American College of Medical Genetics standards and guidelines for interpretation and reporting of postnatal constitutional copy number variants

Abstract Abstract 4906 Interrogation of the genome utilizing microarray technologies (copy number array-CGH with or without single-nucleotide polymorphism (SNP) probes) allows detection of genomic gains and losses with unprecedented resolution. Array findings are increasing our knowledge of the genetic basis of hematologic and other malignancies. However, prior to the clinical use of these new analytic tools, laboratories must extensively validate multiple parameters such as their platform(s), software, methods, detection limits, and quality control metrics. The laboratory must demonstrate expertise in the performance of the test and interpretation of the results by testing numerous samples, different sample types, and samples from patients with different types of diseases; these array results should then be compared with the results obtained using the gold standard methods. A working group of the Laboratory Quality Assurance committee of the American College of Medical Genetics (ACMG), a professional organization of board-certified clinical and laboratory geneticists, has drafted technical standards and guidelines for clinical laboratories that intend to offer clinical testing using these technologies. The ACMG Technical Standards and Guidelines provide support for clinical laboratory geneticists to help them provide quality laboratory genetic services. The guidelines discuss array design, selection and coverage of the genomic microarray platforms, manufacturer's premarket analytical validation recommendations (assay performance characteristics, quality parameters, and software specifications), laboratory validation recommendations for each neoplastic disorder and tissue type (blood, bone marrow, and formalin-fixed paraffin-embedded tissue), quality control metrics and documentation, and methods for confirmation of the copy number aberrations (e.g., conventional cytogenetics, FISH, PCR, MLPA, or a different microarray). Data analysis, interpretation and reporting recommendations relating to clonal diversity, limitations of the assay, and the assessment of the clinical significance of array findings are included. Quality assurance guidelines address laboratory personnel training and certification, proficiency testing, and clinically appropriate turnaround times. Clinical laboratory medical professionals with appropriate training and certification will correlate clinical and pathological information with array findings for final reporting. The ACMG Laboratory QA committee welcomes input as the draft guidelines are being formulated. Disclosures: No relevant conflicts of interest to declare.

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Understanding Schizophrenia: Genetic Causes and Treatment

Current Neuropsychiatry and Clinical Neuroscience Reports ◽

10.33702/cncnr.2019.1.1.2 ◽

2019 ◽

Vol 1 (1) ◽

pp. 6-12

Author(s):

Fatima Javeria ◽

Shazma Altaf ◽

Alishah Zair ◽

Rana Khalid Iqbal

Keyword(s):

Copy Number ◽

Drug Targets ◽

Disease Risk ◽

Mental Disease ◽

Copy Number Variants ◽

Aminobutyric Acid ◽

Epigenetic Mechanisms ◽

Gamma Aminobutyric Acid ◽

Wide Range ◽

Severe Mental Disease

Schizophrenia is a severe mental disease. The word schizophrenia literally means split mind. There are three major categories of symptoms which include positive, negative and cognitive symptoms. The disease is characterized by symptoms of hallucination, delusions, disorganized thinking and speech. Schizophrenia is related to many other mental and psychological problems like suicide, depression, hallucinations. Including these, it is also a problem for the patient’s family and the caregiver. There is no clear reason for the disease, but with the advances in molecular genetics; certain epigenetic mechanisms are involved in the pathophysiology of the disease. Epigenetic mechanisms that are mainly involved are the DNA methylation, copy number variants. With the advent of GWAS, a wide range of SNPs is found linked with the etiology of schizophrenia. These SNPs serve as ‘hubs’; because these all are integrating with each other in causing of schizophrenia risk. Until recently, there is no treatment available to cure the disease; but anti-psychotics can reduce the disease risk by minimizing its symptoms. Dopamine, serotonin, gamma-aminobutyric acid, are the neurotransmitters which serve as drug targets in the treatment of schizophrenia. Due to the involvement of genetic and epigenetic mechanisms, drugs available are already targeting certain genes involved in the etiology of the disease.

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