Next-generation cytogenetics: Comprehensive assessment of 52 hematological malignancy genomes by optical genome mapping.

Somatic structural variants (SVs) are important drivers of cancer development and progression. In a diagnostic set-up, especially for hematological malignancies, the comprehensive analysis of all SVs in a given sample still requires a combination of cytogenetic techniques, including karyotyping, FISH, and CNV microarrays. We hypothesize that the combination of these classical approaches could be replaced by optical genome mapping (OGM).

High detection rate of clinically relevant genomic abnormalities in plasma cells enriched from patients with multiple myeloma.

Multiple myeloma is a heterogeneous disease, which is characterized by the occurrence of specific genomic abnormalities that are both of diagnostic and prognostic relevance. Since the detection of these abnormalities through molecular-genetic techniques is hampered by the overall low percentage of plasma cells present in primary bone marrow aspirates, we assessed the efficacy of these techniques in enriched plasma cell fractions from 61 multiple myeloma patients. Using interphase FISH, genomic abnormalities could be detected in 96% of the enriched samples as compared to 61% in the cultured whole bone marrow samples.

Microarray-based genomic profiling as a diagnostic tool in acute lymphoblastic leukemia.

In acute lymphoblastic leukemia (ALL) specific genomic abnormalities provide important clinical information. In most routine clinical diagnostic laboratories conventional karyotyping, in conjunction with targeted screens using e.g.

Identification of chromosomal abnormalities relevant to prognosis in chronic lymphocytic leukemia using multiplex ligation-dependent probe amplification.

B-cell chronic lymphocytic leukemia (CLL) is characterized by a highly variable clinical course. Characteristic genomic abnormalities provide clinically important prognostic information. Because karyotyping and fluorescence in situ hybridization (FISH) are laborious techniques, we investigated the diagnostic efficacy of the more recently developed multiplex ligation-dependent probe amplification (MLPA) technique.

Detection of cryptic subtelomeric imbalances in fetuses with ultrasound abnormalities.

It is known from postnatal diagnosis that imbalances of the subtelomeric regions contribute significantly to idiopathic mental retardation. Consequently, subtelomere screening has been incorporated into the recommendations for the evaluation of individuals with unexplained mental retardation and a normal karyotype. Previous studies suggested that for fetuses with ultrasound abnormalities and a normal karyotype, additional screening for submicroscopic imbalances can be relevant for diagnosis and prognosis.