Embryonic chromosome abnormalities are the most important causes of early spontaneous abortions. The aim of this study was to evaluate the spectrum and the frequencies of chromosomal anomalies in spontaneous miscarriages and to correlate these with maternal and gestational age. A retrospective study was conducted based on data obtained from a single medical genetics laboratory that collects cases from Western Romania. Long-term cultures of chorionic villus samples were established for karyotype analysis by GTG banding. Additionally, we performed QF-PCR to detect aneuploidies for chromosomes 13, 18, 21, X, and Y. In total, chorionic villi samples of 330 miscarriages (from August 2007 to November 2018) were analyzed. Results were obtained for 90.6% (299/330) of the cases. The remaining 9.4% (31/330) were excluded from evaluation due to inconclusive results. An abnormal karyotype was found in 156 cases (47.27%), while in 143 cases (43.33%) a normal karyotype was present. Of the abnormal cases, 88 (56.4%) had trisomies, 25 (16.0%) presented polyploidies, 25 (16.0%) had monosomy X, and 19 (11.5%) chromosome rearrangements. QF-PCR analysis identified aneuploidy in 2 out of 8 samples (25%). Cytogenetic investigations of spontaneous abortions provide valid data as to the cause of the abortion. This information may also be helpful for genetic counseling and considering future pregnancies.
Cardiofaciocutaneous (CFC) syndrome [Online Mendelian Inheritance in Man (OMIM) #115150] is characterized by craniofacial dysmorphism, heart malformation, ectodermal abnormalities, neuromotor delay and intellectual disability. It is not a frequent disease, about 300 cases have been reported in the medical literature. We describe the case of a 34-year-old patient presenting with CFC syndrome phenotype, monitored since the age of 1 1/2 years. Clinical findings included craniofacial dysmorphism, development delay, heart malformation and severe intellectual disability. The evolution was with progressive intellectual disability, hypogonadism, hypertrophic cardiomyopathy, wrinkled palms and soles. Molecular analysis showed a heterozygous variant in the B-Raf proto-oncogene, serine/threonine kinase (BRAF) gene (7q34): NM_001354609.2:c.1502A>G, with pathogenic significance. We report this case, observed along a period of 33 years, for illustration of clinical evolutive particularities, and for difficulties in establishing the positive diagnosis.
When we discuss the genetics of tumors, we cannot fail to remember that in the second decade of the twentieth century, more precisely in 1914, Theodore Boveri defined for the first time the chromosomal bases of cancer. In the last 30 years, progresses in genetics have only confirmed Boveri's remarkable predictions made more than 80 years ago. Before the cloning of the retinoblastoma 1 (RB1) gene, the existence of a genetic component in most, if not all, solid childhood tumors were well known. The existence of familial tumor aggregations has been found much more frequently than researchers expected to find at random. Sometimes, the demonstration of this family predisposition was very difficult, because the survival of children diagnosed as having a certain tumor, up to an age at which reproduction and procreation is possible, was very rare. In recent years, advances in the diagnosis and treatment of these diseases have made it possible for these children to survive until the age when they were able to start their own families, including the ability to procreate. Four distinct groups of socalled cancer genes have been identified: oncogenes, which promote tumor cell proliferation; tumor suppressor genes, which inhibit this growth/proliferation; anti-mutational genes, with a role in deoxyribonucleic acid (DNA) stability; and micro-ribonucleic acid (miRNA) genes, with a role in the posttranscriptional process.
Skeletal dysplasia (SD), also called osteochondrodysplasia (OCD), is a large group of skeletal disorders (over 400 distinct entities) caused by abnormalities in bone development and growth. SDs varies according to different natural histories, prognoses, hereditary patterns to etiopathogenetic mechanisms. At birth, the incidence is low, reported at the level of each entity, but taken collectively; the incidence is estimated at 1:5000 births. Nosology is a branch of medical science. It deals with the systematic classification of diseases and disorders. Thus, combining information about the catalogue of clinically distinct disorders, pending molecular explanations, and genotype-phenotype correlations, the classification of SDs will be more accurate. This is extremely useful for diagnosing patients with genetic skeletal diseases, especially given the expected flow of information with new sequencing technologies. Over the years, various terms and classifications of SD have been used and have attempted to order and classify this group of genetic diseases according to clinical, radiological, and molecular criteria. In 2019, the Nosology Committee of the International Skeletal Dysplasia Society (ISDS) updated the classification of SD. This new classification divides SD into 42 large groups that include 461 entities. Advances in next-generation sequencing techniques have revolutionized the entire field of genetics, with 437 different genes are currently identified in 426 (92.4%) of SDs. Nosology is a real help for the clinician in establishing a diagnosis as accurately as possible, for the recognition of new diseases while serving as a guide for the interpretation of new genetic variants.
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