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)

Placentas associated with maternal diabetes are generally characterized by features of villous immaturity. We correlated the villous histology with the immunocytochemical distribution of four trophoblastic proteins: beta human chorionic gonadotropin (beta HCG), placental alkaline phosphatase (PLAP), pregnancy specific beta-1-glycoprotein (SP1), and human placental lactogen (HPL) in 14 third-trimester placentas associated with diabetes mellitus. Staining was increased for beta HCG and decreased for PLAP, SP1, and HPL in the diabetic placentas compared to control placentas of similar gestational age. This pattern was most prominent in areas of marked architectural villous immaturity within individual placentas and suggests concomitant functional immaturity.
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PMID:Placental protein distribution in maternal diabetes mellitus: an immunocytochemical study. 248 1

This study examined the morphology and immunocytochemical staining patterns of distribution of beta-human chorionic gonadotropin (beta-HCG), human placental lactogen (HPL), placental alkaline phosphatase (PLAP), and pregnancy-specific beta-1 glycoprotein (SP1) in 13 third-trimester placentas associated with hydrops fetalis and six normal control placentas matched for gestational age (+/- 2 weeks). Seven placentas were hydropic (540-1,080 g) and demonstrated histologic immaturity with large edematous chorionic villi showing few blood vessels, most of which contained immature hematopoietic elements. These placentas showed consistently increased staining for beta-HCG and decreased staining for PLAP when compared with control placentas, a pattern reminiscent of less mature placentas. HPL and SP1 staining were similar to those of controls. Six placentas were either sclerotic (four) or histologically unremarkable (two), and these did not differ in their immunocytochemical staining properties from control placentas. We conclude that third-trimester hydropic placentas, in addition to showing histologic immaturity, exhibit an immunocytochemical staining pattern associated with first-trimester placentas.
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PMID:Immunocytochemical staining patterns of placentas associated with hydrops fetalis. 267 Jul 89

The influence of intrahepatic pregnancy cholestasia on fetal risk is examined. Fetal risk depends predominantly on prematurity and immanent somatic and neurologic immaturity. The rate of premature labour is 35 per cent. The rate of premature labour increases in correlation to rising values of serum ALAL and bilirubin. Antepartum and intrapartum cardiotocography, urinary excretion of total estrogens during 24 hours, serum human placental lactogen, fetal outcome and birthweight are not influenced by pregnancy cholestasia.
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PMID:[Intrahepatic pregnancy cholestasis and fetal risk]. 671 Nov 87

Studies of the maturation of hypothalamic control of adenohypophyseal hormone secretion are reviewed with particular reference to the somato-tropic axis in the ovine fetus. In the ovine fetus, circulating growth hormone concentrations are 20-fold higher than postnatal concentrations falling in the 72 h prior to delivery. These high fetal growth hormone concentrations are postulated to reflect an immaturity of hypothalamic control mechanisms. Synthetic human growth hormone releasing factor (10 micrograms/kg) markedly stimulates fetal circulating growth hormone release between 77 and 135 days of gestation. The response decreases with advancing maturation. Thus fetal growth hormone release is not under maximal stimulation. Fetal growth hormone, thyrotropin and gonadotropin release is pulsatile in nature and the growth hormone and thyrotropin pulses have exaggerated amplitudes compared to the postnatal pattern. It is suggested that in each case, this enhanced pulsatility is a consequence of immature feedback loops. Stereotaxic lesioning of the fetal median eminence at 110 days of gestation abolishes the pulsatility of fetal growth hormone release. However the basal secretion of growth release remains elevated in some fetuses compared to postnatal growth hormone concentrations. The basis for this high basal rate of secretion is speculative but it is postulated to reflect immaturity of inhibitory control mechanisms, in particular of the negative feedback loop. Neuropharmacological studies of circulating growth hormone release in the perinatal period are reviewed. These demonstrate that the potential for many neurotransmitters to influence fetal circulating growth hormone release has differentiated by midgestation. However antagonist studies have not demonstrated a tonic role for any stimulatory neurotransmitters, only for the inhibitory neurotransmitter, GABA. Growth hormone does not exert a major influence upon fetal growth. Studies of the ontogeny of growth hormone receptors in the ovine liver show that somatotropic receptors are first detected in the newborn lamb suggesting receptor immaturity as the basis for this lack of an effect of growth hormone in utero. The two insulin-like growth factors, IGF-I and IGF-II show different patterns of secretion in the perinatal period. IGF-I levels are low in utero, rise gradually through gestation with a marked postnatal rise perhaps related to the development of hepatic growth hormone receptors. IGF-II levels are high in the fetus and fall over the 3 days prior to delivery but are not affected by fetal decapitation. The role of placental lactogen as a stimulus of fetal IGF-II secretion is suggested.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Functional maturation of the neuroendocrine system in the perinatal period: studies of the somatotropic axis in the ovine fetus. 674 30

Pre-eclampsia/toxemia (PET) is an idiopathic hypertensive disorder of pregnancy elicited in susceptible mothers by exposure to placental trophoblast. Three facts regarding the placenta in PET are known: an association with large placentas (excessive trophoblast), a tendency for superficial implantation, and inappropriate trophoblastic immaturity, as assessed by ultrastructural and biochemical criteria. A unitary hypothesis is that PET is related to a maturation defect leading to excessive accumulation of inappropriately immature intermediate trophoblast in the placental implantation site. We studied the implantation site of PET and control placentas from three gestational age groups (25 to 30, 30 to 35, and 36 to 40 weeks old [five per group]) by morphometry and immunohistochemistry using antibodies to three phenotypic markers (cytokeratin, human placental lactogen (HPL), and beta 2-microglobulin) and two markers of cell dynamics (proliferating cell nuclear antigen [PCNA] and bcl-2]). Implantation sites in the PET group had increased amounts of intermediate trophoblast (cell number and longitudinal extent) with an increased proliferative index (percentage of PCNA positive) and evidence of phenotypic immaturity (HPL negative). Intermediate trophoblast from both groups was uniformly bcl-2 negative and beta 2-microglobulin positive. Based on these data and the findings of other investigators, we propose that the diagnostic term "atypical implantation site" be added to acute atherosis, villous infarction, and increased syncytial knotting as a characteristic of placentas from pre-eclamptic pregnancies.
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PMID:Pre-eclampsia is associated with an excess of proliferative immature intermediate trophoblast. 777 87

Six basic mechanisms facilitating development of chronic placental deficiency, hypotrophy and fetal death are distinguished: 1) insufficiency of invasion of the extra-villous cytotrophoblast into the placental bed resulting in incomplete gestational restructuring of spiral arteries and reduction of uteroplacental circulation; 2) rheological disturbances in the intervillous space due to ultrastructural pathology of the glycocalyx and microvilli of the cytiotrophoblast; 3) pathological immaturity of microvilli and retraction of the diffusion surface; 4) disturbances of the villi perfusion resulting from prevailing development of the connective tissue components, reduction of stroma capillary bed and obliteration angiopathy at the level of supporting villi and umbilical cord; 5) placental barrier pathology; 6) endocrine deficiency resulting from the deficiency in the synthesis of human chronic gonadotropin during the first and, in part, second trimesters and the shortage of placental lactogen at the end of pregnancy.
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PMID:[Basic pathogenetic mechanisms of chronic placental insufficiency]. 852 48

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