Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0029713 (immaturity)
4,335 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Administration of supplemental oxygen, despite being an important clinical therapy, can cause significant lung damage. Because they have underdeveloped lungs, prematurely born human infants frequently require supportive therapies that employ elevated oxygen concentrations, which put them at risk for developing pulmonary oxygen toxicity. This risk is made even greater by the immaturity of their cellular antioxidant defenses. Although the exact mechanisms of oxygen toxicity are still not fully defined, cellular damage is probably mediated by increased production of chemically reactive oxygen species (ROS) in the mitochondria. Cellular protection against ROS is provided by a variety of antioxidant molecules and enzymes, including the glutathione (GSH)-dependent antioxidant system. The GSH-dependent antioxidant enzyme system provides vital cellular protection against ROS, particularly hydrogen peroxide and certain organic hydroperoxides, under pathological and toxicological conditions, by using selenium-dependent and -independent peroxidases to reduce hydrogen peroxide or lipid peroxides to water or the respective alcohols, with the concurrent oxidation of GSH to glutathione disulfide (GSSG). In the mitochondria, limitations of GSH synthesis and transmembrane transport suggest that optimal functioning of the mitochondrial GSH system, and maintenance of adequate thiol-disulfide redox tone is essential to protect against the injurious effects of ROS. Manipulation of endogenous GSH concentrations can alter cellular responses to oxidant injury. Beneficial effects are evident when intracellular GSH concentrations are increased. In conditions that increase mitochondrial production of ROS, such as exposure to high concentrations of oxygen, therapies based on enhancing mitochondrial GSH concentrations could be highly beneficial.
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PMID:Mitochondrial glutathione and oxidative stress: implications for pulmonary oxygen toxicity in premature infants. 1100 27

The goal of this study was to instrumentally evaluate the skin of healthy infants and to compare it to adult skin. A total of 70 infants, 45 girls and 25 boys, ages 8-24 months, and 30 healthy women were studied by means of transepidermal water loss (TEWL), capacitance, and pH measurements at two different skin sites, the volar forearm and the buttocks. No significant differences in TEWL were found between infants and adults, either on the buttocks or on the volar forearm. On the contrary, capacitance values were higher in infants. Their skin also appeared less acid than that of adults, with high statistical significance. No TEWL, capacitance, or pH variations were observed in infants according to sex and age. On the basis of the above data, the skin of infants 8-24 months of age shows functional signs of immaturity. This may lead to an increased permeability and a reduced capacity for defense against chemical and microbial aggression.
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PMID:Skin barrier, hydration, and pH of the skin of infants under 2 years of age. 1135 44

To evaluate brain dysfunction in autism, proton magnetic resonance spectroscopy (1H-MRS) was performed for 29 autistic patients (5-15 y.o.) and 19 normal children (6-14 y.o.). We obtained magnetic resonance (MR) spectra of the left and right amygdaloid-hippocampal regions and the left cerebellar hemisphere with a STEAM sequence (TR = 5000 ms, TE = 18 ms). In addition to the evaluation of signal intensity ratios, the absolute concentration of three major metabolites (N-acetylaspartate [NAA], creatine/phosphocreatine [Cr] and choline-containing substances [Cho]) was quantified by an internal reference method using unsuppressed tissue water. Although no abnormal MR images were found in the three regions examined, the signal intensity and the concentration of NAA in the left amygdaloid-hippocampal region and the left cerebellar hemisphere were reduced significantly in autistic patients compared to normal children. We speculated that this decrease in NAA reflected neuronal loss, immaturity or hypofunction in these regions. The results of our study were in agreement with those of previous studies on autism, one by neuropathological methods and the other using a single photon emission computed tomography with 99mTc HMPAO. Disorders of the amygdaloid-hippocampal region and cerebellum are considered to play an important role in the characteristic cognitive and emotional dysfunction in autism. 1H-MRS is a valuable tool to clarify the pathophysiology of autism.
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PMID:[Proton magnetic resonance spectroscopy of the autistic brain]. 1149 76

The past decade has seen enormous progress in understanding the renal regulation of salt and water homeostasis. Most of the key transporters have been cloned, and their physiological importance has been revealed from studies of children with inherited diseases and from mutagenesis studies on a cellular level. We are beginning to understand the complexity with which the activity of these transporters is regulated by hormones. Studies on experimental animals have uniformly shown that the majority of renal salt and water transporters undergo profound changes in the postnatal period. There is generally a robust increase in the number of transporters expressed in a single tubular cell. Many of the transporters also shift their expression from one isoform to another with a somewhat different function. The short-term regulation of salt and water transporters, the key to a well-functioning homeostatic system, is often blunted in the early postnatal period. Taken together, these findings explain some phenomena well known in infants. The low urinary concentrating capacity can, for example, be at least partially attributed to immaturity of the expression of water channels, sodium losses in preterm infants to low expression of the energy generator for salt transport, Na(+),K(+)-ATPase, and the disposition to acidosis to immaturity of the Na(+)/H(+)exchanger. We propose that further studies on how these transporters are regulated will lead to the improved prevention and treatment of salt water balance disorders in infants.
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PMID:Molecular determinants of sodium and water balance during early human development. 1500 Nov 32

The ability of the immature kidney to concentrate urine is lower than in adults. This can lead to severe water and electrolyte disorders, especially in premature babies. Resistance to AVP and lower tonicity of the medullary interstitium seem to be the major factors limiting urine concentration in newborns. AVP-stimulated cAMP generation is impaired. This is the result of inhibition of the production by PGE(2) acting through EP3 receptors and increased degradation by phosphodiesterase IV. The expression of aquaporin-2 (AQP2) in the immature kidney is low; however, under conditions of water deprivation and after stimulation with DDAVP, it rises to adult levels. The expression of AQP3 and AQP4 is intact at birth and does not seem to contribute to the hyporesponsiveness to AVP. Low sodium transport by thick ascending loops of Henle, immaturity of the medullary architecture, and adaptations in the transport of urea contribute to the lower tonicity of the medullary interstitium. This paper reviews the alterations in the AVP signal transduction pathway in the immature kidney.
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PMID:Development of water transport in the collecting duct. 1552 87

The limited renal concentration performance by the immature kidney traditionally is thought to be attributed to blunted renal response to arginine vasopressin (AVP) and medullary hypotonicity. The diminished AVP-dependent osmotic water permeability of the collecting duct is the result of decreased AVP binding and adenylate cyclase activation, and low expression of aquaporin-2 (AQP2) mRNA and low levels of AQP2 protein. Moreover, the immature kidney fails to establish deep cortico-papillary osmotic gradient because of structural immaturity, limited solute transport and increased medullary blood flow. Based on indirect clinical and experimental evidences this article puts forward a hypothesis that during perinatal period the abundant hyaluronan (HA) content in the renomedullary interstitium has a primary role in antagonizing water reabsorption and limiting concentration performance. Hydration-related alterations in renal HA appears to be mediated by antidiuretic hormone. The concept of HA-mediated renal water transport may imply that interfering selectively with renal HA metabolism may provide a new therapeutic approach to promote diuresis or antidiuresis, respectively, according to the elevation or reduction in renomedullary HA.
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PMID:Hyaluronan-related limited concentration by the immature kidney. 1614 Apr 63

Detailed knowledge of the special features of neonatal and infant skin is a prerequisite for adequate skin care in this age group. Immediately postpartum, the newborn baby's skin assumes vital functions regarding water and electrolyte homeostasis and thermoregulation, as well as innate and adaptive host defense. Due to its functional and structural immaturity, premature skin requires special care. Mature neonates demonstrate benign, transient skin lesions that do not require specific therapy but have to be distinguished from serious and potentially life-threatening illnesses.
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PMID:[Special features of the skin in newborns and young infants]. 1614

Urine source separation (NoMix technology) has been proposed as a sustainable alternative to centralized wastewater treatment systems. Radical changes necessitate an early inclusion of sociological expertise, thus offering a real chance fortransdisciplinary collaboration. The practical aim of our survey is to find out how users accept and use existing NoMixtoilets and how this could be encouraged. We collected 1249 questionnaires from 2002 to 2004 in one Swiss school and one Swiss research institute. The technological immaturity of NoMix toilets was noted by many. Nevertheless, acceptance was high: 72% liked the idea and 86% would move into apartments with NoMix toilets. Moreover, most users found that NoMix toilets equal conventional toilets with respect to design (78%), hygiene (84%), and smell (78%). Like many other innovations, the NoMix technology only functions properly if it is used adequately, which we demonstrate for water saving and sitting to urinate. Many users adopted this behavior, e.g., 72% sat. Because perception and use of NoMix toilets is subjective, it can be influenced with certain measures such as good information and cleaning, or discussions with peers. We discuss the importance of social psychology for understanding the factors that influence the acceptance of environmentally friendly innovations.
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PMID:Considering user attitude in early Development of environmentally friendly technology: a case study of NoMix toilets. 1695 75

The most critical phase of exposure to schistosomal infection is the infancy, because of the more frequent contact with contaminated water and the immaturity of the immune system. One of the most severe presentations of this parasitosis is the involvement of the spinal cord, which prognosis is largely dependent on early diagnosis and treatment. Reports on this clinical form of schistosomiasis in children are rare in the literature. We present here the clinical-epidemiological profile of schistosomal myeloradiculopathy (SMR) from ten children who were admitted at the Instituto Materno-Infantil de Pernambuco over a five-year period. They were evaluated according to an investigation protocol. Most of these patients presented an acute neurological picture which included as the main clinical manifestations: sphincteral disorders, low back and lower limbs pain, paresthesia, lower limbs muscle weakness and absence of deep tendon reflex, and impairment of the gait. The diagnosis was presumptive in the majority of the cases. This study emphasizes the importance of considering the diagnosis of SMR in pediatric patients coming from endemic areas who present a low cord syndrome, in order to start the appropriate therapy and avoid future complications.
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PMID:Clinical-epidemiological profile of children with schistosomal myeloradiculopathy attended at the Instituto Materno-Infantil de Pernambuco. 1730 63

The cornified envelope (CE) is a thin insoluble structure enveloping corneocytes, and is essential for the barrier function of the stratum corneum (SC). Our previous studies revealed that immature CEs are detected in the outermost layer of SC of barrier-impaired epidermis including the face and in various inflammatory disorders, using a non-invasive method to evaluate CE maturity. However, factors attributable for immaturity of CEs are still unclear. The aim of the present study is to clarify whether immature CEs in the SC have the potential to mature. SC samples, in which immature CEs abundantly exist, were collected from the cheek of healthy volunteers by tape-stripping, and were incubated ex vivo under the humidified air at 37 degrees C. Then, CE maturity was evaluated by staining with a combination of anti-involucrin and Nile red to detect involucrin antigenicity in the immature CEs and hydrophobicity in the mature CEs, respectively. Ex vivo incubation of the SC resulted in the conversion of immature CEs into mature CEs in terms of loss of involucrin antigenicity and acquisition of hydrophobicity. Application of buffer solutions of various pH onto the SC prior to incubation revealed that maturation of CEs was proceeded at range of pH 5-7, corresponding to intrinsic pH range within the SC. Chelating agents, ethylenediamine-N, N, N', N',-tetraacetic acid (EDTA) and ethyleneglycol bis(beta-aminoethylether)-N,N,N',N'-tetraacetic acid (EGTA), and thiol alkylating agents, N-ethylmaleimide and iodoacetamide, inhibited the maturation. Labelled cadaverine as an exogenous substrate for transglutaminase (TGase) could be incorporated into CEs during maturation. Extractable involucrin-like protein detected in the SC samples before incubation concomitantly disappeared with CE maturation, suggesting incorporation of endogenous substrates into the CEs. These results obviously demonstrate that maturation of CEs was mediated by TGase activity in the SC, and that immature CEs found in the outermost face SC have potential to mature by cross-linking of endogenous CE precursors present in the SC. Reduction of environmental humidity during ex vivo incubation of the SC resulted in marked suppression of maturation of CEs, and application of a moisturizer, glycerine, onto the SC replenished the suppression of maturation, suggesting that water content in the SC may affect the TGase reaction in the SC. Therefore, various factors, including a decrease in the water content in the SC, may account for impaired maturation of CEs in the face SC.
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PMID:Involvement of transglutaminase in ex vivo maturation of cornified envelopes in the stratum corneum. 1849 7


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