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Query: UMLS:C0020438 (
hypercalciuria
)
2,502
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Home parenteral nutrition has prevented malnutrition in patients who cannot maintain adequate nutrition by enteral feedings alone. The risk of bone and mineral abnormalities in these patients is significant for several reasons. Pre-existing skeletal disease can occur from factors known to affect the population at large as well as from malnutrition, malabsorption, and corticosteroid use related to the underlying disease process. Long-term use of infused nutrients and potential toxins can further alter bone turnover.
Hypercalciuria
is frequently present during HPN, yet its etiology is poorly defined. Parenteral nutrition admixture concentrations of calcium, phosphorus, protein, sodium, and
dextrose
may all play a role. Any development of acidosis can certainly aggravate
hypercalciuria
, which may be an indirect marker of abnormal bone turnover. Although increased protein intake can promote the development of acidosis-induced calciuresis, infused phosphorus and acetate can help reduce calcium excretion. Parenteral nutrition contamination by aluminum can cause a spectrum of osteomalacic bone disease similar to aluminum-associated changes seen in renal failure patients. Even with recent attempts to remove aluminum from the parenteral admixture, low-turnover bone disease can still occur. At present, HPN-related bone disease is a poorly understood entity because of its multifaceted nature. Patients receiving long-term parenteral nutrition should be considered to have an increased risk for the development of metabolic bone disease. Early monitoring for and treatment of bone disease should be considered in all patients receiving HPN.
...
PMID:Long-term parenteral nutrition and metabolic bone disease. 211 69
To examine the effects of mineralocorticoidism on calcium (Ca) absorption and to define the mechanism, rats received a high-salt diet and injections of vehicle or deoxycorticosterone acetate (DOCA). Net (44.2 vs. 31.4 mg/day) and percent Ca absorption (28.1 vs. 20.1%) was increased after 5 days of DOCA. This was associated with increased duodenal 45Ca uptake. Thus despite the
hypercalciuria
, Ca balance was similar. Although the
hypercalciuria
persisted chronically, the gut effects were sustained, which maintained normal ionized Ca, bone Ca, and Ca balance. Urinary cyclic adenosine monophosphate was elevated by DOCA. Compared with appropriate controls, neither DOCA alone nor polydipsia (elicited by
dextrose
) produced similar magnitudes of
hypercalciuria
as DOCA plus high-salt diet. These maneuvers also failed to increase Ca absorption. Neutralization of the metabolic alkalosis neither attenuated the DOCA-induced
hypercalciuria
nor abolished the Ca hyperabsorption. In vitamin D-deprived rats, the
hypercalciuria
but not the intestinal effects of DOCA were reproduced. Serum 1,25-dihydroxyvitamin D3 levels were increased during chronic DOCA treatment (224 vs. 139 pg/ml). These data best fit the hypothesis that increased Ca absorption is secondary to the calciuric effects of DOCA and high-salt diet and is mediated via the increased parathyroid hormone and 1,25-dihydroxyvitamin D3 activities.
...
PMID:Chronic DOCA treatment increases Ca absorption: role of hypercalciuria and vitamin D. 301 51
The first part of this study evaluates a new paired microinjection technique for studying single-nephron permeability (in this case to calcium) following injection of 5-10 nL of a Ringer solution into a superficial proximal tubule. The mean difference in fractional 45Ca recovery from two identical microinjections into the same nephron site was 2.2 +/- 0.2% for 89 paired microinjections. Individual nephrons therefore normally show differences in calcium permeability with time. However, moment-to-moment variations in ion transport in any one nephron are in a random direction; differences cancel one another out if enough experiments are performed. The technique thus appears well suited to studies where comparisons are made between the acute nephron responses to two test solutions. It specifically overcomes problems of nephron heterogeneity seen in some other micropuncture techniques. The second part of this study uses the new technique to investigate the effects of a raised intratubular
D-glucose
concentration on single-nephron calcium transport. Urinary 45Ca recoveries from late proximal microinjections were significantly higher when D- (as opposed to L-) glucose was included in the injectate (6.87 +/- 0.88 vs. 5.24 +/- 0.50%; p < .02). The ability of
D-glucose
to depress tubular calcium reabsorption at distal nephron sites may contribute to the observed
hypercalciuria
following systemic
D-glucose
loading. It may also be relevant to the acute renal failure accompanying renal stone disease, where a relationship between
hypercalciuria
, urolithiasis, and the consumption of refined carbohydrates has been proposed.
...
PMID:A paired tracer microinjection technique designed for assessment of single-nephron glucose-calcium interactions in the anesthetized rat. 785 14
