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:C0018799 (heart disease)
34,133 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Many humans with trisomy 21 (Down Syndrome (DS)) have psychomotor and cognitive retardation, congenital heart disease, and hematologic abnormalities. Partial genetic homology exists between mouse chromosome 16 and human chromosome 21; thus, studies of the development of mice with trisomy 16 (Ts16) may provide important insights into the pathogenesis of these defects and into the mechanisms by which they arise in humans. Since Ts16 mice do not survive the late fetal period, chimeras have been formed between Ts16 and normal (2N) mouse embryos to rescue the Ts16 cells for postnatal studies. In this preliminary study of the postnatal development of such chimeras, we examined the proportion of Ts16 cells in a variety of tissues, including the coat, blood, placenta, heart, and brain. The Ts16 cells made significant contributions to almost all tissues examined. Aspects of the behavior and the neurochemistry of adult Ts16 less than-greater than 2N chimeras were found to differ significantly from control (2N less than-greater than 2N) chimeras and from animals of the two donor embryo strains. Ts16 cells comprised a substantial, but not predominant, proportion of cells in each brain region examined. Suggestions for definitive analyses are reviewed.
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PMID:Mouse chimeras composed of trisomy 16 and normal (2N) cells: preliminary studies. 287 71

We report a child with multiple malformations caused by trisomy for the distal part of the long arm of chromosome No 5. A neonatal diagnosis of Down's syndrome had previously been made on the basis of clinical examination and the detection of an additional chromosome not unlike No 21. A subsequent clinical re-evaluation, with the cooperation of the parents who permitted further studies, led to the confirmation of the true diagnosis. The mother was the carrier of a balanced translocation between chromosome No 5 and No 14. The child had severe growth and psychomotor retardation and characteristic features: microcephaly, antimongoloid slant, epicanthus, low set ears, down-turned mouth, and long upper lip. She was hypertonic and a congenital heart disease (atrial septal defect) was present. We have compared this case with others known to be trisomic for segment 5q31-qter.
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PMID:The trisomy (5)(q31-qter) syndrome: study of a family with a t(5:14) translocation. 328 82

Authors present a new case with partial trisomy for long arms of chromosome 18(q12-qter) resulting from a balanced translocation t(4;18) on her mother. Comparing clinical features of our patient with that of other reported cases with the same trisomic segment, we can deduce that most important characteristics on this syndrome are: psychomotor and grow retardation, congenital heart disease, dolicocephaly, low set and malformed ears, micrognathia, short neck with redundant skin and a longer survival than in total trisomy 18.
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PMID:[Partial trisomy 18q]. 363 80

A 4-year-and-10-month-old girl was referred to the Child Development Center, Rhode Island Hospital, Providence, Rhode Island, USA, for evaluation because of mental retardation. She was found to have short stature, congenital heart disease and dysmorphic facial features. A chromosome analysis revealed an unbalanced translocation with trisomy of the distal part of the short arm of chromosome 2 (2p21----2pter). A balanced reciprocal translocation was identified in the maternal karyotype 46,X,t(X;2)(q28;p21). The phenotype of partial trisomy 2p is discussed.
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PMID:Partial trisomy 2p. 368 57

A malformed male neonate with partial trisomy 15q dist (q22----qter), because of malsegregation of a balanced translocation (7; 15) (p22; q22) in his mother, is described. Comparison of this patient with thirteen previously published cases of this trisomy reveals a pattern of common features including: peculiar craniofacial dysmorphism--facial asymmetry, antimongoloid slant, narrow or short palpebral fissures, prominent nose, long upper lip, micro or retrognathia, high arched palate, low set ears, malformed ears, protuberant occiput--, abnormal fingers and toes, short neck, mental and growth retardation, cardiopathy, respiratory distress etc.. The main clinical findings seem to be similar enough to justify the establishment of a new entity of partial trisomy 15q dist syndrome.
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PMID:Partial trisomy for the distal part of the long arm of chromosome 15--a new syndrome? 373 22

Two cousins with an unbalanced chromosome translocation (partial trisomy 3p) are described. Both children have a clinically recognizable syndrome of square facies with prominent cheeks, narrow bitemporal regions, psychomotor retardation and congenital heart disease. Extended family studies showed one other individual proven to have partial trisomy 3p karyotype, two retarded individuals with congenital heart disease who probably had it, and 14 balanced carriers of the translocation t(1;3)(q43;p21). This report confirms the characteristic clinical appearance of affected individuals and emphasizes the frequency in which congenital heart disease is the presenting feature of partial trisomy 3p. An additional 22 cases of partial 3p trisomy are reviewed.
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PMID:Partial trisomy 3p syndrome. 375 96

The fifth case of trisomy 10 mosaicism is presented. Only in cultured fibroblasts this mosaicism was found, while peripheral lymphocytes revealed a normal karyotype. In comparison with the literature, trisomy 10 mosaicism syndrome is further delineated compromising of failure to thrive, high forehead, hypertelorism, mongoloid eye slant, blepharophimosis, dysplastic, large ears, retrognathia, long slender trunk, marked plantar and palmar furrows, cardiopathy and early death.
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PMID:Trisomy 10 mosaicism in a newborn boy; delineation of the syndrome. 397 42

We have previously proposed that mice trisomic for chromosome 16 will provide an animal model of human trisomy 21 (Down syndrome). However, the value of this model is limited to some extent because trisomy 16 mouse fetuses do not survive as live-born animals. Therefore, in an effort to produce viable mice with cells trisomic for chromosome 16, we have used an aggregation technique to generate trisomy 16 diploid (Ts 16 2n) chimeras. A total of 79 chimeric mice were produced, 11 of which were Ts 16 2n chimeras. Seven of these Ts 16 2n mice were analyzed as fetuses, just prior to birth, and 4 were analyzed as live-born animals. Unlike nonchimeric Ts 16 mouse fetuses which die shortly before birth with edema, congenital heart disease, and thymic and splenic hypoplasia, all but 1 of the Ts 16 2n animals were viable and phenotypically normal. The oldest of the live-born Ts 16 2n chimeras was 12 months old at the time of necropsy. Ts 16 cells, identified by coat color, enzyme marker, and/or karyotype analyses, comprised 50-60% of the brain, heart, lung, liver, and kidney in the 7 Ts 16 2n chimeric fetuses and 30-40% of these organs in the 4 live-born Ts 16 2n animals. Ts 16 cells comprised an average of 40% of the thymus and 80% of the spleen in the Ts 16 2n chimeras analyzed as fetuses, with no evidence of thymic or splenic hypoplasia. However, we observed a marked deficiency to Ts 16 cells in the blood, spleen, thymus, and bone marrow of live-born Ts 16 2n chimeras as compared to 2n 2n controls. These results demonstrate that although the Ts 16 2n chimeras were, with one exception, viable and phenotypically normal, each animal contained a significant proportion of trisomic cells in a variety of tissues, including the brain. Furthermore, our results suggest that although the abnormal development of Ts 16 thymus and spleen cells observed in Ts 16 fetuses is largely corrected in Ts 16 2n fetuses, Ts 16 erythroid and lymphoid cells have a severe proliferative disadvantage as compared to diploid cells in older live-born Ts 16 2n chimeras. Ts 16 2n chimeric mice will provide a valuable tool for studying the functional consequences of aneuploidy and may provide insight into the mechanisms by which trisomy 21 leads to developmental abnormalities in man.
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PMID:Mouse trisomy 16 as an animal model of human trisomy 21 (Down syndrome): production of viable trisomy 16 diploid mouse chimeras. 622 37

Four variations and degrees of severity of the Mondini malformation were found in the temporal bones from two neonates, one with congenital heart disease and the other with trisomy D, and from one teenager with leukemia: 1) short cochlea and normal vestibular organs; 2) short cochlea and persistent horizontal canal anlage; 3) markedly shortened cochlea with no modiolus, wide internal auditory meatus, and persistent horizontal canal anlage; 4) same as variation 3, but with persistent anlagen in all semicircular canals. Variations 3 and 4 were from the case of trisomy D, in which the left cochlea had a normal hair cell population but few nerve fibers, and the intraganglionic spiral bundle was displaced from Rosenthal's canal to the osseous spiral lamina. The right ear had no cochlear nerve fibers; the organ of Corti was present, but hair cells were unusually small. In the case of trisomy D, both ears showed subtotal loss of vestibular nerve fibers. Although the rudimentary cristae of the right ear had numerous hair cells, the macular hair cells were fewer and malformed. No hydrops was present.
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PMID:Four variations of the Mondini inner ear malformations as seen in microdissections. 633 86

A trisomy of the distal long arm of chromosome 15(q21 leads to qter) resulting in similar phenotypic and developmental abnormalities in two related children (a boy and a girl) is described. The chromosome defect was due to malsegregation of a balanced translocation (5;15)(p14;q21) in one of the parents. It was inherited in four generations and accompanied by recurrent miscarriages. Comparison of these patients with four previously published cases of trisomy 15q dist reveals a pattern of common features including: microdolichocephaly with characteristic strikingly protuberant occiput and predominance of the visceral over the cerebral cranium; peculiar facial dysmorphism--narrow antimongoloid palpebral fissures; large, malformed, low-set ears; micrognathy; long philtrum; short neck; cardiopathy; profound encephalopathy with lack of suck and swallow reflexes; and no growth retardation.
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PMID:Two familial cases with trisomy 15q dist due to a rcp(5;15)(p14;q21). 719 79


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