Objectives To assess and compare the effects of candesartan or lisinopril, or both, on blood pressure and urinary albumin excretion in patients with microalbuminuria, hypertension, and type 2 diabetes. Design Prospective, randomised, parallel group, double blind study with four week placebo run in period and 12 weeks' monotherapy with candesartan or lisinopril followed by 12 weeks' monotherapy or combination treatment. Setting Tertiary hospitals and primary care centres in four countries (37 centres). Participants 199 patients aged 30-75 years. Interventions Candesartan 16 mg once daily, lisinopril 20 mg once daily. Main outcome measures Blood pressure and urinary albumin:creatinine ratio. Results At 12 weeks mean (95% confidence interval) reductions in diastolic blood pressure were 9.5 mm Hg (7.7 mm Hg to 11.2 mm Hg, P < 0.001) and 9.7 mm Hg (7.9 mm Hg to 11.5 mm Hg, P < 0.001), respectively, and in urinary albumin:creatinine ratio were 30% (15% to 42%, P < 0.001) and 46% (35% to 56%, P < 0.001) for candesartan and lisinopril, respectively. At 24 weeks the mean reduction in diastolic blood pressure with combination treatment (16.3 mm Hg, 13.6 mm Hg to 18.9 mm Hg, P < 0.001) was significantly greater than that with candesartan (10.4 mm Hg, 7.7 mm Hg to 13.1 mm Hg, P < 0.001) or lisinopril (mean 10.7 mm Hg, 8.0 mm Hg to 13.5 mm Hg, P < 0.001). Furthermore, the reduction in urinary albumin:creatinine ratio with combination treatment (50%, 36% to 61%, P < 0.001) was greater than with candesartan (24%, 0% to 43%, P = 0.05) and lisinopril (39%, 20% to 54%, P < 0.001). All treatments were generally well tolerated. Conclusion Candesartan 16 mg once daily is as effective as lisinopril 20 mg once daily in reducing blood pressure and microalbuminuria in hypertensive patients with type 2 diabetes. Combination treatment is well tolerated and more effective in reducing blood pressure.
S U M M A R Y1. Evidence of deficiency of, antagonism to, or abnormal dependency upon pyridoxine has been sought in four patients with primary hyperoxaluria. The urinary excretion of kynurenine, 3-hydroxykyurenineY 3-hydroxyanthranilic acid, kynurenic acid and xanthurenic acid, before and after a loading dose of L-tryptophan was used to assess pyridoxine nutrition.2. Three of the four patients studied had abnormal L-tryptophan metabolite excretion patterns, but these were not of the type which is associated with abnormalities of pyridoxine nutrition.3. The changes which were observed are compatible with impaired conversion of kynurenine to 3-hydroxykynurenine by the NADH, dependent kynurenine 3-hydroxylase (EC 1.99.1.5) enzyme system. 4. Large doses of pyridoxine hydrochloride reduced the urinary oxalate excretion by two of the patients to levels which were intermediate between the normal range and the pre-treatment values. This effect was maintained for 6 months, which was the longest period of observation. 5.It is concluded that this action of pyridoxine is mediated by a mechanism which does not involve the correction of an abnormality of pyridoxine metabolism.Primary hyperoxaluria, in which calcium oxalate urolithiasis is accompanied by an elevated urinary oxalate excretion, accounts for only a small proportion of patients with calcium oxalate urinary stones. The urinary oxalate excretion is increased in severe experimentally induced pyridoxine deficiency in man (Faber et al., 1963) as well asin animals (Gershoff et al., 1959a; Andrus, Gershoff k Faragella, 1959), andGershoff, Mayer &Kulczycki (1959b) reported that pyridoxine reduced the urinary oxalate excretion of a group of institutionalized mental defectives who were not taking a pyridoxine deficient diet.Mayer et al. (1968) implicated pyridoxine deficiency as a factor in the causation of calcium
We have measured the plasma oxalate concentration (POx), urinary oxalate excretion (UOx), oxalate equilibrium distribution volume (ODV), oxalate metabolic pool size [(ODV) X (POx)], total plasma oxalate clearance (PCOx), renal (or dialyser) oxalate clearance (RCOx), non-renal oxalate clearance (NRCOx) and the tissue oxalate accretion rate (TOA) = [(NRCOx) X (POx)] in three patients with severe renal failure due to primary hyperoxaluria who were being treated by peritoneal dialysis or haemodialysis, or by renal transplantation. The clearance (either GFR or dialyser) of [99mTc]diethylenetriaminepenta-acetate (DTPA) and the extracellular fluid volume (ECF) measured as [99mTc]DTPA distribution volume were also determined. Negligible amounts of 14C were found in faeces or as 14CO2 in expired air and hence (NRCOx) = (PCOx-RCOx). Haemodialysis removed oxalate more efficiently than peritoneal dialysis in the patient where a direct comparison was possible. Neither treatment could keep up with the TOA when performed for clinically acceptable times. The plasma oxalate concentrations calculated from 14C clearance through the dialyser and the chemically determined concentration of the oxalate in the dialysate were in the range 111-146 mumol/l. This is higher than in normals and in hyperoxaluric patients who are not in renal failure. Hence, although the ODV and ECF are similar to those of hyperoxaluric patients without renal failure and normal control subjects, the oxalate metabolic pool (ODV X POx) is grossly enlarged. In the patient treated by renal transplantation, the oxalate pool size diminished concurrently with the resumption of oxalate excretion but expanded again as renal function decreased due to oxalosis.(ABSTRACT TRUNCATED AT 250 WORDS)
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