Cell-free DNA screening and the potential for cell-based DNA testing continues to revolutionize the prenatal diagnostics field. While cell-free DNA tests are being used more and more in a clinical setting, with cell-based testing on its heels, there is
still a pertinent need for improvements in sensitivity, specificity, and clinician and patient education in order to truly replace invasive testing. Alongside these developments, much research is being done in fetal whole exome sequencing and is beginning
to play a large role in miscarriage testing. Furthermore, research into biomarkers for pre-term birth and preeclampsia is playing a large role in prenatal care. With all this research and screening, of course, comes more information than ever before,
and test developers, clinicians, and genetic counselors need to keep abreast of these changes, nuances, and guidelines in order to effectively care for patients. This event will not only examine scientific advances, but also clinical implementation
and future directions for the field.
Program Advisors
Arthur Beaudet, MD, Chair, Department of Molecular &
Human Genetics, Baylor College of Medicine
Cynthia Morton, PhD, Departments of Obstetrics,
Gynecology & Reproductive Biology and of Pathology,
Harvard Medical School; Director, Cytogenetics, Brigham &
Women’s Hospital
Joe Leigh Simpson, MD, Senior Vice President for
Research and Global Programs, March of Dimes
Foundation
Ronald J. Wapner, MD, Director, Reproductive Genetics and
Vice Chair, Research, Department of Obstetrics and
Gynecology, Columbia University Medical Center
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Monday, October 29
8:00 am Registration and Morning Coffee
9:00 Chairperson’s Remarks
Louis J. Muglia, MD, PhD, Director, Division of Human Genetics, Department of Pediatrics, Cincinnati Children’s Hospital Medical Center
9:05 Two Years Later: The Implementation of ACMG’s NIPS Practice Guidelines
Brian Skotko, MD, MPP, Co-Director, Down Syndrome Program, Massachusetts General Hospital
It’s been two years since the ACMG published its revised practice guidelines for cffDNA NIPS. Part of those guidelines include recommendations for laboratories on patient reports and patient education materials. During this talk, Dr. Skotko will
take a look at highlights from the field.
9:35 Ethical and Social Issues in Translating cfDNA Screening into Routine Prenatal Care
Marsha Michie, PhD, Assistant Professor, Bioethics, Case Western Reserve
University School of Medicine
Since 2011, prenatal cell-free DNA screening has transformed the landscape of options for pregnant women who want genetic information about their developing fetus. This rapid implementation has raised multiple social and ethical issues for families,
clinicians, professional organizations, patient groups, laboratories, and many others. With little top-down regulation in this space, stakeholders are working together to guide translation of these technologies into applications that are ethically
appropriate and socially beneficial.
10:05 Patient Advocacy Groups and Commercial Companies: An Examination
Stephanie Meredith, MA, Lettercase Program/Medical Outreach
Director, Human Development Institute, University of Kentucky
Overview of the increased patient education needs caused by the expansion of prenatal screening and testing and the steps being taken to address those gaps and meet the needs of all the stakeholders: patients, providers, and disability advocacy groups.
Further exploration of the role industry in meeting those patient education needs and establishing ethical relationships with patient advocacy groups.
10:35 Networking Coffee Break
10:55 The VALUE Study: A Novel cfDNA Non-NGS Method to Identify Common Autosomal Trisomies
Geralyn Lambert-Messerlian, PhD, FAACC, Professor and Laboratory Director, Women & Infants Hospital of Rhode Island
Multiple methods utilizing NGS of cfDNA from maternal circulation are in widespread use as a secondary screening test, but transitioning such testing into a first line screening test for the general pregnancy population has proven difficult. A novel
molecular probe technology will be used that enriches for targeted fragments that are counted without the use of PCR. The VALUE study aims to provide both external clinical validation of assay performance as well as document the necessary resources
to test 10,000 samples per year. We have enrolled 800 of 2400 low risk pregnancies and will include an additional 100 samples with a common autosomal trisomy.
11:25 Comparing NIPT Options in Detecting Different Genetic Disorders - Thoughts from a Clinical Geneticist
Ida Vogel, MD, Head, Clinical Genetics, Aarhus University Hospital, Denmark
This talk will provide a brief overview comparing different NIPT options in detecting different genetic disorders.
11:55 Enjoy Lunch on Your Own
12:55 Session Break
1:55 Chairperson’s Remarks
Ronald Wapner, MD, Director, Reproductive Genetics and Vice Chair, Research, Department of Obstetrics & Gynecology, Columbia University Medical Center
2:00 Technical Insights into Next Generation Sequencing Analysis of DNA from Circulating Trophoblastic Cells
Patrizia Paterlini-Brechot, PhD, MD, Cellular & Molecular Biology, University Paris Descartes
Isolation of rare trophoblastic cells from blood is a technical challenge with impact on the number of collected fetal cells and on the quality of their DNA. By using the ISET (Isolation by Size of Tumor/Trophoblastic cells) system, we have developed
protocols for isolation of fixed and live circulating trophoblastic cells, cell free DNA collection allowing scalable NGS analysis of circulating fetal cells and cfDNA. We show the results and technical challenges related to this field and
discuss the potential clinical impact of these developments for non-invasive prenatal diagnosis of genetic disorders.
2:30 Imprinted NanoVelcro Microchips for Isolation and Characterization of Circulating Fetal Trophoblasts – Toward Noninvasive Prenatal Diagnostics
Hsian-Rong Tseng, PhD,
Professor, Molecular & Medical Pharmacology, University of California, Los Angeles
Circulating fetal nucleated cells (CFNCs) in maternal blood offer an ideal source of fetal genomic DNA for noninvasive prenatal diagnostics (NIPD). We developed a new class of NanoVelcro Microchips to effectively enrich a subcategory of CFNCs,
i.e., circulating trophoblasts (cTBs) from maternal blood. Our results support the use of NanoVelcro Microchips for cTB-based noninvasive prenatal genetic testing, which holds potential for further development toward future NIPD solution.
3:00 Fetal Cells in Maternal Blood for Prenatal Diagnosis – From R&D to Clinic
Ripudaman Singh, PhD,
MBA, CTO, ARCEDI Biotech Aps
Technological advances in enrichment, manipulation and analyses of rare fetal cells from maternal blood have been made in the last 5 years. This has invigorated interest in circulating fetal cells and their application in prenatal testing.
The hope is that enriched fetal cells from maternal blood can be used as superior alternatives to conventional NIPT which is based on free fetal DNA in maternal blood. For the last 11 years, we have tried to answer some critical questions
pertaining to fetal cells and their use in prenatal diagnosis. After developing a robust technology which is both scalable and cost effective, ARCEDI Biotech, in collaboration with Aarhus University Hospital has launched the first ever
cell based NIPD in Denmark, covering approximately 17,000 pregnancies per year. Results from that clinical launch will be presented and discussed.
3:30 Refreshment Break in the Exhibit Hall with Poster Viewing
4:10 High Throughput Microchip Systems for Isolation of Fetal Trophoblasts
Cagri Savran, PhD, Professor, Purdue
University; Founder & CSO, Savran Technologies, Inc.
We have developed a patented microchip system that has the ability to capture rare trophoblasts with over 90% capture efficiency and near 100% purity, as well as deliver the targeted to the user as single cells, within less than 1.5 hours.
We will describe the basic operation of the system as well as results pertaining to the characterization and testing of the system.
4:40 Results of a Validation Study of Cell-Based NIPT Attempting 1 Mb Deletion Detection
Art Beaudet,
MD, Department of Molecular & Human Genetics, Baylor College of Medicine
We have completed analysis of over 50 samples in a pre-validation (not CAP and CLIA) study and expect to move to a CAP and CLIA validation study shorty. Results indicate the feasibility of launching a commercial test in the near future
5:10 Welcome Reception in the Exhibit Hall with Poster Viewing
6:10 Close of Day
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Tuesday, October 30
8:00 am Breakfast Breakout Roundtable Discussions
Commercialization Challenges for Fetal Cell-Based NIPT
Patrizia Paterlini-Brechot, PhD, MD, Cellular & Molecular Biology, University Paris Descartes
The Utility of Biomarkers in Pregnancy: What is Beyond NIPT
Thomas F. McElrath, PhD, Attending in Maternal-Fetal Medicine, Obstetrics and Gynecology, Brigham & Women’s Hospital
Patient Education Needs in cfDNA
Stephanie Meredith, MA, Lettercase Program/Medical Outreach Director, Human Development Institute, University of Kentucky
9:00 Chairperson’s Remarks
Peter Kolchinsky, Managing Director & Portfolio Manager, RA Capital Management
Lee Cooper, JD, MBA, Entrepreneur in Residence, RA Capital
9:05 Combining Cell-Free DNA and Circulating Fetal Cell Analysis for Non-Invasive Prenatal Screening and Diagnosis
Haichuan Zhang, PhD, CEO, Celula China Medical Technology
Co.
There are both advantages and limitations in utilizing cell free DNA or circulating fetal cell for non-invasive prenatal testing. Cell free DNA analysis is demonstrated for aneuploidy detection with high accuracy, but is limited by its
DNA fragmentation and significant amount of maternal background for accurate single gene disorders, especially the recessive genetic diseases detection. Fetal cell in maternal circulation provides a possible solution to such limitations,
but has its own challenges in reliable cell isolation and commercially viable single cell analysis. Research and development efforts of combing both cell free DNA and fetal cell approaches have been conducted by Celula, Inc. for more
than 10 years. A solution consisting of low cost cell free DNA screening for major trisomies and fetal cell isolation, identification for confirmation of anenuploidy and detection of single gene disorders from the same sample is being
developed with support from large clinical collaborations.
9:35 PANEL DISCUSSION: Grand Unified Theory of NIPT – cfDNA [AND or OR] Cell-Based NIPT
Moderator: Peter Kolchinsky, Managing Director & Portfolio Manager, RA Capital Management
Panelists: Paul Billings, PhD, CMO, Natera
Ripudaman Singh, PhD, MBA, CTO, ARCEDI Biotech Aps
What is the role of cell-based NIPT once cfDNA achieves its full potential, and what is the role of cfDNA once cell-based NIPT is a reality?
10:35 Coffee Break in the Exhibit Hall with Poster Viewing
11:15 Transitioning Prenatal Molecular Diagnosis to Neonatal Personalized Medicine
Ronald Wapner, MD, Director, Reproductive
Genetics and Vice Chair, Research, Department of Obstetrics & Gynecology, Columbia University Medical Center
Prenatal diagnostic testing now allows us to diagnose fetal disorders in which in utero treatment is available. In addition, diagnosis of the specific genetic cause of fetal structural and metabolic disorders can significantly improve
neonatal care.
11:45 Prenatal Whole Exome Sequencing: New Opportunities and Challenges
Neeta Vora, MD, Associate Professor,
Department of OB GYN, Division of Maternal-Fetal Medicine, University of North Carolina Chapel Hill
Exome sequencing has utility in determining an underlying molecular etiology when performed on fetal specimens from pregnancies with structural abnormalities where standard genetic testing (karyotype and microarray) do not provide a diagnosis.
Challenges related to genetics literacy and variant interpretation must be addressed by highly tailored pre- and post-test genetic counseling.
12:15 pm A Time to Sequence in Clinical Cytogenetics: The Need for Nucleotide Resolution
Cynthia Morton, PhD, William Lambert Richardson Professor,
Obstetrics, Gynecology & Reproductive Biology and Pathology, Harvard Medical School; Director, Cytogenetics, Brigham & Women’s Hospital
Numerical and structural abnormalities of human chromosomes have been recognized since the late 1950’s and have served as a foundation of the understanding of genetic disorders. Despite improved detection of microscopically-cryptic
genomic gains and losses by microarrays, balanced chromosome rearrangements such as translocations, inversions and insertions, present in >1 in 500 individuals, remain a challenge in clinical cytogenetics in the setting of
de novo rearrangements in prenatal diagnoses. Technological advances such as low-pass, whole-genome sequencing to define most chromosomal rearrangements, combined with knowledge of the 3D structure of the genome to predict gene
expression, underscore the importance of nucleotide resolution of chromosomal structural rearrangements for clinical interpretation.
12:45 Enjoy Lunch on Your Own
1:45 Session Break
2:15 Dessert Break in the Exhibit Hall with Poster Viewing
2:45 Chairperson’s Remarks
Thomas F. McElrath, PhD, Attending in Maternal-Fetal Medicine, Obstetrics and Gynecology, Brigham & Women’s Hospital
2:50 Prematurity Prevention: New Insights from the Maternal Genome
Louis J. Muglia, MD, PhD, Director, Division
of Human Genetics, Department of Pediatrics, Cincinnati Children’s Hospital Medical Center
Preterm birth affects 10% of pregnancies in the US, and most of these occur for unknown reasons. Evidence will be presented that genetics plays an important role in shaping maternal risk for preterm birth. Moreover, recent genome wide
association studies and whole exome sequencing studies that identify novel loci robustly associated with the risk for prematurity will be described.
3:20 Risk Stratification in Pregnancy: The Potential of Extracellular Vesicle Protein Biomarkers in Prenatal Care
Thomas F. McElrath, PhD,
Attending in Maternal-Fetal Medicine, Obstetrics and Gynecology, Brigham & Women’s Hospital
The major third trimester complications of pregnancy (preeclampsia, spontaneous preterm birth) have their origins in aberrant vascular development at the end of the first trimester. Our group has identified differences in extracellular
vesical proteins sampled at the end of the first trimester that predict increased third trimester risk. This work represents a means to stratify pregnancy associated risk during early prenatal care and constitutes a “liquid”
biopsy of the maternal-placental microenvironment.
3:50 Preventing Genetic Disease: From Innovator to Patient, and Back Again
Lee Cooper, JD, MBA, Entrepreneur in
Residence, RA Capital
Framed around the inherent market challenges of prevention versus treatment, I will discuss a first-hand experience of going from drug development to a personal odyssey in genetic disease and reproductive genetics. I will leave the audience
with a view toward the ways that consumer-driven demand is going to shape the future of reproductive genetics, and where I see the field going in terms of both market and non-market actors.
4:20 CLOSING PANEL: Predicting the Landscape for Prenatal Molecular Diagnostics: The Next Few Years
Patrizia Paterlini-Brechot, PhD, MD, Cellular & Molecular Biology, University Paris Descartes
Ronald Wapner, MD, Director, Reproductive Genetics and Vice Chair, Research, Department of Obstetrics & Gynecology, Columbia University Medical Center
Art Beaudet, MD, Department of Molecular & Human Genetics, Baylor College of Medicine
Cynthia Morton, PhD, William Lambert Richardson Professor, Obstetrics, Gynecology & Reproductive Biology and Pathology, Harvard Medical School; Director, Cytogenetics, Brigham & Women’s Hospital
There are a number of advancements that the prenatal field will pursue: cell-based NIPT, NIPT for microdeletions, biomarkers for preeclampsia and preterm birth, and ultimately patient and physician education. This panel will discuss future
directions for the field and potential directions for these areas.
4:50 Close of Conference
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