GenomeWebinars

This webinar discusses cell-free DNA prenatal screening in the era of genome-wide sequencing and factors influencing the clinical utility of expanded noninvasive prenatal testing (NIPT) menus.

NIPT by cell-free DNA analysis is recognized as the most effective method of prenatal screening for trisomies 21, 18 and 13, but the clinical utility of NIPT for rare and uncharacterized genomic imbalances is largely unknown. In order to understand how expanding uses of this technology may impact clinical care, laboratories and clinicians must understand what type of results to expect and the biological and technical factors that may influence the accuracy of these results.

In this webinar, Dr. Francesca Romana Grati of TOMA Advanced Biomedical Assays reviews the current state of NIPT technologies as well as their expanding applications into rare and uncharacterized genomic disorders.

Dr. Grati discusses:

• Currently available NIPT technologies
• Differences in genome-wide and targeted NIPT
• Biological and technical factors that influence the accuracy of NIPT results
• The clinical impact of screening for rare and uncharacterized genomic imbalances with NIPT

This webinar will provide an overview of polygenic risk scores, which aggregate dozens of genetic variants that have been linked to disease risk in genome-wide association studies (GWAS) into a single score.

Recently there has been growing interest in polygenic risk scores for predicting disease risk, expanding on the value of large GWAS. Various efforts have begun to demonstrate the utility of polygenic risk profiling to identify groups of individuals who could benefit from the knowledge of their probabilistic susceptibility to disease.

This talk will review the evidence supporting the personal and clinical utility of polygenic risk profiling and how it can be transformative for clinical care as well as drug discovery.

More specifically this webinar will:

• Describe the polygenic basis for common diseases.

• Describe how polygenic risk scores are generated. What are the various strategies?

• The utility of polygenic risk scores from multiple perspectives.

• Discuss “Genotype First” as a framework for the ethical use of genetics.

This webinar will outline the entire liquid biopsy workflow from cell-free DNA isolation to mutation detection by Crystal Digital PCR with the Naica System from Stilla Technologies.

Our speakers will focus on detecting EGFR, BRAF, NRAS, and KRAS mutations as well as pediatric and adult cerebral tumor classification panels.

Attendees of this webinar will:

• Understand the liquid biopsy process for EGFR, BRAF, NRAS, and KRAS mutations;
• Learn about the benefits of the Crystal Digital PCR platform in combination with research-use-only kits;
• Hear why digital PCR is a particularly useful technique for the detection of mutations, therapeutic monitoring, and resistance appearance;
• Learn about the different steps of the liquid biopsy workflow, from DNA isolation to DNA quantification and qualification and DNA genotyping, with dPCR multiplex kits

This webinar will discuss considerations that labs need to take into account when adopting rapid multiplex PCR testing for respiratory viruses in the clinical setting.

The development of rapid multiplex PCR tests enables the detection of almost all respiratory viruses in a few hours. These tests provide a deeper understanding of respiratory viruses' epidemiology among children or adults, as well as community- or hospital-acquired infections. They also allow clinicians to consider viral etiology to improve isolation management, antibiotic use, or a patient’s length of stay.

While these tests offer clear benefits for some patient populations, labs looking to adopt rapid multiplex PCR testing must balance their costs against the impact on patient care.

In this webinar, Dr. Benoit Visseaux of Bichat Claude Bernard Hospital, a university hospital in Paris, will discuss his experience with multiplex PCR testing for respiratory viruses. Dr. Visseaux will discuss the implementation of these tests in the context of improving patient 

This webinar discusses how Radboud University Medical Center’s Department of Human Genetics is using exon-level copy number variant (CNV) detection by microarray to assist its efforts in constitutional genome testing. 

Nicole de Leeuw of Radboud University Medical Center shares how CytoScan XON, a high-sensitivity exon-level microarray, compares with CytoScan HD in constitutional cytogenomics, in both prenatal and postnatal samples with congenital anomalies and/or neurodevelopmental delay.

This webinar shares data supporting the use of CytoScan XON to test multiple genes for intragenic CNVs in the human genome and demonstrates how the CytoScan XON yields good array test results with DNA samples from a variety of tissues of origin.

For Research Use Only. Not For Use In Diagnostic Procedures.