency electrical stimulation of the distal nerve bundle of the denervated kidney caused a significant decrease in urine flow rate (37 +/- 6%), sodium clearance (31 +/- 4%), lithium clearance (17 +/- 5%) and in fractional lithium clearance (18 +/- 5%). Calculated absolute proximal reabsorption rate increased significantly by 17 +/- 3%, while calculated absolute rates of distal sodium and water reabsorption decreased significantly by 16 +/- 5% and 16 +/- 5%. These changes in tubular sodium and water reabsorption during alterations in renal nerve activity occurred without measurable changes in renal blood flow (RBF) and glomerular filtration rate (GFR). Administration of amiloride had no significant effect either on the lithium clearance, RBF or GFR, while the sodium excretion rate increased and potassium excretion rate decreased, supporting that significant distal lithium reabsorption did not occur under the present experimental conditions.(ABSTRACT TRUNCATED AT 250 WORDS)

Red-cell lithium-sodium countertransport and renal lithium clearance in hypertension

Red-cell lithium-sodium countertransport is increased in patients with essential hypertension. It has been proposed that sodium-hydrogen ion exchange in the brush border of the renal proximal tubules is analogous to red-cell countertransport. To investigate the rate of sodium reabsorption by the proximal renal tubules in hypertension, we measured lithium clearance (a measure of proximal tubular reabsorption of sodium), as well as red-cell countertransport, in 14 patients with untreated essential hypertension and in 31 controls. As a group, the hypertensive patients had a higher average (+/- SEM) rate of red-cell countertransport (0.378 +/- 0.030 mmol of lithium per liter of cells per hour, P less than 0.01) and a lower renal fractional lithium clearance (13.96 +/- 0.69 percent, P less than 0.01) than normotensive subjects (0.317 +/- 0.015 mmol of lithium per liter of cells per hour and 17.75 +/- 0.81 percent, respectively). Within the normotensive group, subjects with hypertension in at least one first-degree relative had significantly lower fractional lithium clearances than subjects with no hypertensive relatives (15.37 +/- 0.84 percent vs. 19.06 +/- 1.07 percent, P less than 0.05). We conclude that hypertensive patients have heightened proximal tubular reabsorption of sodium and that red-cell countertransport is a marker of the renal abnormality. Enhanced proximal tubular sodium reabsorption may precede the development of essential hypertension.

Effects of acute and short-time antibiotic treatment on renal lithium elimination and serum lithium levels in the rat

Male Wistar rats received a single stomach load (10 ml/kg) of a 150 mmol LiCl solution, either alone or together with tetracycline (33.5 mg/10 ml), ampicillin (33.5 mg/10 ml), or metronidazole (15 mg/10 ml). Urine was collected 1-5 hours after administration and blood samples were drawn after 1, 6, and 24 hours. All antibiotics caused a reduction in urinary lithium excretion but did not affect renal lithium clearance. Serum lithium levels were reduced by tetracycline and metronidazole 6 hours after administration but increased after 24 hours. Additional experiments including frequent mapping of serum lithium levels confirmed these findings. Tetracycline, also reduced renal sodium clearance and increased distal sodium reabsorption. Short-term daily treatment during one week with tetracycline or metronidazole showed that these initial changes were only transient, since after treatment for one week no differences could be observed between antibiotic-treated rats and control rats. The results indicate that antibiotics may cause a delay but no decrease of the gastrointestinal absorption of lithium and that they do not affect renal lithium clearance. Signs of lithium intoxication during combined use of lithium and antibiotics are therefore probably not caused by a renal interaction mechanism affecting the renal lithium clearance.

Amelioration of polyuria by amiloride in patients receiving long-term lithium therapy

Vasopressin-resistant diabetes insipidus is a common side effect of the treatment of affective disorders with lithium. We studied the effect of amiloride on lithium-induced polyuria in nine such patients receiving maintenance lithium therapy who had a vasopressin-resistant defect in urinary concentrating ability. After a mean (+/- S.E.) of 24 +/- 6 days of amiloride administration, the urine volume fell (from 4.7 +/- 0.6 to 3.1 +/- 0.3 liters per 24 hours; P less than 0.005), and the urine osmolality increased (from 228 +/- 35 to 331 +/- 34 mOsm per kilogram of H2O; P less than 0.001). The decrease in urine output was sustained during six months of observation in the absence of any significant change in plasma levels of lithium, potassium, or bicarbonate; urinary excretion of sodium or lithium; or creatinine clearance. Amiloride administration was also associated with a significant increase in urine osmolality (from 575 +/- 54 to 699 +/- 48 mOsm per kilogram of H2O; P less than 0.005) measured after fluid deprivation and the injection of exogenous vasopressin. We conclude that amiloride mitigates lithium-induced polyuria, at least partly, by blunting the inhibitory effect of lithium on water transport in the renal collecting tubule. Thus, amiloride may provide a specific therapy for polyuria in lithium-treated patients while obviating the need for potassium supplementation in the treatment of this kind of polyuria.

Renal lithium clearance as a measure of the delivery of water and sodium from the proximal tubule in humans

The delivery of tubular fluid from the proximal straight tubule to the thin descending limb of the loop of Henle was measured in nine volunteers by the lithium clearance method and by the water diuresis method. Lithium clearance and urine flow during water diuresis varied in proportion to each other with a high degree of correlation (r = 0.93, p less than 0.001). The proportionality between lithium clearance and urine flow was unaffected by variations in fractional sodium excretion. The results support the assumption that lithium clearance can be used as a measure of the delivery of tubular fluid from the proximal tubule in humans with sodium intakes within the normal range.

Lithium induced interstitial nephropathy associated with chronic renal failure. Reversibility and correlation between functional and structural changes

We have previously shown that administration of lithium to rats in the first weeks after birth results in a severe interstitial nephropathy. The aim of the present work was to study the relationship between functional impairment and structural lesions and to evaluate whether the nephropathy regresses after withdrawal of lithium. Three groups of animals were studied: 16 weeks-old controls (group A), rats treated with lithium for 16 weeks (group B) and rats treated for 8 weeks followed by 8 weeks without lithium (group C). Plasma urea and renal concentrating ability were determined and one kidney fixed by vascular perfusion with glutaraldehyde for light microscope morphometry. The results show a significant reduction in renal function after lithium treatment. There was a highly significant reduction in proximal tubular length and a pronounced increase in interstitial volume due to severe fibrosis. The total mass of glomerular tufts was also reduced, but not when this parameter was divided by the body weight. Sclerotic glomeruli were not observed. The structural and functional lithium-induced lesions are independent of sex and irreversible, since they persist 8 weeks after withdrawal of lithium. It is proposed that lithium-induced interstitial fibrosis is followed by proximal tubular atrophy with a reduction in the amount of functioning proximal tubules. This leads to a decrease in proximal tubular reabsorption of sodium and a disturbance in the glomerulo-tubular balance resulting in a decrease in glomerular filtration rate.

Glomerular filtration rate and PCO2 as determinants of lithium reabsorption

To examine whether lithium reabsorption varies in proportion to the bicarbonate-dependent reabsorption of water and chloride, reabsorption was altered by varying PCO2 and glomerular filtration rate (GFR) in volume-expanded, anesthetized dogs during ethacrynic acid infusion. At constant GFR and plasma bicarbonate concentration, lithium, bicarbonate, chloride and water reabsorption were inversely related to plasma pH during variations in PCO2. Lithium and bicarbonate reabsorption varied by 9 +/- 1% and chloride reabsorption by 7 +/- 1% as plasma pH was altered by 0.1 unit from plasma pH 7.5. Calculation of reabsorbate concentrations indicated that lithium was reabsorbed as readily as water (reflection coefficient = 0). During mechanical constriction of the suprarenal aorta, GFR was reduced at constant plasma pH. Bicarbonate reabsorption fell more than chloride, water and lithium reabsorption. Lithium reabsorption was not significantly reduced until GFR was reduced by 35%. In stop-flow studies during ouabain infusion, urinary lithium concentrations were reduced below plasma concentrations. This is compatible with passive diffusion of lithium along a lumen-positive potential exceeding 10 mV in the diluting segment. Thus, lithium reabsorption behaved as expected for bicarbonate-dependent paracellular reabsorption during variations in PCO2; when GFR is reduced, an additional component of lithium reabsorption is disclosed.

Renal function related changes in lithium kinetics

The renal clearance of lithium will decrease, and hence the risk of acute lithium toxicity will increase, in any situation leading to dehydration and sodium depletion. Patients on long term lithium therapy with progressively declining urinary concentrating ability may be at special risk in this regard. Chronic histological changes in the kidney attributed to lithium therapy correlate with age rather than with the duration of lithium therapy. Age-related renal histological changes are associated with decreased glomerular filtration rate and therefore reduced renal lithium clearance. Thus, the dose of lithium should be reduced with advancing age.

Evidence for bicarbonate-dependent lithium reabsorption in dog kidneys

To examine whether lithium is reabsorbed along a transcellular or a paracellular route, experiments were performed in anesthetized volume-expanded dogs under conditions of constant glomerular filtration rate (GFR). Quabain, in doses inhibiting about 80% of Na, K-ATPase, and ethacrynic acid, another inhibitor of transcellular NaCl reabsorption, did not inhibit lithium or bicarbonate reabsorption. Lithium reabsorption increased in proportion to plasma concentration of lithium (PLi) up to 12 mM, suggesting a passive transport of lithium. During ouabain administration acetazolamide halved bicarbonate reabsorption, the main driving force for paracellular reabsorption, and halved the reabsorption of lithium. The reabsorbate concentration of lithium, calculated from data obtained before and after acetazolamide infusion, was almost equal to PLi. Mannitol, which reduces paracellular osmotic transport without affecting bicarbonate reabsorption, reduced lithium and chloride reabsorption in the same proportion as acetazolamide (r = 0.87). Combined acetazolamide and mannitol administration reduced fractional lithium reabsorption to 0.09 +/- 0.02. These data indicate that lithium is not actively transported but reabsorbed passively along a paracellular route by osmotic forces provided by transcellular NaHCO3 reabsorption.

A comparison of micropuncture and lithium clearance methods in the assessment of renal tubular function in rats with diabetes insipidus

The lithium clearance technique has been proposed as a non-invasive method whereby fluid delivery from the pars recta and pars convoluta of proximal tubules can be measured as CLi and CIN [0.78 CLi/CIN + 0.22], respectively [12], CLi being the clearance of lithium and CIN that of inulin. In the present study, fluid delivery from proximal tubules was estimated simultaneously by micropuncture and lithium clearance techniques in anaesthetized Brattleboro rats with diabetes insipidus, under control conditions and following chronic treatment with hydrochlorothiazide. Absolute deliveries from the proximal convoluted tubules as determined by the micropuncture and lithium clearance methods were 437 and 427 microliter/min, respectively, in untreated animals and 348 and 355 microliter/min, respectively, in thiazide-treated animals. The individual results obtained by the two methods showed a high degree of correlation (r = 0.85, P less than 0.001). In untreated Brattleboro rats, proximal fluid delivery as estimated by both the micropuncture and lithium clearance techniques showed significant (P less than 0.001) correlations with urine flow rate. These results provide further evidence for the acceptance of lithium clearance as a valid estimate of proximal tubular fluid delivery.

Lithium-induced uremia in rats - a new model of chronic renal failure

Three groups of new-born rats were studied: Group Li/Li treated with Li for 16 weeks, group Li/C treated for 8 weeks followed by 8 weeks without Li, and Group C/C 16 weeks old controls. Both Li-treated groups showed severe reduction of renal function, particularly group Li/Li, where the mean GFR was reduced by 80%. Plasma urea, creatinine, and osmolality were increased, blood hemoglobin and hematocrit were reduced, whereas plasma Na, K, and standard bicarbonate were unchanged. Na clearance was maintained and fractional Na excretion thus increased. Fractional Li excretion was also increased, indicating inhibition of proximal tubular salt and water reabsorption. Renal concentrating ability was markedly reduced. When Li was withdrawn, plasma urea levels remained unchanged or continued to rise, and the concentrating defect persisted. The results demonstrate that Li administration to new-born rats causes irreversible chronic renal failure which may progress even in the absence of Li. This model of chronic renal failure has several characteristics in common with chronic renal failure in humans.

Lithium treatment regimen and renal water handling: the significance of dosage pattern and tablet type examined through comparison of results from two clinics with different treatment regimens

For many year two Danish psychiatric hospitals having used different lithium treatment regimens. In one, slow-release tablets were given in two daily doses and, in the other conventional tablets were given in a single daily dose. In both hospitals many patients developed polyuria. Multiple regression analyses with sex, age, treatment duration, serum lithium concentration, and treatment regimen as predictor variables showed that the two treatment regimens did not affect the glomerular filtration rate or the proximal reabsorption differently, but that distal water reabsorption was significantly less affected and polyuria less pronounced in the patients given conventional tablets once daily than in those give slow-release tablets twice daily. The authors are divided among themselves as regards the implications of these findings.

Dependence of water movement on sodium transport in kidney proximal tubule: a microperfusion study substituting lithium for sodium

The relationship between water and sodium movements through the mammalian proximal convoluted tubule was investigated by substituting lithium for sodium. Proximal convoluted rat Kidney tubules were perfused in vivo with a Ringer solution containing 107 meq/liter lithium and 42 meq/liter sodium. Several micropunctures were made along the same nephron, and [3H] inulin, [14C] glucose, 22Na, osmolality, Na, Mg and Cl were determined on each sample. Measurements of 22Na showed that sodium and lithium diffusion rates were practically identical throughout the entire epithelium. A one- for-one exchange of sodium for lithium induced a negative transepithelial net flux of Na from plasma to lumen. However, despite this negative flux, a positive net water movement was measured from lumen to plasma. This movement was proportional both to glucose reabsorption and to the rise in the chloride concentration, two mechanisms known to be dependent on the transcellular movement of sodium. It was therefore concluded that the net water flux was a function of the unidirectional transcellular net flux of Na. Rabbit proximal convoluted tubules were perfused in vitro with solution containing 75 meq/liter Li and 75 meq/liter Na on both the luminal and peritubular sides. Under these conditions, the water reabsorption rate dropped to half its control value. Water movement was therefore a function of the external sodium concentration, which in turn probably regulates the intracellular Na concentration.