Julie Bleier scite author profile

Hepatic-Aid is purported to ameliorate encephalopathy and promote positive nitrogen balance in protein-intolerant, cirrhotic patients by correcting their imbalanced amino acid profile. This study evaluated Hepatic-Acid by comparing a 50-g Casein diet with an identical diet with 20-g Casein/30-g Hepatic-Aid per day in a cross-over study. Four patients with biopsy-proven stable cirrhosis, encephalopathy, and under-nutrition were studied. Each study period included three days of equilibration and eight days of metabolic balance, with the following measured at baseline and on balance days 5 and 8: routine biochemistry, fasting ammonia, psychometric tests, EEG, and plasma amino acid profiles. There was no significant change in clinical status, routine biochemistry, fasting ammonia, psychometrics or EEG between the two study periods. Mean (+/-SD) nitrogen balance on the Casein diet at 1.5 +/- 1.5 g/day was not significantly different from that on the Hepatic-Aid diet at 1.5 +/- 1.2 g/day. Plasma amino acid profiles showed a significant fall (p less than 0.05) in fasting and intraprandial tyrosine (tyr) and phenylalanine (phe) on Hepatic-Aid, but only intraprandial leucine (leu), isoleucine (ile), and valine (val) were significantly increased (p less than 0.05) on Hepatic-Aid. The ratio leu + ile + val to tyr + phe was significantly increased (p less than 0.05) on Hepatic-Aid. It is concluded that Hepatic-Aid, as given in this study, maintains N balance similar to Casein, alters the amino acid profile towards normal, but does not ameliorate encephalopathy.

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Hypocitraturia in Calcium Nephrolithiasis*

Rudman

Kunter

Redd

et al. 1982

The Journal of Clinical Endocrinology & Metabolism

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Several investigators have reported that hypocitraturia is frequent in patients with idiopathic kidney stones. In these studies, however, glomerular filtration rate, urinary tract infection, sex, diet, time of day, and medications, all potentially influential variables, were uncontrolled. Fifteen men, aged 30-52 yr, with recurrent idiopathic calcium oxalate stones and 15 normal age-matched men were studied. Patients with hyperparathyroidism, renal tubular acidosis, reduced creatinine clearance (less than 80 ml . min/1.73 M2), or urinary infection were excluded. Medications were stopped 2 weeks before the study began. A standard constant diet, furnishing 800 mg calcium and free of citrate, was fed for 20 days. During the last 10 days, 4.5 g sodium citrate were given orally. Eight-hour collections of urine were analyzed for calcium and citrate. Filtered load and net tubular reabsorption of citrate were also calculated. The 24-h urinary excretion of calcium was elevated in eight stone formers, and citrate excretion was depressed in seven. Five patients were both hypercalciuric anc hypocitraturic. The hypocitraturia resulted from excessive net tubular reabsorption of a normal filtered load of citrate. Urinary citrate was highest between 0800-1600 h, whereas calcium was highest between 1600-2400 h; both components were lowest between 2400-0800 h. The diurnal profiles of urinary calcium and citrate were similar in the stone formers and in the normal men. Oral sodium citrate did not influence urinary citrate in either group. These data suggest that in adult men, hypocitraturia may be a common predisposing factor for calcific nephrolithiasis.

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Deficiencies of essential and conditionally essential nutrients

Chipponi¹,

Bleier²,

Santi³

et al. 1982

The American Journal of Clinical Nutrition

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The Loss of Renal Enzymes

Affarah

Chawla

Bleier

et al. 1985

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Julie Bleier

Comparison of the Effects of Hepatic-Aid and a Casein Modular Diet on Enceph-alopathy, Plasma Amino Acids, and Nitrogen Balance in Cirrhotic Patients

Hypocitraturia in Calcium Nephrolithiasis*

Deficiencies of essential and conditionally essential nutrients

The Loss of Renal Enzymes

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