E Cecchin scite author profile

The response of intraocular pressure (IOP) to hemodialysis was investigated in 55 patients with end-stage kidney disease enrolled in a chronic dialysis program. The mean level of IOP, measured by the Goldman applanation tonometer, before dialysis was slightly lower than that of a control group of 50 healthy subjects (14.9 +/- 2 mm Hg vs 15.6 +/- 1.9 mm Hg. p = .07). During dialysis IOP underwent an excessive rise (7.8 to 12.5 mm Hg) in 10 patients (group 1), remained unchanged (variations below 2 mm Hg) in 41 patients (group 2), and decreased (3.1 to 5.1 mm Hg) in 4 patients (group 3). In group 1 patients, gonioscopy showed a narrow angle between iris and lateral cornea. Conversely, the anterior chamber angle was normal in patients of groups 2 and 3. The effect of a 7-day course of acetazolamide therapy (500 mg per day orally) on IOP was investigated in group 1 patients. Acetazolamide was capable of preventing the excessive IOP rise during dialysis. The mean reduction of such a dialytic rise was 8.1 mm Hg. However, despite this effect, in these patients the IOP level after dialysis still remained significantly higher than that of patients of group 2 (18.1 +/- 1 mm Hg vs 14.9 +/- 0.8 mm Hg. p less than .0001). Acetazolamide therapy precipitated in all patients a severe metabolic acidosis (blood pH fell from 7.38 +/- 0.02 to 7.24 +/- 0.03, p less than .0001; and bicarbonate concentration from 21 +/- 2.5 mmol/liter to 12.3 +/- 2.4 mmol/liter, p less than .0001).(ABSTRACT TRUNCATED AT 250 WORDS)

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Alcohol misuse and renal damage

Cecchin¹,

Marchi²

1996

Addiction Biology

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Recent clinical and experimental studies have demonstrated that the habitual consumption of large amounts of ethanol has deleterious effects on the kidney. A variety of tubular defects have been described in patients with chronic alcoholism. Evidence is emerging that tubular dysfunction has an important pathophysiological role in a wide range of electrolyte and acid-base disturbances commonly observed in these patients, and possibly in alcohol-induced bone disease. These renal abnormalities are often reversible, disappearing with abstinence. However, since 1990 a few cases of a syndrome of acute tubular necrosis due to binge drinking of ethanol in the absence of other evident nephrotoxic mechanisms, or in association with the use of nonsteroidal anti-inflammatory drugs, have been reported. A link between glomerulonephritis and alcoholism has become evident. IgA nephropathy has been demonstrated at autopsy in 64% of chronic alcoholics and, more recently, the association between alcoholism and postinfectious glomerulonephritis has been described. Structural and functional abnormalities of the kidney are reported with increasing frequency in the fetal alcohol syndrome seen in children who have been prenatally exposed to ethanol. In addition, over the last few years experimental studies in vitro or in animal models have provided information about the biochemical and molecular basis of alcohol-induced injury to kidney. It is hoped that future experimental and clinical research will provide us with a more comprehensive knowledge of the mechanisms of renal damage in alcohol misuse.

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Intraocular Pressure and Hemodialysis

Cecchin¹,

Marchi

Tesio³

1986

Nephron

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Close Genetic Linkage between HLA and Renal Glycosuria

Marchi

Cecchin²,

Basile

et al. 1984

Am J Nephrol

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Renal glycosuria is an inherited disorder of renal tubule function in which significant amounts of glucose are excreted in the urine in the simultaneous presence of normal blood glucose levels. Renal glucose titration analyses and HLA genotypes were performed in 5 unrelated affected families with a total of 25 patients and 40 healthy relatives. In each family the gene responsible for renal glycosuria segregates with the HLA complex suggesting a close genetic linkage. 2 cases carry intra-HLA recombinant haplotypes; in these subjects our findings indicate that the abnormal gene is closer to the HLA-A locus than the HLA-B locus. No HLA-A, HLA-B or HLA-C specific antigen is selectively increased among the 5 unrelated families affected with renal glycosuria.

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Origin of Glycosylated Hemoglobin Al in Chronic Renal Failure

Marchi

Cecchin²,

Camurri³

et al. 1983

Int J Artif Organs

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In chronic renal failure both HbAI and HbAlc levels have been reported to be elevated. In order to investigate the causes of such increase we measured HbAI (cation-exchange chromatography), blood urea nitrogen, arterial blood pH, plasma bicarbonate, phosphatemia, serum iron and serum ferritin before dialysis in 60 uremic patients receiving long term hemodialysis. The increased levels of HbAI do not correlate with glucose intolerance, phosphatemia, blood urea nitrogen, time averaged concentration of urea, serum iron and serum ferritin. On the contrary the presence of a highly significant correlation between HbAI and arterial blood pH (p < 0.001) and between HbAI and plasma bicarbonate (p < 0.001) seems to emphasize a major role for acidosis in increasing the HbAI levels in uremic patients on long term hemodialysis.

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Severe metabolic acidosis and disturbances of calcium metabolism induced by acetazolamide in patients on haemodialysis

Marchi

Cecchin

1990

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1. To investigate mechanisms of extrarenal buffering in uraemic acidosis, we studied the effects of the carbonic anhydrase inhibitor, acetazolamide, in normal subjects and in patients with end-stage kidney disease on maintenance haemodialysis with virtually no urine output. 2. Acetazolamide (500 mg) was administered daily for 7 days, after pretreatment for 1 month with 1,25-dihydroxyvitamin D (n = 12) or placebo (n = 12); only placebo was administered to a third group (n = 12) of haemodialysis patients. In addition, acetazolamide was administered to normal control subjects (n = 12). 3. Treatment with acetazolamide resulted in a more marked metabolic acidosis in haemodialysis patients than in normal control subjects and the effect in haemodialysis patients was attenuated by prior treatment with 1,25-dihydroxyvitamin D. 4. The administration of acetazolamide to haemodialysis patients led to an increase in serum inorganic phosphorus, bone isoenzyme of alkaline phosphatase and parathyroid hormone, and a reduction in serum calcium, whereas acetazolamide had no effect on these variables in normal subjects. In contrast, in the haemodialysis patients previously treated with 1,25-dihydroxyvitamin D, acetazolamide increased serum inorganic phosphorus, bone isoenzyme of alkaline phosphatase, parathyroid hormone and serum calcium. 5. We hypothesize that the metabolic acidosis induced by acetazolamide in haemodialysis patients may result from interference with the mechanisms of extrarenal buffering. 6. As parathyroid hormone, 1,25-dihydroxyvitamin D and carbonic anhydrase are thought to be involved in bone buffering, we suggest that the marked acidosis seen in haemodialysis patients treated with acetazolamide may be due to impaired parathyroid hormone-mediated bone buffering.

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E Cecchin

Renal Tubular Dysfunction in Chronic Alcohol Abuse -- Effects of Abstinence

Relief of Pruritus and Decreases in Plasma Histamine Concentrations during Erythropoietin Therapy in Patients with Uremia

Intraocular Pressure Changes During Hemodialysis: Prevention of Excessive Dialytic Rise and Development of Severe Metabolic Acidosis Following Acetazolamide Therapy

Alcohol misuse and renal damage

Intraocular Pressure and Hemodialysis

Close Genetic Linkage between HLA and Renal Glycosuria

Origin of Glycosylated Hemoglobin Al in Chronic Renal Failure

Severe metabolic acidosis and disturbances of calcium metabolism induced by acetazolamide in patients on haemodialysis

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