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Query: UMLS:C0029713 (
immaturity
)
4,335
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Taurinuria is characteristic of the immature rat. The excessive taurine loss could be the result of brush border or basal lateral membrane
immaturity
. The beta-amino acid, taurine, and D-glucose were examined using isolated brush border membrane vesicles (BBMV), slices and tubules prepared from 28-day-old rats. In BBMV, taurine accumulation was inversely proportional to osmolarity, indicating uptake rather than binding, and taurine accumulation was Na+-dependent. BBMV from 28-day rats did not accumulate D-glucose to the same degree as in adult BBMV, and the initial rate of uptake was slower.
Taurine
uptake had a similar Km and Vmax in BBMV from immature rats. Despite similarities in the kinetics of taurine uptake, higher urinary taurine concentrations are found in younger rats. The efflux of taurine from slices and tubules was much slower than in adults and probably accounts for the taurinuria of young animals. A diet low in methionine and taurine (LTD) given for seven days resulted in a lower excretion and fractional excretion of taurine than in animals fed a normal sulfur amino acid diet (NTD). A high-taurine diet (HTD) causes excessive taurinuria. These patterns of excretion are reflected at the brush border membrane surface with greater uptake after the LTD and reduced uptake after the HTD. A kinetic analysis of adult and 28-day-old animal BBMV reveals that the Vmax of accumulation is altered by diet, whereas the Km remains unchanged. The Vmax is higher in BBMV from LTD animals and lower in BBMV from HTD animals.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:Divergent membrane maturation in rat kidney: exposure by dietary taurine manipulation. 403 Feb 27
The 24h urinary bile acid excretion was prospectively studied during the neonatal period in healthy, fully breastfed, premature and full-term infants. The urinary bile acids were identified by gas-liquid chromatography (GLC)-mass spectrometry and quantified by GLC. The excretion of bile acids in urine increased after birth, reaching maximum levels by the 3-4th day.
Taurine
conjugates predominated and the excretion of bile acid sulphates was remarkably low. Cholic acid and atypical bile acids were the main bile acids in urine during the first week. Tetrahydroxylated bile acids carrying hydroxyl groups at C-1, C-2 and C-6 were common, and also other 1- and 6-hydroxylated bile acids, including hyocholic and hyodeoxycholic acids. Three tentatively identified 4-hydroxylated bile acids, including one ketonic bile acid, were also found. Ketonic bile acids constituted an average of 16% of total urinary bile acids during the first week. Unsaturated bile acids were scantily found only during the first days. The excretion of atypical bile acids decreased to 1 month of age, parallel with the total bile acid excretion. The data support earlier hypothesis of a physiological cholestasis in the newborn. Atypical hydroxylated and ketonic bile acids, as well as cholic acid, constituted the major part of the urinary bile acids. The persistent atypical pattern of bile acids in urine during the first month of life indicates a longer period of
immaturity
of bile acid metabolism in healthy infants than previously described.
...
PMID:The urinary bile acid excretion in healthy premature and full-term infants during the neonatal period. 817 Dec 65
The importance of taurine in the diet of pre-term and term infants has not always been clearly understood and is a topic of interest to students of infant nutrition. Recent evidence indicates that it should be considered one of the "conditionally essential" amino acids in infant nutrition. Plasma values for taurine will fall if infants are fed a taurine-free formula or do not have taurine provided in the TPN solution. Urine taurine values also fall, which is indicative of an attempt by the kidney to conserve taurine. The very-low-birth-weight infant, for a variety of reasons involving the maturation of tubular transport function, cannot maximally conserve taurine by enhancing renal reabsorption and, hence, is potentially at greater risk for taurine depletion than larger pre-term or term infants, and certainly more than older children who have taurine in their diet.
Taurine
has an important role in fat absorption in pre-term and possibly term infants and in children with cystic fibrosis. Because taurine-conjugated bile acids are better emulsifiers of fat than glycine-conjugated bile acids, the dietary (or TPN) intake has a direct influence on absorption of lipids.
Taurine
supplementation of formulas or TPN solutions could potentially serve to minimize the brain phospholipid fatty acid composition differences between formula-fed and human milk-fed infants.
Taurine
appears to have a role in infants, children, and even adults receiving most (> 75%) of their calories from TPN solutions in the prevention of granulation of the retina and electroencephalographic changes.
Taurine
has also been reported to improve maturation of auditory-evoked responses in pre-term infants, although this point is not fully established. Clearly, taurine is an important osmolyte in the brain and the renal medulla. At these locations, it is a primary factor in the cell volume regulatory process, in which brain or renal cells swell or shrink in response to osmolar changes, but return to their previous volume according to the uptake or release of taurine. While there is a dearth of clinical studies in man concerning this volume regulatory response, studies in cats, rats, and dog kidney cells indicate the protective role of taurine in hyperosmolar stress. The infant depleted of taurine may not be able to respond to hyper- or hyponatremic stress without massive changes in neuronal volume, which has obvious clinical significance. The fact that the brain content of taurine is very high at birth and falls with maturation may be a protective feature, or compensation for renal
immaturity
Defining an amino acid as "conditionally essential" requires that deficiency result in a clinical consequence or consequences which can be reversed by supplementation. In pre-term and term infants, taurine insufficiency results in impaired fat absorption, bile acid secretion, retinal function, and hepatic function, all of which can be reversed by taurine supplementation. Therefore, this small beta-amino acid, taurine, is indeed conditionally essential.
...
PMID:The role of taurine in infant nutrition. 963 63
