Dental Care for an adolescent with chromosome pentasomy: rare case report with a two year follow-up / Atenção Odontológica a jovem com pentassomia cromossômica: relato de caso raro com acompanhamento de 2 anos

Pentasomy of the x chromosome is a rare syndrome of unknown incidence and there are few reports in the scientific literature, especially in terms of dental care for patients with this syndrome. The aim of this study was to report the dental care given to an adolescent with pentasomy of the X chromosome. The patient presented a cleft palate, impacted teeth, malocclusion, high caries activity, gingivitis and multiple tooth loss due to caries. Despite the difficulties of carrying out the dental work due to involuntary movements and the initial lack of collaboration from the patient the overall dental care was completed on an outpatient basis. The therapeutic success of the treatment was strongly supported by the significant cooperation and relationship that grew up along the period of the treatment, as well as the desire to have the treatment done by both the patient and her parents.

A pentassomia do cromossomo x é uma síndrome rara, de incidência desconhecida e com poucos relatos na literatura científica, especialmente no que diz respeito à atenção odontológica para pacientes portadores da mesma. O objetivo deste estudo foi relatar um caso de atenção odontológica a uma jovem com pentassomia do cromossomo x, que apresentava fenda palatina, dentes inclusos, má-oclusão, alta atividade de cárie, gengivite e múltiplas perdas dentárias devido à cárie. Apesar das dificuldades de se realizar o tratamento dentário devido aos movimentos involuntários e a não colaboração inicial da paciente, houve total viabilidade da atenção odontológica em âmbito ambulatorial, observando-se significativa cooperação, formação de vínculo e adesão ao tratamento pela mesma e seus responsáveis, o que gerou sucesso terapêutico.

Mosaic double aneuploidy: Down syndrome and XYY.

Chromosomal abnormalities are seen in nearly 1% of live born infants. We report a 5‑year‑old boy with the clinical features of Down syndrome, which is the most common human aneuploidy. Cytogenetic analysis showed a mosaicism for a double aneuploidy, Down syndrome and XYY. The karyotype was 47, XY,+21[19]/48, XYY,+21[6]. ish XYY (DXZ1 × 1, DYZ1 × 2). Mosaic double aneuploidies are very rare and features of only one of the aneuploidies may predominate in childhood. Cytogenetic analysis is recommended even if the typical features of a recognized aneuploidy are present so that any associated abnormality may be detected. This will enable early intervention to provide the adequate supportive care and management.

Correlación genotipo-fenotipo y análisis molecular en pacientes con síndrome Down / Correlation genotype-phenotype and molecular analysis in patients with Down syndrome / Correlação genótipo-fenótipo e análise molecular em pacientes com síndrome de Down

El síndrome Down (SD) es la trisomía más común en humanos, presentándose en 1 de cada 745 nacidos vivos y es la causa más frecuente de retardo mental. El origen más observado de la trisomía es una no disyunción meiótica (95%), la cual generalmente es de origen materno, mientras un 5% se debe a errores post-cigóticos mitóticos. Objetivo: identificar el origen parental del cromosoma 21 extra, el momento del error no disyuncional y establecer una correlación entre estos eventos y las manifestaciones fenotípicas de los pacientes afectados. Materiales y métodos: se estudiaron cincuenta familias con un hijo con SD mediante el uso de cinco short tandem repeats (STR) a lo largo de 21q, se construyeron los haplotipos de cada paciente y sus padres, determinando el origen parental y el momento en que surgió el error no disyuncional. Resultados: en 80% de las familias el error fue en meiosis I y 20% en la meiosis II; 98% de los cromosomas adicionales fue de origen materno y 2% paterno. Se encontró correlación genotipo-fenotipo en ocho características estudiadas: cuello corto y ancho, tercera fontanela, labio inferior prominente, paladar estrecho y corto, raíz del hélix cruzando la concha, alopecia, pliegue único palmar y otras anomalías como nevus y xeroderma y eventos de recombinación en 24,5% de las familias analizadas. Conclusiones: la edad materna y la variación en el número de recombinaciones está asociada con no disyunciones meióticas I y II; se encontró correlación entre el momento del error no disyuncional y algunas variables clínicas.

Down Syndrome (DS) is the most common trisomy in human beings. Its incidence is estimated in one of 745 live births. On a global scale, it is the most frequent cause of mental retardation. The origin of this trisomy is due to a meiotic non-disjunction in about 95% of cases and is usually maternal, especially in women above 35 years of age. The remaining 5% is due to errors in post-zygotic mitosis. Objective: identify the parental origin of the extra chromosome 21, when the error is not disyuncional and establish a correlation between these events and phenotypic manifestations of the patients affected. Materials and methods: we studied fifty families with a child with DS, using 5 STRs markers along 21q which allowed identification of the origin of chromosome 21 additional parents, the time when the error occurred and recombination presents. The statistical analysis was done using the package SPSS version 15.0 for Windows. Results: in 80% of households in the error was meiosis I and 20% in meiosis II, 98% of the additional chromosomes was home maternal and paternal 2% similar to those reported by other authors, correlation was found genotype-phenotype characteristics studied at 8, neck short and wide, third fontanel, prominent lower lip, palate narrow and short, crossing hélix root of the shell, alopecia, single palm crease and other anomalies as nevi and xeroderma and recombination events in 24,5% of the families tested. Conclusions: the maternal age and variation in the number of recombination is not associated with disjunctions meiotics I and II genotype phenotype correlation was found, but the sample size should be expanded in order to establish with certainty that the correlations.

O síndrome de Down (SD) é a trissomia mais comum em humanos, apresentando-se em 1 de cada 745 nascidos vivos e é a causa mais frequentes de retardo mental. A origem mais observada da trissomia é uma não-disjunção meiótica (95%), a qual geralmente é de origem materna, enquanto um 5% se deve a erros pós-zigoticos mitóticos. Objetivo: identificar a origem parental do cromossoma 21 extra, o momento do erro não-disjuncional e estabelecer uma correlação entre estes eventos e as manifestações fenotípicas dos pacientes afetados. Materiais e métodos: se estudaram cinquenta famíliascom um filho com SD mediante o uso de cinco short tandem repeats (STR) ao longe de 21q, se construíram os haplótipos de cada paciente e seus pais, determinando a origem parental e o momento em que surgiu o erro não-disjuncional. Resultados: em 80% das famílias o erro foi em meiose I e 20% na meiose II; 98% dos cromossomas adicionais foi de origem materno e 2% paterno. Encontrou-se correlação genótipo-fenótipo em oito características estudadas: pescoço curto e amplo, terceira fontanela, lábio inferior proeminente, paladar apertado e curto, raiz da hélix a través da concha, alopecia, prega palmar única e outras anomalias como nevus e xeroderma e eventos de recombinação em 24,5% das famílias analisadas. Conclusões:a idade materna e a variação no número de recombinações está associada com não-disjunções meióticas I e II; encontrou-se correlação entre o momento do erro não disjuncional e algumas variáveis clínicas.

Micronucleated lymphocytes in parents of Down syndrome children

Down syndrome (DS) is the most common disease due to an autosomal aneuploidy in live born children and also the major known genetic cause of mental retardation. The risk of a DS pregnancy increases substantially with increasing maternal age. However, several women aged less than 35 years at conception have a child with DS. The micronucleus (MN) assay can identify chromosome breakage or chromosome malsegregation and is an ideal biomarker to investigate genomic instability. The aim of the present study was to determine the frequency of peripheral lymphocytes with MN in the parents of DS individuals. The subjects were 17 couples, 1 father and 9 mothers, and 24 couples who had at least one healthy child formed the control group. For each individual we evaluated the frequency of binucleated micronucleated lymphocytes (BNMN%) as number of binucleated lymphocytes containing one or more MN per 1000 binucleated cells. The mean age of DS parents and controls was 32.6 and 29.8 years, respectively. The frequency of MN in DS parents was significantly higher compared to controls. The higher frequency of MN in DS parents suggests a higher predisposition of DS parents to aneuploidy events in this sample.

Discerning non-disjunction in down syndrome patients by means of GluK1-(AGAT) n and D21S2055-(GATA) n microsatellites on chromosome 21.

Introduction: Down syndrome (DS), the leading genetic cause of mental retardation, stems from non-disjunction of chromosome 21. Aim: Our aim was to discern non-disjunction in DS patients by genotyping GluK1-(AGAT) n and D21S2055-(GATA) n microsatellites on chromosome 21 using a family-based study design. Materials and Methods: We have used a PCR and automated DNA sequencing followed by appropriate statistical analysis of genotype data for the present study Results and Discussion: We show that a high power of discrimination and a low probability of matching indicate that both markers may be used to distinguish between two unrelated individuals. That the D21S2055-(GATA) n allele distribution is evenly balanced, is indicated by a high power of exclusion [PE=0.280]. The estimated values of observed heterozygosity and polymorphism information content reveal that relative to GluK1-(AGAT) n [H obs =0.286], the D21S2055- (GATA) n [H obs =0.791] marker, is more informative. Though allele frequencies for both polymorphisms do not conform to Hardy-Weinberg equilibrium proportions, we were able to discern the parental origin of non-disjunction and also garnered evidence for triallelic (1:1:1) inheritance. The estimated proportion of meiosis-I to meiosis-II errors is 2:1 in maternal and 4:1 in paternal cases for GluK1-(AGAT) n , whereas for D21S2055-(GATA) n , the ratio is 2:1 in both maternal and paternal cases. Results underscore a need to systematically evaluate additional chromosome 21-specific markers in the context of non-disjunction DS.

Cytogenetic and comorbidity profile of Down syndrome in Mansoura University Children's Hospital, Egypt.

BACKGROUND: Down syndrome (DS) is the most common chromosomal disorder. It has three chromosomal patterns. AIM: To determine the cytogenetic and comorbidity profiles of DS in the Genetic Unit of Mansoura University Children's Hospital, Mansoura, Egypt. MATERIALS AND METHODS: A retrospective analysis was performed on the case records of 712 cytogenetically diagnosed cases of DS at the Genetic Unit of Mansoura University Children's Hospital, Egypt, during a 10-year period. RESULTS: About 19% of the cases had one or more cardiac anomalies and about 8% were hypothyroid. Nondisjunction was the most common type of abnormality, followed by translocation and lastly mosaic: 96.1, 3.1, and 0.8%, respectively. Hypothyroidism was significantly more common in translocation and mosaic karyotypes than in the nondisjunction karyotypes. First and second birth orders were significantly higher in the translocation and mosaic groups than in the nondisjunction group. Mothers are significantly older at the index pregnancy in the nondisjunction group than in the other two groups. We compared our findings with those of previous studies. CONCLUSION: Knowing karyotype of DS will help in genetic counseling of the parents. Wide-scale national community-based survey with DS registry could help in estimating the size of the problem.

Estudio genómico de la región crítica del cromosoma 21 asociada con el síndrome de Down / Genomic study of the critical region of chromosome 21 associated to Down syndrome

Introduction: Previous reports have identified a region of chromosome 21 known as Down syndrome critical region (DSCR) in which the expression of some genes would modulate the main clinical characteristics of this pathology. In this sense, there is currently limited information on the architecture of the DSCR associated. Objective: To obtain in silico a detailed vision of the chromatin structure associated with the evaluation of genomic covariables contained in public data bases. Methods: Taking as reference the information consigned in the National Center for Biotechnology Information, the Genome Browser from the University of California at Santa Cruz and from the HapMap project, a chromosome walk along 21 Mb of the distal portion of chromosome 21q arm was performed. In this distal portion, the number of single nucleotide polymorphisms (SNP), number of CpG islands, repetitive elements, recombination frequencies, and topographical state of that chromatin were recorded. Results: The frequency of CpG islands and Ref genes increased in the more distal 1.2 Mb DSCR that contrast with those localized near to the centromere. The highest level of recombination calculated for women was registered in the 21q22.12 to 22.3 bands. DSCR 6 and 9 genes showed a high percentage of methylation in CpG islands in DNA from normal and trisomic fibroblasts. The DSCR2 gene exhibited high levels of open chromatin and also methylation in some lysine residues of the histone H3 as relevant characteristics. Conclusion: The existence of a genomic environment characterized by high values of recombination frequencies and CpG methylation in DSCR 6 and 9 and also DSCR2 genes led us to postulate that in non-disjunction detected in Down syndrome, complex genomic, epigenetic and environmental relationships regulate some processes of meiosis.

Introducción: Análisis previos han identificado una región del cromosoma 21, conocida como región crítica del síndrome de Down (DSCR) en donde se localizan algunos genes cuya expresión modularía las principales características clínicas de este síndrome. En este sentido, existe poca información detallada sobre la arquitectura de la cromatina asociada con la DSCR. Objetivo: Obtener in silico, a partir de la evaluación de covariables genómicas contenidas en bases de datos públicas, una visión detallada de la estructura cromatina asociada con la DSCR. Métodos: Tomando como referencia la información consignada en el National Center for Biotechnology Information, el Genome Browser de la Universidad de California en Santa Clara y el proyecto internacional HapMap, se efectuó un paseo cromosómico a lo largo de 21Mb de la porción distal del brazo q del cromosoma 21, para registrar el número de polimorfismos de nucleótido único, el de islas CpG, de secuencias repetidas, las tasas de recombinación y el estado topológico de la cromatina asociada. Resultados: La frecuencia de islas CpG y de genes referenciados se incrementó en los últimos 1,2 Mb de la región distal en contraste con su distribución pericentromérica. La mayor tasa de recombinación calculada en este estudio para mujeres se registró en las bandas 21q22.13 y 21q22.3. Los genes DSCR 6 y 9 presentaron un elevado grado de metilación en islas CpG tanto en fibroblastos normales como en trisómicos. En el gen DSCR2 se observó un alto grado de descondensación cromatínica, además de metilación de diferentes residuos de lisina de la histona H3. Conclusiones: La existencia de un ambiente genómico caracterizado por tener elevadas tasas de recombinación y de metilación de genes DSCR 6 y 9, permite postular que en la no disyunción asociada con el SD, operarían complejas interacciones genómicas, epigenéticas y ambientales que actuarían en algunos procesos meióticos.

19-base pair deletion polymorphism of the dihydrofolate reductase (DHFR) gene: maternal risk of Down syndrome and folate metabolism / Polimorfismo de deleção de 19 pares de bases do gene dihidrofolato redutase (DHFR): risco materno para síndrome de Down e metabolismo do folato

CONTEXT AND OBJECTIVE: Polymorphisms in genes involved in folate metabolism may modulate the maternal risk of Down syndrome (DS). This study evaluated the influence of a 19-base pair (bp) deletion polymorphism in intron-1 of the dihydrofolate reductase (DHFR) gene on the maternal risk of DS, and investigated the association between this polymorphism and variations in the concentrations of serum folate and plasma homocysteine (Hcy) and plasma methylmalonic acid (MMA). DESIGN AND SETTING: Analytical cross-sectional study carried out at Faculdade de Medicina de São José do Rio Preto (Famerp). METHODS: 105 mothers of individuals with free trisomy of chromosome 21, and 184 control mothers were evaluated. Molecular analysis on the polymorphism was performed using the polymerase chain reaction (PCR) through differences in the sizes of fragments. Folate was quantified by means of chemiluminescence, and Hcy and MMA by means of liquid chromatography and sequential mass spectrometry. RESULTS: There was no difference between the groups in relation to allele and genotype frequencies (P = 0.44; P = 0.69, respectively). The folate, Hcy and MMA concentrations did not differ significantly between the groups, in relation to genotypes (P > 0.05). CONCLUSIONS: The 19-bp deletion polymorphism of DHFR gene was not a maternal risk factor for DS and was not related to variations in the concentrations of serum folate and plasma Hcy and MMA in the study population.

CONTEXTO E OBJETIVO: Polimorfismos em genes do metabolismo do folato podem modular o risco materno para síndrome de Down (SD). Este estudo avaliou a influência do polimorfismo de deleção de 19 pares de base (pb) no íntron 1 do gene dihidrofolato redutase (DHFR) no risco materno para SD e investigou a associação entre esse polimorfismo e variações nas concentrações de folato sérico, homocisteína (Hcy) e ácido metilmalônico (MMA) plasmáticos. TIPO DE ESTUDO E LOCAL: Estudo transversal analítico realizado na Faculdade de Medicina de São José do Rio Preto (Famerp). MÉTODOS: 105 mães de indivíduos com trissomia livre do cromossomo 21 e 184 mães controles foram avaliadas. A análise molecular do polimorfismo foi realizada pela reação em cadeia da polimerase (PCR) por diferença de tamanho dos fragmentos. O folato foi quantificado por quimioluminescência, e Hcy e MMA foram determinados por cromatografia líquida/espectrometria de massas sequencial. RESULTADOS: Não houve diferença entre os grupos em relação às frequências alélica e genotípica (P = 0,44; P = 0,69, respectivamente). As concentrações de folato, Hcy e MMA não mostraram diferença significativa entre os genótipos, entre grupos (P > 0,05). CONCLUSÕES: O polimorfismo de deleção de 19 pb do gene DHFR não é um fator de risco materno para SD e não está relacionado com variações nas concentrações de folato sérico, Hcy e MMA plasmáticos na população estudada.

Nondisjunction and chromosomal anomalies / La no disyunción y las anomalías cromosómicas

La no segregación es el fracaso de los cromosomas homólogos en separarse correctamente durante la meiosis. Esto resulta en la producción de gametos que contienen una cantidad de cromosomas mayor o menor a la encontrada en una célula normal. Consecuentemente, el individuo puede desarrollar una trisomía o monosomía. La no disyunción puede ocurrir en meiosis I o meiosis II de la división celular, es una causa de diversas condiciones médicas anormales, incluyendo el Síndrome de Down (trisomía del cromosoma 21), Síndrome de Patau (trisomía del cromosoma 13), Síndrome de Edward (trisomía del cromosoma 18) y Síndrome de Turner (la presencia de un solo cromosoma X). A pesar de que es la causa de numerosos trastornos genéticos, aún no se conoce su etiología exacta y el proceso en el cual se lleva a cabo. La no disyunción se origina en el mayor de los casos de errores en la meiosis II materna, sin embargo, la meiosis paterna y la meiosis I materna influyen en ella. La edad materna se considera como un factor de riesgo de las trisomías, igual que la alteración de la recombinación y otros factores que pueden afectar la segregación cromosó-mica, tal como la genotoxicidad y translocaciones cromosómicas. Esta revisión se realizará con base en artículos publicados entre 2003 y 2009 en ISI Web, Science Direct, PUED, SPRINGER y SCIELO; se interpretará y analizará en ella los resultados de estos estudios que lograron demostrar conclusiones importantes y sobresaltaron factores interesantes que pueden ser el punto de partida para próximas investigaciones.

Nondisjunction is the failure of homologous chromosomes to disjoin correctly during meiosis. This results in the production of gametes containing a greater or lesser chromosomal amount than normal ones. Consequently the individual may develop a trisomal or monosomal syndrome. Non disjunction can occur in both Meiosis I and Meiosis II of the cellular division. It is a cause of several abnormal medical conditions, including Down's syndrome (trisomy of chromosome 21), Patau's Syndrome (trisomy of chromosome 13), Edward's Syndrome (trisomy of chromosome 18) and Turner's Syndrome (the presence of only one X chromosome). It is also the main cause of many genetic disorders, however its origin and process remains vague. Although it results in the majority of cases from errors in the maternal meiosis II, both paternal and maternal meiosis I do influence it. The maternal age, is considered a risk factor of trisomies, as well as recombination alterations and many others that can affect the chromosomal segregation, such as genotoxicity and chromosomal translocations. We will review the results of previously realized studies between the years 2003 and 2009, found in ISI WEB, PUED, SCIENCE DIRECT,SPRINGER LINK and SCIELO, that led to important conclusions and highlighted interesting factors that can be the starting point to future investigation.

MTHFR Gene variants C677T, A1298C and association with Down syndrome: A Case-control study from South India.

BACKGROUND: The 5,10-methylenetetrahydrofolate reductase (MTHFR) polymorphisms and low folate levels are associated with inhibition of DNA methyltransferase and consequently DNA hypomethylation. The expanding spectrum of common conditions linked with MTHFR polymorphisms includes certain adverse birth outcome, pregnancy complications, cancers, adult cardiovascular diseases and psychiatric disorders, with several of these associations remaining still controversial. Trisomy 21 or Down syndrome (DS) is the most common genetic cause of mental retardation. It stems predominantly from the failure of chromosome 21 to segregate normally during meiosis. Despite substantial research, the molecular mechanisms underlying non-disjunction leading to trisomy 21 are poorly understood. MATERIALS AND METHODS: Two common variants C677T and A1298C of the MTHFR gene were screened in 36 parents with DS children and 60 healthy couples from Tamil Nadu and Karnataka. The MTHFR genotypes were studied by RFLP analysis of PCR-amplified products and confirmed by sequencing. RESULTS: The CT genotype was seen in three each (8.3%) of case mothers and fathers. One case father showed TT genotype. All the control individuals exhibited the wild type CC genotype. A similar frequency for the uncommon allele C of the second polymorphism was recorded in case mothers (0.35) and fathers (0.37) in comparison with the control mothers (0.39) and fathers (0.37). CONCLUSION: This first report on MTHFR C677T and A1298C polymorphisms in trisomy 21 parents from south Indian population revealed that MTHFR 677CT polymorphism was associated with a risk for Down syndrome.

A80G polymorphism of reduced folate carrier 1 (RFC1) and C776G polymorphism of transcobalamin 2 (TC2) genes in Down's syndrome etiology / Polimorfismos do gene carregador de folato reduzido (RFC1) A80G e transcobalamina 2 (TC2) C776G na etiologia da síndrome de Down

CONTEXT AND OBJECTIVE: There is evidence that polymorphisms of genes involved in folate metabolism may be associated with higher risk that mothers may bear a Down's syndrome (DS) child. This study therefore had the objective of investigating the A80G polymorphism of the reduced folate carrier 1 (RFC1) gene and the C776G polymorphism of the transcobalamin 2 (TC2) gene as maternal risk factors for DS among Brazilian women. DESIGN AND SETTING: Analytical cross-sectional study with control group, at Faculdade de Medicina de São José do Rio Preto (Famerp). METHODS: Sixty-seven mothers of DS individuals with free trisomy 21, and 113 control mothers, were studied. Molecular analysis of the polymorphisms was performed by means of the polymerase chain reaction with restriction fragment length polymorphism (PCR-RFLP), followed by electrophoresis on 2 percent agarose gel. RESULTS: The frequencies of the polymorphic alleles were 0.51 and 0.52 for RFC1 80G, and 0.34 and 0.34 for TC2 776G, in the case and control groups, respectively. Thus, there were no differences between the groups in relation to either the allele or the genotype frequency, for both polymorphisms (P = 0.696 for RFC1 A80G; P = 0.166 for TC2 C776G; P = 0.268 for combined genotypes). CONCLUSION: There was no evidence of any association between the RFC1 A80G and TC2 C776G polymorphisms and the maternal risk of DS in the sample evaluated.

CONTEXTO E OBJETIVO: Considerando as evidências de que polimorfismos em genes envolvidos no metabolismo do folato podem estar associados ao risco materno elevado para a síndrome de Down (SD), o objetivo deste estudo foi investigar os polimorfismos A80G do gene carregador de folato reduzido 1 (RFC1) e C776G do gene transcobalamina 2 (TC2) como fatores de risco maternos para a SD em mulheres brasileiras. TIPO E ESTUDO LOCAL: Estudo transversal analítico com grupo controle, realizado na Faculdade de Medicina de São José do Rio Preto (Famerp). MÉTODOS: Foram avaliadas 67 mães de indivíduos com trissomia livre do 21 e 113 mães de indivíduos sem a síndrome. A análise molecular dos polimorfismos foi realizada pela técnica de reação em cadeia da polimerase/polimorfismo de comprimento fragmentos de restrição (PCR-RFLP), seguida por eletroforese em gel de agarose 2 por cento. RESULTADOS: As freqüências dos alelos polimórficos foram de 0,51 e 0,52 para RFC1 80G e 0,34 e 0,34 para TC2 776G nos grupos caso e controle, respectivamente. Assim, não houve diferença nas freqüências alélicas e genotípicas para ambos os polimorfismos entre os grupos (P = 0,696 para RFC1 A80G; P = 0,166 para TC2 C776G; p = 0,268 para genótipos combinados). CONCLUSÃO: Não há evidência de associação entre os polimorfismos RFC1 A80G e TC2 C776G e o risco materno para a SD na casuística avaliada.

Genetic polymorphisms involved in folate metabolism and elevated plasma concentrations of homocysteine: maternal risk factors for Down syndrome in Brazil

The aim of the present study was to investigate the effect of polymorphisms C677T and A1298C in the methylenetetrahydrofolate reductase (MTHFR) gene, A2756G in methionine synthase reductase (MTR) gene and A80G in reduced folate carrier 1 (RFC1) gene, and plasma homocysteine (Hcy), on the maternal risk for Down syndrome (DS). Seventy-two DS mothers and 194 mothers who had no children with DS were evaluated. The investigation of the MTHFR C677T, MTR A2756G and RFC1 A80G polymorphisms was performed by polymerase chain reaction and enzyme digestion and the MTHFR A1298C polymorphism by allele-specific polymerase chain reaction. Hcy quantification was carried out by liquid chromatography-tandem mass spectrometry. The median number of polymorphic alleles for the four loci tested was greater in DS mothers compared to the control group, and the presence of three or more polymorphic alleles increased the risk for having a child with DS 1.74 times. Elevated maternal risk for DS was also observed when plasma Hcy three or more polymorphic alleles for MTHFR C677T, MTHFR A1298C, MTR A2756G, and RFC1 A80G, and plasma Hcy concentrations higher than 4.99 mi mol/L are maternal risk factors for DS.

Prenatal Diagnosis of Recurrent Trisomy 18 Syndrome / 대한진단검사의학회지

Though data on the recurrent risk after the birth of one fetus or infant with trisomy 18 is sparse, it has been presumed that the recurrence risk would be lower than the 1% for full trisomy 21 syndrome cases. We report a rare recurrent trisomy 18 found in amniocentesis in a family in which both parents had normal blood karyotype. Molecular analysis was undertaken in the second episode of trisomy 18 and a maternal meiosis II nondisjunction error was diagnosed.

A Case of Full Term Delivery of a Child with 47,XYY Subsequent to Prenatal Diagnosis at Midtrimester / 대한산부인과학회잡지

47,XYY is a rare sex chromosomal disorder. Approximately 1.45 per 1,000 live births have on XYY chromosome pattern. The extra Y chromosome is paternal in origin and RESULTS: from nondisjunction in the second meiotic division. Although the phenotype is normal on the newborn, an increased incidence of minor anomalies has been reported. Recently, a 37-year-old primigravid woman received amniocentesis at 17 weeks gestation at a private clinic and was diagnosed as having a fetus with 47,XYY. We performed amniocentesis again at 20 weeks of pregnancy and confirmed fetal karyotype to be 47,XYY using the conventional cytogenetics and fluorescence in situ hybridization (FISH) techniques. As she did not want to terminate her pregnancy, she was put under antenatal care but ended up in vaginal delivery in 40 weeks. As a result of physical examination, the neonate showed a normal phenotype except for a mild hypospadia and a simian crease.

Molecular Diagnosis and Determination of the Parental Origin of Extrachromosome 21 in Korean with Down Syndrome Using DNA Haplotyping

Purposes : Down syndrome, the most common single cause of mental retardation, is usually due to meiotic nondisjunction leading to trisomy 21. In order to understand the mechanisms of meiotic nondisjunction including parental origin of an extrachromosome and the meiotic stage of nondisjunction, we have studied DNA polymorphisms at loci on the long arm of chromosome 21 in 36 families with free trisomy 21. METHODS: A total of 36 patients with Down syndrome who was cytogenetically diagnosed, and their parents were included in the study. The D21S11 locus was analysed using PCR follwed by denaturing polyacrylamide gel electrophoresis. RESULTS: The observed heterozygosity of D21S11 locus is 79.4% in the 104 unrelated Korean. Seven alleles with different sizes were observed. The parental origin of the extrachromosome 21 could be determined in 27 of 36 cases. The maternal origin was in 24 (88.9%) cases and paternal origin was in 3 cases (11.1%). Among informative cases, the meiotic error occurred at the first maternal meiosis in 9 (57.3%) cases and second meiosis in 7 (42.7%) of 16 cases. All paternal meiotic error occurred in the second meiosis. CONCLUSION: DNA haplotyping of the short tandem repeats markers can be very useful technique for molecular diagonosis and for determination of the parental origin of an extrachromosome 21 in Down syndrome. Nondisjunction of the maternal gamate is the main cause of trisomy 21, However, further studies with other polymorphic markers that locate at the centromere of chromosome 21 are needed in order to definitely determine the meiotic stage of nondisjunction in trisomy 21.