Preponderance of hypokalaemia as a cause of acute onset quadriparesis in northern India/southern Nepal.

Of 68 patients who were admitted with acute quadriparesis to a hospital in northern India, over 70% were found to be hypokalaemic. The most common cause of hypokalaemia was that associated with gastroenteritis (54%). These patients had all received intravenous fluids previously. It is likely that their hypokalaemia was caused by gastrointestinal loss compounded by parenteral fluid replacement. The next most common group of hypokalaemia-associated quadriparesis had no obvious cause for hypokalaemia (38%). Hypokalaemia-induced quadriparesis is a potentially life-threatening illness which can be readily treated with potassium supplements. The physician should consider hypokalaemia in patients who present with acute onset quadriparesis, and even if diagnostic tests for hypokalaemia are not available, should consider a judicious trial of potassium supplementation empirically, provided that there are no contraindications.

Fetal sex determination in infants in Punjab, India: correlations and implications.

OBJECTIVES: To determine the proportion of children whose sex was determined prenatally among those attending one Indian hospital and to identify factors which affect use of fetal sex determination. DESIGN: Cross sectional study using interviews with mothers. SETTING: Medical school hospital in Punjab, India. SUBJECTS: 596 children delivered or seen for inpatient or outpatient care. MAIN OUTCOME MEASURES: Fetal sex determination, sex of child, number and sex of siblings, type of care received, socioeconomic status, and maternal education. RESULTS: Sex had been determined prenatally for fewer girls (5/236, 2%) than boys (49/360, 14%). Fetal sex determination had been done for only 2% (3/154) of first born boys compared with 18% (12/66) with one older sister and no older brother and 63% (30/48) with more than one older sister and no older brother. Only four boys whose sex had been determined prenatally had older brothers. The five girls whose sex had been determined prenatally either had a male twin or were incorrectly identified as male. Prenatal sex determination had been done for 21% (26/122) of boys admitted for inpatient care compared with 11% (19/173) seen as outpatients. Use of fetal sex determination increased with increasing monthly income (chi2 for trend = 6.384, P = 0.0115). None of the mothers who had had no education had used fetal sex determination, but among mothers with some education the frequency of use did not change with increasing education. The sex ratio of children born at the hospital rose from 107 boys/100 girls in 1982 to 132 boys/100 girls in 1993. CONCLUSIONS: Fetal sex determination was common, especially if the family already had daughters. Sex determination seems to be driven by a desire to have sons, with socioeconomic status and education having little effect. The lower prevalence of fetal sex determinations for girls is likely to be due to abortion of fetuses found to be female.

PIP: The sex ratio of children born at Brown Memorial Hospital Christian Medical College, Ludhiana, Punjab, India, increased from 107 boys/100 girls in 1982 to 132 boys/100 girls in 1993. The authors interviewed the mothers of 360 boys and 236 girls either born or seen as inpatients or outpatients at the hospital to determine the proportion of children whose sex was determined prenatally and to identify factors which affect the use of fetal sex determination. Fetal sex determination was common, especially if the family already had daughters, fueled by the desire to have sons. A lower prevalence of fetal sex determinations for girls is likely the result of the abortion of fetuses found to be female. Specifically, sex had been determined prenatally for 5 of 236 girls (2%) and 49 of 360 boys (14%). Fetal sex determination had been done for 2% of first born boys compared with 18% with one older sister and no older brother and 63% with more than one older sister and no older brother. Only four boys whose sex had been determined prenatally had older brothers. The five girls whose sex had been determined prenatally either had a male twin or were incorrectly identified as male. Further, prenatal sex determination had been done for 21% of boys admitted for inpatient care compared to 11% seen as outpatients. The use of fetal sex determination increased with increasing monthly income. Uneducated mothers did not use fetal sex determination, but among mothers with some education the frequency of use did not change with increasing education.

Decreased access to medical care for girls in Punjab, India: the roles of age, religion, and distance.

Risk factors that increase the likelihood of discrimination against girls in India have not been well studied. In this study of hospitalized children in Punjab, India, girls were less likely to be in the newborn or infant age groups, to be of the Sikh religion, or to come from far away than were boys. These differences suggest that these factors are significant risk factors for denied access to medical care for girls living in Punjab, India.

Liquid-chromatographic measurements of inosine, hypoxanthine, and xanthine in studies of fructose-induced degradation of adenine nucleotides in humans and rats.

We applied a sensitive, precise liquid-chromatographic method of analysis for inosine, hypoxanthine, and xanthine to the study of fructose metabolism in humans and in rats. In the rat, intravenous loading with fructose induced, within minutes, substantial increases in the concentrations of inosine, hypoxanthine, and xanthine in plasma and urine. In plasma, these concentrations peaked after 5 min, then practically disappeared within 10 min. As expected, the fructose-induced increase in hypoxanthine was greatly amplified by pretreating the rats with allopurinol, an inhibitor of xanthine oxidase. In a healthy human subject, intravenous administration of fructose also induced prompt, substantial, and rapidly reversing increases in the concentrations of these metabolites of adenine nucleotides in plasma. The finding that fructose induced almost-immediate increases in the plasma concentrations of inosine, hypoxanthine, and xanthine is consistent with previous studies in rats, in which parenteral administration of fructose induced almost-immediate decreases of total adenine nucleotides (ATP + ADP + AMP) in the liver, and increased concentrations of uric acid and allantoin in the plasma.

Vitamin D status regulates 25-hydroxyvitamin D3-1 alpha-hydroxylase and its responsiveness to parathyroid hormone in the chick.

We asked this question: Under normal or near-normal metabolic conditions, does the prevailing normal or near-normal vitamin D status dampen the activity of 25-hydroxyvitamin-D3-1 alpha-hydroxylase (1 alpha-hydroxylase) such that it determines not only its "basal" activity but also its responsiveness to stimulation by increased circulating concentrations of parathyroid hormone (PTH)? To answer this question, we measured the activity of 1 alpha-hydroxylase in chicks, with and without administration of PTH, immediately before and during deprivation of vitamin D. Before deprivation of vitamin D, 1 alpha-hydroxylase activity increased only slightly with administration of PTH. With deprivation of vitamin D for 5 and 10 d, while the plasma concentrations of calcium and phosphorus persisted normal and unchanged, 1 alpha-hydroxylase activity not only increased progressively but also became sharply and increasingly responsive to stimulation by administration of PTH. But after 15 d of vitamin D deprivation, and the supervention of hypocalcemia, 1 alpha-hydroxylase activity was not further increased by the administration of PTH. With deprivation of vitamin D, the progressive increase in 1 alpha-hydroxylase correlated inversely with circulating levels of 1,25-dihydroxyvitamin D (1,25-[OH]2D), and the decreasing calcemic response to PTH correlated inversely with the responsiveness of 1 alpha-hydroxylase to PTH (in chicks deprived of vitamin D for 1-10 d). These results demonstrate that: under normal metabolic conditions, the normal vitamin D status regulates the activity of 1 alpha-hydroxylase so as to dampen both its "basal" activity and its responsiveness to stimulation by PTH; and vitamin D deprivation insufficient to cause hypocalcemia enhances both the "basal" activity of 1 alpha-hydroxylase and its responsiveness to stimulation by PTH. The results suggest that the normal dampening of 1 alpha-hydroxylase and both of the demonstrated enhancements of its activity are mediated by normal and reduced levels of circulating 1,25-(OH)2D, respectively. The finding that PTH fails to further stimulate 1 alpha-hydroxylase when vitamin D deprivation is sufficient in duration to cause hypocalcemia confirms the findings of other investigators and again demonstrates that observations made during abnormal metabolic circumstances may bear little on the physiologic regulation of 1 alpha-hydroxylase under normal or near-normal metabolic circumstances.

Effect of dietary phosphorus on circulating concentrations of 1,25-dihydroxyvitamin D and immunoreactive parathyroid hormone in children with moderate renal insufficiency.

The hyperparathyroidism characteristic of patients with moderate renal insufficiency could be caused by decreases in the plasma concentration of ionized calcium (Ca++) evoked by: (a) recurring increases in the plasma concentration of inorganic phosphorus that may be detectable only in the post-prandial period; (b) a reversible, phosphorus-mediated suppression of renal 25-hydroxyvitamin D-1 alpha-hydroxylase that decreases the plasma concentration of 1,25-dihydroxyvitamin D (1,25-(OH)2D) enough to decrease both gut absorption and bone resorption of Ca++; (c) both of these. In a group of eight children with moderate renal insufficiency, mean glomerular filtration rate (GFR) 45 +/- 4 (SE) ml/min per 1.73 M2, ages 6-17 yr, we tested these hypotheses by determining the effect of short term (5 d) restriction and supplementation of dietary intake of phosphorus on the plasma concentration of 1,25-(OH)2D, the serum concentrations of immunoreactive parathyroid hormone (iPTH) and phosphorus, and the fractional renal excretion of phosphorus ( FEPi ). When dietary phosphorus was normal, 1.2 g/d, the serum concentrations of phosphorus throughout the day were not greater than those of normal control children, and the serum concentrations of carboxyl-terminal iPTH (C-iPTH) were greater, 59 +/- 9 vs. 17 +/- 3 mu leq/ml, and unchanging; the serum concentration of intact-iPTH was also greater, 198 +/- 14 vs. 119 +/- 8 pg/ml. The plasma concentration of 1,25-(OH)2D was lower than that of age-matched controls, 27 +/- 3 vs. 36 +/- 2 pg/ml (P less than 0.01). When dietary phosphorus was restricted to 0.35 g/d, the plasma concentration of 1,25-(OH)2D increased by 60% to a mean value not different from that of normal controls, while serum concentrations of C-iPTH and intact-iPTH decreased by 25%, the latter concentration to a mean value not different from that of controls. FEPi decreased from 31 to 9%. When dietary phosphorus was supplemented to 2.4 g/d, the plasma concentration of 1,25-(OH)2D decreased 32%, while those of C-iPTH and intact-iPTH increased by 131 and 45%, respectively; FEPi increased from 27 to 53%. Plasma concentrations of 25-hydroxyvitamin D remained normal and unchanged, and GFR did not change when dietary phosphorus was manipulated. The data demonstrate that in children with moderate renal insufficiency: (a) A normal dietary intake of phosphorus in attended by a decreased circulating concentration of 1,25-(OH)2D and an increased concentration of iPTH, but not by recurring increases in the serum concentration of phosphorus at any time of the day; (b) Dietary phosphorus is, however, a major determinant of the circulating concentrations of both 1,25-(OH)2D and iPTH, which vary inversely and directly, respectively, with dietary intake of phosphorus, and increase and decrease, respectively, to normal values when phosphorus is restricted for 5 d; (c) Restriction and supplementation of dietary phosphorus induces changes in the serum concentration of iPTH that correlate strongly but inversely with those induced in the plasma concentration of 1,25-(OH)2D (r = -0.88, P < 0.001); and (d) The physiologic responsiveness of the renal tubule to changes in dietary phosphorus is to a substantial extent intact. The data provide support for the second hypothesis stated.

Grocery store baking soda. A source of sodium bicarbonate in the management of chronic metabolic acidosis.

Oral sodium bicarbonate is used to treat metabolic acidosis in patients with renal tubular acidosis. Since infants and young children are unable to swallow tablets, those affected must ingest sodium bicarbonate in a powder or liquid form. Pharmacy-weighed sodium bicarbonate is expensive and inconvenient to obtain; some pharmacists are reluctant to provide it. We determined that the sodium bicarbonate contained in 8-oz boxes of Arm and Hammer Baking Soda was sufficiently constant in weight that, dissolved in water to a given volume, it yielded a quantitatively acceptable therapeutic solution of sodium bicarbonate at a cost of approximately 3 percent of that of pharmacy-weighed sodium bicarbonate. Grocery store baking soda can be a safe, economical, and convenient source of sodium bicarbonate for the treatment of chronic metabolic acidosis in infants and young children.

Reduced plasma concentration of 1,25-dihydroxyvitamin D in children with moderate renal insufficiency.

We measured the plasma concentration of 1,25-dihydroxyvitamin D (1,25(OH)2D) in 39 children comprising three groups; eight with moderate renal insufficiency (GFR of 25 to 50 ml/min/1.73 M2, seven of whom had tubulointerstitial disease), eight with severe renal insufficiency (on chronic hemodialysis), and 23 healthy control subjects. The mean plasma concentration of 1,25-(OH)2D was reduced by some 40% (P less than 0.002) in the children with moderate renal insufficiency, and by some 80% (P less than 0.001) in the children with severe renal insufficiency. In the children with moderate renal insufficiency, the reduced concentration of 1,25-(OH)2D was associated with increased serum concentrations of immunoreactive parathyroid hormone (iPTH) and reduced serum concentrations of 1,25-(OH)2D was associated with increased serum concentrations of immunoreactive parathyroid hormone (iPTH) and reduced serum concentrations of calcium and phosphorus. When analyzed over the range of renal function from normal through severely impaired, values of iPTH correlate inversely and significantly with those of 1,25-(OH)2D. Growth was impaired in four of the eight children with moderate renal insufficiency. The results of the current study suggest that in children with moderate renal insufficiency, a reduction in the renal synthesis and in the plasma concentration of 1,25-(OH)2D may be important pathogenetic events in disordered metabolism of calcium and phosphorus, including secondary hyperparathyroidism.

Parathyroidectomy reduces 25-hydroxyvitamin D3-1 alpha-hydroxylase activity in the hypocalcemic vitamin D-deficient chick.

To test the hypothesis that in the vitamin D-deficient state the activity of 25-hydroxyvitamin D3-1 alpha-hydroxylase (25-OHD3-1 alpha-hydroxylase) is modulated by parathyroid hormone and the plasma concentration of phosphate only in the presence of small amounts of 1,25-dihydroxyvitamin D3 (or some other metabolite of vitamin D), we measured the activity of this enzyme 24 h after parathyroidectomy (PTX) in frankly hypocalcemic, vitamin D-deficient chicks that were not supplemented with vitamin D or one of its metabolites. The otherwise predictable complications of PTX in this metabolic setting (hypocalcemia of increasing severity, tetany, moribundity, and death) were prevented by continuous intravenous administration of calcium (as a solution of calcium chloride/calcium gluconate 1:1) through a catheter in the external jugular vein placed at the time of PTX. The findings were as follows: (a) The activity of 25-OHD3-1 alpha-hydroxylase was significantly less in the parathyroidectomized group than in the sham-operated control chicks (P less than 0.001). (b) The reductive effect of PTX on the activity of this enzyme was significantly attenuated when hypophosphatemia was increased in severity by administration of glucose. (c) In the post-PTX state the activity of 25-OHD3-1 alpha-hydroxylase and plasma concentration of phosphate were significantly, inversely related (P less than 0.001). (d) In the sham-operated control group the activity of this enzyme and the plasma concentration of phosphate were not significantly correlated. These findings indicate that in the vitamin D-deficient state, both circulating parathyroid hormone and the plasma concentration of phosphate can significantly modulate the activity of 25-OHD3-1 alpha-hydroxylase in the absence of vitamin D or its metabolites. The findings also suggest that in the vitamin D-deficient state the plasma concentration of phosphate modulates the activity of this enzyme only when the concentration of circulating parathyroid hormone is not increased.

Metabolic acidosis in the vitamin D-deficient chick.

In vitamin D-deficient chicks raised from age 1 day on a vitamin D-deficient diet, hyperchloremic metabolic acidosis accurred at 3 wk and persisted. Within 24 hr of administration of vitamin D, the acidosis and hypocalcemia were attentuated; during the subsequent 72 hr the severity of the metabolic acidosis but not that of the hypocalcemia was further attenuated. That further attenuation occurred despite hypocalcemia of unchanging severity and presumed continuing secondary hyperparathyroidism suggests the possibility that vitamin D deficiency may be a requirement for the expression of metabolic acidosis. Since in vitro and in vivo studies suggest that subphysiologic values of media and blood pH, respectively, are attended by reduced production of 1,25-(OH2D3, the most biologically active vitamin D metabolite known, the occurrence of acidosis in vitamin D deficiency may compound its metabolic consequences. The possible effects of acidosis must be considered in interpreting results of investigations of vitamin D metabolism in vitamin-D-deficient chicks.