Big Chemical Encyclopedia

Chemical substances, components, reactions, process design ...

Articles Figures Tables About

Lead nephropathy acute

Renal Effects. The characteristics of early or acute lead-induced nephropathy in humans include nuclear inclusion bodies, mitochondrial changes, and cytomegaly of the proximal tubular epithelial cells dysfunction of the proximal tubules (Fanconi s syndrome) manifested as aminoaciduria, glucosuria, and phosphaturia with hypophosphatemia and increased sodium and decreased uric acid excretion. These effects appear to be reversible. Characteristics of chronic lead nephropathy include progressive interstitial fibrosis, dilation of tubules and atrophy or hyperplasia of the tubular epithelial cells, and few or no nuclear inclusion bodies, reduction in glomerular filtration rate, and azotemia. These effects are irreversible. The acute form is reported in lead-intoxicated children, whose primary exposure is via the oral route, and sometimes in lead workers. The chronic form is reported mainly in lead workers, whose primary exposure is via inhalation. Animal studies provide evidence of nephropathy similar to that which occurs in humans, particularly the acute form (see Section 2.2.3.2). [Pg.64]

Chronic high-dose lead exposure, usually associated with months to years of blood lead concentrations in excess of 80 g/dL, may result in renal interstitial fibrosis and nephrosclerosis. Lead nephropathy may have a latency period of years. Lead may alter uric acid excretion by the kidney, resulting in recurrent bouts of gouty arthritis ("saturnine gout"). Acute high-dose lead exposure sometimes produces transient azotemia, possibly as a consequence of intrarenal vasoconstriction. [Pg.1381]

Arsine poisoning can lead to acute renal tubular necrosis and ultimately to oliguric/anuric renal failure (Rogge et al, 1983). Renal failure can be attributed to (1) direct effect of arsine on renal tissue, (2) heme-pigment nephropathy, or... [Pg.110]

In children with lead encephalopathy, proximal tubule reabsorptive defects characterized by the Fanconi syndrome have been observed [13]. The Fanconi syndrome appears when blood lead levels approach 150 //g/ dL. It is rapidly reversed by chelation therapy designed to treat the far more dangerous lead encephalopathy. The proximal tubule reabsorptive defect can regularly be induced experimentally in rats fed dietary lead [14]. In both children and experimental animals, acute lead nephropathy is consistently associated with acid-fast intranuclear inclusions in proximal tubule... [Pg.775]

Chronic lead nephropathy from moonshine came to medical attention because of the dramatic symptoms of acute lead poisoning. Lead colic and anemia were... [Pg.776]

The functional changes in chronic lead nephropathy appear to be less specific than those observed in acute poisoning. As in other forms of interstitial nephritis, proteinuria and glycosuria are initially absent. In contrast to cadmium nephropathy, the excretion of a large array of urinary marker proteins such as retinal binding protein, lysozyme, and iriicroglobulin [33, 34] is not increased in the absence of a reduced GFR. [Pg.777]

The increase in urinary N-acetyl- -D-glucosamini-dase (NAG) with increasing blood lead concentrations reflects the proximal tubule dysfunction seen in acute lead nephropathy rather than the chronic interstitial nephritis associated with occupational lead exposure [35, 36]. NAG excretion correlates positively with the blood lead concentration but not with the bone lead concentration [37]. Eicosanoid excretion in lead workers is similar to that in patients with essential... [Pg.777]

In contrast to the reabsorptive defect of acute lead nephropathy, saturnine gout is characterized by renal retention of uric acid [18]. The clearance (Cp ) and maximal secretion rate (Tmp ) for p-aminohippurate (PAH) have been found to be variable in patients with occupational lead nephropathy. [Pg.777]

Lead nephropathy is important because it is one of the few renal diseases that is preventable. Moreover, lead-induced acute renal dysfunction can sometimes be reversed by chelation therapy [19, 28, 63]. The salutary effect of chelation therapy appears to be on the acute reduction in GFR and the acute elevation of blood pressure associated with elevated blood lead concentration rather than on the long-term effects of cumulative exposure associated with endothelial dysfunction, hypertension, and interstitial nephritis. There is no evidence that such therapy reverses established interstitial nephritis. The partial remission achieved among moonshiners and lead workers appears to represent reversal of the physiologic effects of acute poisoning superimposed on chronic lead nephropathy. No improvement in renal function has been observed once advanced interstitial nephritis is present and the steady-state serum creatinine concentration exceeds about 3 mg/ dL [64]. [Pg.780]

Clinically, lead nephropathy is seen as either reversible tubular dysfunction or as an irreversible interstitial nephropathy. Tubular toxicity occurs most commonly in children following acute exposure and is characterized by glucosuria, phosphaturia, aminoaciduria, and occasionally proteinuria. One unique morphological feature of lead exposure is the formation of nuclear inclusion bodies within renal tubular cells. These bodies are complexes between lead... [Pg.1492]

Chronic exposure to low levels of lead results in lead accumulation within the body. Workers who have been chronically exposed to lead develop interstitial fibrosis, vascular and glomerular sclerosis, and tubular atrophy and/or hypertrophy. Although acute lead nephropathy is reversible with chelator therapy and/or removal from exposure, chronic effects may be irreversible. In addition, chronic exposure to lead may result in a gouty nephropathy as lead reduces uric acid excretion and elevates blood uric acid levels. [Pg.1493]

Although chelation therapy effectively reverses acute lead nephropathy and the preclinical renal dysfunction of occupational lead nephropathy, there is no evidence that such therapy reverses established interstitial nephritis due to lead. The partial remissions achieved among moonshiners and symptomatic lead workers may represent reversal of acute poisoning superimposed on chronic lead nephropathy. No improvement in renal function can be expected once ad-... [Pg.503]

More recent evidence in the occupational and environmental health literature identifies two general forms of nephropathological and nephrotoxicolo-gical responses to lead in lead workers and others. Acute nephrotoxic effects of lead present clinically and functionally with a different array of signs and symptoms than the chronic lead nephropathy syndrome, as discussed below. [Pg.567]

Unlike the neurotoxicological, developmental, and other toxic effects of lead, chronic lead nephropathy was historically viewed as a disease of adults, particularly lead workers, and children were generally considered to be at low risk. The exception to this view was kidney tubular injury in early, acute childhood Pb poisoning in the form of Fanconi Syndrome. [Pg.569]

A study of 55 adolescents who had been treated for lead intoxication in early childhood (11-17 years earlier) revealed no evidence of chronic nephropathy, as evidenced by endogenous creatinine clearance, BUN, serum uric acid, and routine urinalysis (Chisolm et al. 1976). PbB levels during the acute poisoning episode ranged from 100 to 650 pg/dL all patients received immediate chelation therapy. At the time of the study, their PbB levels had decreased to less than 40 pg/dL. [Pg.72]

The answer is c. (Hardman, pp 649—650.) Acute hyperuricemia, which often occurs in patients who are treated with cytotoxic drugs for neoplasic disorders, can lead to the deposition of urate crystals in the kidneys and their collecting ducts. This can produce partial or complete obstruction of the collecting ducts, renal pelvis, or ureter. Allopurinol and its primary metabolite, alloxanthine, are inhibitors of xanthine oxidase, an enzyme that catalyzes the oxidation of hypo xanthine and xanthine to uric acid. The use of allopurinol in patients at risk can markedly reduce the likelihood that they will develop acute uric acid nephropathy. [Pg.216]

Acute exposure to inorganic lead can cause reversible damage to the kidneys, manifested as tubular dysfunction. Chronic exposure to lead, however, causes permanent interstitial nephropathy, which involves tubular cell atrophy, pathological changes in the vasculature, and fibrosis. The most pronounced changes occur in the proximal tubules. Indeed, lead-protein complexes are seen as inclusion bodies in tubular cells, and the mitochondria in such cells have been shown to be altered with impaired oxidative phosphorylation. Clearly, this will influence the function of the proximal tubular cells in reabsorption and secretion of solutes and metabolites. Consequently, one indication of renal dysfunction is amino aciduria, glycosuria, and impairment of sodium reabsorption. [Pg.391]

See other pages where Lead nephropathy acute is mentioned: [Pg.570]    [Pg.570]    [Pg.1229]    [Pg.201]    [Pg.187]    [Pg.188]    [Pg.567]    [Pg.569]    [Pg.590]    [Pg.773]    [Pg.773]    [Pg.775]    [Pg.775]    [Pg.776]    [Pg.871]    [Pg.495]    [Pg.497]    [Pg.497]    [Pg.501]    [Pg.502]    [Pg.570]    [Pg.286]    [Pg.318]   
See also in sourсe #XX -- [ Pg.775 ]

See also in sourсe #XX -- [ Pg.497 ]



SEARCH



Lead nephropathy

Nephropathy

© 2024 chempedia.info