UMLS:C0025362 - FACTA Search

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Query: UMLS:C0025362 (mental retardation)
15,878 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Neonatal screening for phenylketonuria (PKU) has created an unexpected problem as females with PKU are reaching childbearing age. Surveys have revealed that maternal phenylalanine blood concentrations above 1200 mumol/L are associated with microcephaly, mental retardation, congenital heart defects, and intrauterine growth retardation among their offspring. It is estimated that as many as 3000 hyperphenylalaninemic females may be at risk for producing these fetal abnormalities. To examine this problem, the North American Maternal PKU Collaborative Study has been developed to evaluate the efficacy of a phenylalanine-restricted diet in reducing fetal morbidity. Preliminary findings indicate that phenylalanine restriction should begin before conception for females with PKU planning a pregnancy. Dietary control should maintain maternal blood phenylalanine levels between 120 and 360 mumol/L and should provide adequate energy, protein, vitamin, and mineral intake. Pregnant hyperphenylalaninemic females who achieved metabolic control after conception or by the 10th week of pregnancy had a better offspring outcome than anticipated.
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PMID:The North American Collaborative Study of Maternal Phenylketonuria. Status report 1993. 823 18

Richner-Hanhart syndrome, also called oculo-cutaneous tyrosinosis type II, is a recessive autosomal genodermatosis consecutive to a disorder of tyrosine metabolism. It presents as a varying association of palmo-plantar keratosis, bilateral keratitis and mental retardation. The authors report a new case which is atypical in that palmoplantar keratosis made a late appearance. The diagnosis was confirmed by the presence of hypertyrosinaemia, hypertyrosinuria and urinary excretion of phenolic acids, and the absence of hepato-renal lesion. Needle biopsy of the liver, which demonstrates the deficiency of soluble cytosolic tyrosine aminotransferase, is not indispensable to the diagnosis and was not performed in our patient. Treatment consisted of a dietary measure: a controlled phenylalanine and tyrosine intake to obtain a tyrosinaemia below 10 mg/100 ml. This resulted in a favourable and durable course of the oculo-cutaneous lesions. In case of isolated skin lesion, retinoids can be prescribed either alone of combined with a diet, making it less strict.
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PMID:[Oculocutaneous type II tyrosinosis]. 836 6

Children with phenylketonuria (PKU) detected in the neonatal period and who have received the appropriate diet develop normally whatever their sex. However, female PKU patients who, before becoming pregnant, do not take the precaution to follow a diet bringing phenylalanine to "normal levels" (2 to 5 mg in 100 ml of blood) give birth to children presenting with severe embryofoetal damage (e.g. intrauterine growth retardation, microcephaly, mental retardation, various malformations) directly due to their hyperphenylalaninaemia (20 mg or more in 100 ml of blood under a free diet). It is important to know these facts, since the benefits of systematic neonatal PKU detection may be cancelled by this late complication. The therapeutic approach in such cases is a follows: 1. Young women with known PKU must be informed of this risk and how it can be avoided by a preconception therapeutic diet. This means that they must permanently reside in the same geographical area, receive an adequate information at the end of puberty, use and effective contraception method and program their pregnancies preceded by a return to low phenylalanine diet. 2. Doctors must remember that because PKU detection has not become systematic until 1978, PKU girls of child-bearing are remain undetected, that they are not always mentally debilitated and can normally five birth to children with embryofoetal damage. In case of e.g. unexplained intrauterine growth retardation or microcephaly, it is necessary to perform a Guthrie test on the woman, since a prenatal diagnosis may lead to therapeutic abortion, and a postnatal diagnosis to a genetic counselling which will avoid recurrences.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:[Embryofetopathy of the newborn infant of a phenylketonuric mother. A diagnosis not to be missed]. 846 67

Phenylketonuria (PKU) and benign hyperphenylalaninaemia (HPA) result from a variety of mutations in the gene for the hepatic enzyme phenylalanine hydroxylase. PKU has been found in the Israeli population in two variants, classical and atypical. The two are clinically indistinguishable and require treatment with low phenylalanine diet to prevent mental retardation, but show differences in serum phenylalanine levels and in tolerance to this amino acid. Maternal PKU is a syndrome of congenital anomalies and mental retardation that appears in offspring of PKU mothers as a result of fetal exposure to the high phenylalanine level in the maternal blood. We studied a family in which two children with severe, classical PKU and their unaffected brother showed mild signs of maternal PKU. Their mother had no clinical signs of PKU, but the phenylalanine concentration in her serum reached a level that usually characterises PKU patients. This woman represents a rare phenotype, benign atypical PKU. Such 'hidden' PKU in women may lead to maternal PKU in the offspring, similar to overt PKU. Special attention should therefore be paid to women having children with any of the clinical hallmarks of maternal PKU, and to children born to women known to have benign HPA. The mother was also found to be homozygous for a missense mutation at the phenylalanine hydroxylase locus, R261Q, which does not abolish enzymatic activity completely. In two other families, homozygosity for this mutation resulted in atypical PKU in four children. This observation suggests that mutations that do not completely destroy phenylalanine hydroxylase activity may exhibit variable phenotypic expression which is unpredictable. Compound heterozygosity for R261Q and other mutations led in other patients either to classical PKU or to mild benign HPA.
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PMID:Phenylketonuria: variable phenotypic outcomes of the R261Q mutation and maternal PKU in the offspring of a healthy homozygote. 848 71

Maternal phenylketonuria (PKU) represents a high risk for birth defects, including mental retardation, in offspring. Thus, it could cancel gains represented by the prevention of PKU-induced mental retardation in the current generation. Effective dietary treatment of maternal PKU pregnancies could avoid this potentially tragic occurrence. However, dietary compliance is often difficult because a necessary component of the diet, medical nutritional formulas, often have an unpleasant taste and odour. We treated the second pregnancy of a phenylketonuric women who had required extended hospitalization during her first pregnancy because of poor formula tolerance, and who had similar difficulty in the second pregnancy. To alleviate this problem, we developed a system whereby she could pack the formula into gelatin capsules for ingestion. Packing and ingestion of 20 capsules required less than 30 minutes three times a day. With capsules her blood phenylalanine level was almost always within the recommended range of 120-360 mumol/L (2-6 mg/dl) and hospitalization was not required. The phenylalanine content of the capsules was easily accommodated by a small reduction in allowable food. Other amino acid levels, including tyrosine and other essential nutrient levels, were normal. We believe that using gelatin capsules for formula ingestion can be very beneficial in the management of maternal PKU pregnancies and could be extended to the dietary treatment of other inborn errors of metabolism.
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PMID:The use of gelatin capsules for ingestion of formula in dietary treatment of maternal phenylketonuria. 848 91

Mental retardation, hydrocephalus, and agenesis of the corpus callosum are observed both in fetal alcohol syndrome (FAS) and in children with mutations in the gene for the cell adhesion molecule L1. We studied the effects of ethanol on cell-cell adhesion in mouse fibroblasts transfected with human L1. L1-transfected fibroblasts exhibited increased cell-cell adhesion compared with wild-type or vector-transfected controls. Ethanol potently and completely inhibited L1-mediated adhesion both in transfected L cells and NIH/3T3 cells. Half-maximal inhibition was observed at 7 mM ethanol, a concentration achieved in blood and brain after ingesting one alcoholic beverage. In contrast, ethanol did not inhibit the adhesion of fibroblasts transfected with vector alone or with N-CAM-140. L1-mediated cell-cell adhesion was inhibited with increasing potency by n-propanol and n-butanol, but was not inhibited at all by n-alcohols of 5 to 8 carbons, acetaldehyde, or acetate, suggesting that ethanol interacts directly with a small hydrophobic pocket within L1. Phenylalanine, teratogenic anticonvulsants, and high concentrations of glucose did not inhibit L1-mediated cell-cell adhesion. Ethanol also inhibited potently the heterotypic adhesion of rat cerebellar granule cells to a monolayer of L1-transfected NIH/3T3 cells, but had no effect on their adhesion to N-CAM-140 or vector-transfected NIH/3T3 cells. Because L1 plays a role in both neural development and learning, ethanol inhibition of L1-mediated cell-cell interactions could contribute to FAS and ethanol-associated memory disorders.
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PMID:Alcohol inhibits cell-cell adhesion mediated by human L1. 860 70

Phenylketonuria (PKU) is an autosomal recessive disorder caused by a deficiency of hepatic phenylalanine hydroxylase (PAH), and is performed with newborn mass screening. PKU causes irreversible mental retardation that can be prevented by a strict low-phenylalanine diet. More than 100 different mutations have been identified world wide and it has been revealed that PKU is a highly heterogeneous disorder. Here, we describe the progress of the molecular genetics of PKU in East Asia. Approximately 60% of all PKU alleles in East Asians have been characterized with 10 PKU mutations. Two major PKU mutations, R413P and IVS4nt-1, may have originated in different populations, spreading in prehistoric times through the Asian continent due to the founder effect, genetic drift, and bottleneck effect. We found different mutations in Caucasians and East Asians, thus PKU mutations have occurred after ethnic divergence between Caucasians and East Asians. Furthermore, PKU genotype and in vitro PAH activity in expression analysis correlates to the clinical and biochemical phenotypes in East Asians. The molecular defects at the PAH gene regulate the in vivo PAH activities and clinical manifestations.
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PMID:Newborn mass screening and molecular genetics of phenylketonuria in east Asia. 862 90

The maternal phenylketonuria (PKU) syndrome refers to the teratogenic effects of PKU during pregnancy. These effects include mental retardation, microcephaly, congenital heart disease, and intrauterine growth retardation. In untreated pregnancies wherein the mother has classic PKU with a blood phenylalanine level > or = 1,200 microM (20 mg/dl), the frequencies of these abnormalities in offspring are exceedingly high, approaching 75-90% for microcephaly and mental retardation and 15% for congenital heart disease. There is a dose response relationship with progressively lower frequencies of these abnormalities at lower phenylalanine levels, both in the pregnancies of women with variants of PKU and in treated classic PKU pregnancies. The pathogenesis of this syndrome is unknown; it may be related to inhibition by phenylalanine of large neutral amino acid transport across the placenta or to direct toxicity of phenylalanine and/or a phenylalanine metabolite in certain fetal organs. A mouse model for PKU now exists, and studies of maternal PKU in this model are in progress. The treatment of maternal PKU consists of biochemical control through a phenylalanine restricted diet during pregnancy. The best results are obtained with diet initiation before conception or no later than the earliest weeks of pregnancy. Women with PKU and their families require much psychosocial support to meet the strict requirements of a maternal PKU pregnancy, including compliance with a difficult diet. With such compliance, however, it seems that bearing normal or near normal offspring is possible.
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PMID:Maternal phenylketonuria: a metabolic teratogen. 876 85

Pregnant women with hyperphenylalaninemia are at high risk of spontaneous abortion and of giving birth to infants with congenital malformations, microcephaly and mental defect. Among mothers whose phenylalaninemia is greater than 1200 mumol/L (20 mg/100 mL), 95% have at least one child with mental retardation. A low phenylalanine diet with a good control of phenylalaninemia, started before conception, reduces this risk, better results being obtained when plasma phenylalanine levels are maintained below 360 mumol/L (6 mg/100 mL) as compared with levels maintained between 360 to 600 mumol/L (6-10 mg/100 mL). Thus, systematic contraception and planned pregnancies must be recommended in all hyperphenylalanemic young women. This implies early information of phenylketonuric teenage girls and their parents. In addition, efforts must be made to join and inform all women having had hyperphenylalaninemia at birth, whether they received a dietary treatment or not. It is also important that general practitioners, pediatricians and obstetricians be aware of the high recurrence risk in hyperphenylalanemic women who gave birth to a microcephalic or malformed infant.
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PMID:[Pregnancy and the child of a mother with phenylketonuria]. 876 23

The reproductive effects of metabolic disorders in women can be divided into four categories. The first of these is infertility. Galactosemia with its complication of ovarian failure is the disorder in this category. This complication may be prenatal in origin but whether this is so and its cause are unknown. The second category includes pregnancy effects of maternal metabolic disorders. The urea cycle disorder ornithine transcarbamylase (OTC) deficiency, maternal maple syrup urine disease and maternal homocystinuria are in this category. In the first two disorders, postpartum life-threatening illness due to metabolic crisis has occurred. Maternal homocystinuria is associated with a high risk for postpartum thromboembolic complications. The third category is the pregnancy effect of a fetal metabolic disorder. Pregnancies in which the fetus had long-chain hydroxyacyl-CoA dehydrogenase deficiency (LCHADD) have been complicated by the life-threatening (HELLP) syndrome during the third trimester. Rapid recovery of the mothers followed delivery, on occasion by emergency cesarean section. The fourth category is the fetal effects (teratogenicity) from a maternal metabolic disorder. The best-known example of this is maternal phenylketonuria (PKU), which produces microcephaly, mental retardation, congenital heart disease and intrauterine growth retardation. Treatment with a low phenylalanine diet begun before conception or no later than the earliest weeks of the first trimester markedly reduces the risk to the fetus and can result in normal offspring. Other examples of teratogenicity may include maternal homocystinuria and maternal hypothyroidism.
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PMID:Reproductive effects of maternal metabolic disorders: implications for pediatrics and obstetrics. 882 3

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