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SELECTBIO Conferences Microfluidics for Circulating Biomarkers Summit 2019

Microfluidics for Circulating Biomarkers Summit 2019 Agenda


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Thursday, 10 October 2019

08:30

Conference Registration, Materials Pick-Up, Morning Coffee and Pastries


Venue: Coronado Ballroom 7

09:00

Hsueh-Chia ChangKeynote Presentation

Multiplex Liquid Biopsy Platform for Fractionation of Heterogeneous Vesicles and Precision Analyses of Their RNA Cargo
Hsueh-Chia Chang, Bayer Professor of Engineering, University of Notre Dame, United States of America

Extracellular RNAs in blood are promising circulating biomarkers.  However, as they can be easily degraded, extracellular RNAs must form complexes with proteins or are encapsulated by liposomes, exosomes or microvesicles to remain stable.  As a result, stable RNA biomarkers, like mRNA and miRNA, are carried by a heterogeneity of nanocarriers in blood with wide size, electrophoretic mobility and isoelectric point distributions.  Due to their different biogenesis, these carriers have specific surface proteins and are often selective in their choice of RNA cargoes.  To offer more precise quantification of the circulating RNA biomarkers, we have developed a suite of microfluidic modules that can fractionate the carriers by size, surface proteins and isoelectric point.  Size-based separation is achieved by an asymmetric nanoporous membrane whose conic pores reduce hydrodynamic resistance and vesicle fusion.  Extensive rinsing can be carried out to remove free-floating contaminating proteins like albumin.  We also developed several lysing modules that can lyse the vesicles and dissociate the complexes non-chemically, such that low-yield extraction can be eliminated as an intermediate step.  We integrate these modules with our membrane sensor, digital PCR module and nanopore sensor for RNA identification and quantification to achieve an integrated multiplexed platform for precise profiling of RNA cargoes in fractionated carriers.  Some of the upstream modules can also be integrated into a pretreatment platform for NGS.

09:45

Lydia SohnKeynote Presentation

Title to be Confirmed.
Lydia Sohn, Professor of Mechanical Engineering, University of California-Berkeley, United States of America

10:30

Morning Coffee Break and Networking

11:15

Microfluidic Strategies for Isolation and Enrichment of Circulating Biomarkers
Hyo-Il Jung, Professor, Yonsei University, Korea South

Cancer-derived materials can be obtained from various body fluids (liquid biopsy) using a minimally invasive manner and provide information for disease progression in real-time. Circulating biomarkers (CBs) analyzable through such liquid biopsy include circulating tumor cells (CTCs), exosomes, circulating cell-free DNA (cfDNA), miRNA, and proteins. Microfluidic devices for the isolation and detection of CBs have been actively developed because they can be utilized for the fields of diagnosis, prognosis, and treatment. However, owing to the rarity and heterogeneity of CTCs, CTC research should have overcome technical hurdles. Exosomes and cfDNA are being highlighted as new target materials because they also have genetic information on cancers. In this presentation, several microfluidic technologies for circulating biomarkers will be introduced and discussed for the future directions in cancer screening, detection, and diagnostics.

12:00

Redbud LabsCartridge-Ready Isolation and Concentration of Extracellular Vesicles
Richard Spero, CEO, Redbud Labs

Despite decades of innovation, there is no accepted standard for isolation of circulating biomarkers in microfluidic systems. This creates a problem for developers of new biomarker assays and liquid biopsy tests. Traditional sample prep methods such as ultracentrifugation, affinity sorting with magnetic beads, or micro-filtration are acceptable for use in a discovery environment. However, these methods do not translate effectively to microfluidic cartridges, so promising assays must be completely re-implemented when moving from the bench to an integrated system. We present our work on a high-performance sample prep method for circulating biomarkers that translates easily from the bench to a microfluidic cartridge.

12:45

Networking Lunch

14:00

Maiwenn Kersaudy-KerhoasKeynote Presentation

Near-Patient, Automated Platform for Rapid Microfluidic Extraction of Circulating Nucleic Acids from Milliliter Volumes of Whole Blood
Maiwenn Kersaudy-Kerhoas, Associate Professor, School of Engineering and Physical Sciences, Heriot-Watt University, United Kingdom

Extracellular plasma circulating cell-free nucleic acids (CNAs) are promising clinical biomarkers but their measurement remains time-consuming, technically challenging and expensive. For CNAs to have an impact on healthcare, a key challenge to overcome is the development of rapid and reliable low-cost sample preparation. There is an acknowledged issue around CNAs stability in the presence of hemolysis, and few solutions for fast and robust extraction at the site of blood draw. We demonstrate a microfluidic system able to perform the extraction of circulating miRNAs from several milliliters of whole blood in a single disposable fluidic cartridge, on a fully automated platform, delivering a stable elution of CNAs in less than 45 minutes. The biological characterization of the eluates include qPCR, fluorometric and spectrophotometric analysis, and automated electrophoresis for fragment analysis. This platform enables the standardization of sample preparation at the point of blood draw and in resource limited settings and could aid the introduction of CNAs-based assays into routine clinical practice.

14:45

Hsian-Rong TsengKeynote Presentation

Nanostructures-Embedded Microchips for Liquid Biopsy in Cancer
Hsian-Rong Tseng, Professor, Crump Institute for Molecular Imaging, California NanoSystems Institute, University of California-Los Angeles, United States of America

The current gold standard for cancer diagnosis is the characterization of tumor tissues acquired via invasive procedures, e.g., surgical excision or needle biopsy. As an alternative to solid tumor biopsy, many have proposed the use of a “liquid biopsy” based on blood components like circulating tumor cells (CTCs) and extracellular vesicles (EVs). By detecting, enriching, and analyzing CTCs and EVs, we will be able to noninvasively and dynamically monitor disease progression in individual cancer patients and obtain insightful information for assessing disease status. Over the past decade, our research team at UCLA pioneered a unique concept of “NanoVelcro” CTC Chips and “NanoVilli” EV Chips, in which CTC and EV capture agent-coated nanostructured substrates were utilized to immobilize CTCs and EVs with remarkable efficiency, respectively. Multiple generations of NanoVelcro CTC and NanoVilli EV Chips have been developed over the past decade for a variety of clinical utilities, e.g., noninvasive molecular analysis for monitoring disease progression and treatment intervention.  In this presentation, I will summarize the development of the new generations of “NanoVelcro” CTC and “NanoVilli” EV Chips, and the clinical applications of these new in vitro molecular diagnostic (IVMD) devices for cancer.

15:30

Dominique PV de KleijnKeynote Presentation

Extracellular Vesicles For Early Diagnosis of Stable Angina in a General Practitioner Environment
Dominique PV de Kleijn, Professor Experimental Vascular Surgery, Professor Netherlands Heart Institute, University Medical Center Utrecht, The Netherlands, Netherlands

Cardiovascular Disease (CVD) is with cardiovascular events of Ischemic Heart Disease (IHD) and Stroke, the number 1 and 2 cause of death in the world.

Stable Coronary Artery Disease (SCAD) or Stable Angina (SA) is one of the entities of IHD but in contrast to hsTroponins for myocardial infarction, there is no bloodmarker for quick and easy diagnosis.
SA is a very common disease (10-14% in the age group of 65-84 years) and a serious pathology resulting in a 4-6 times higher change of cardiovascular events like myocardial infarction. SA diagnosis is challenging, as many patients present with atypical symptoms with women have a different symptom sensation than men. This results in that 90% of women with chest pain suspected for SA are referred to the hospital by the GP do not have SA.
A simple SA early diagnosis blood test is expected to allow GPs to improve their assessment and decisons to refer or not to refer a patient to a cardiologist, reducing care costs and efficiency of care trajectories.
We have now a validated protein signature measured  in subsets of plasma extracellular vesicle (EV) that can accurately diagnose SA in women using 25 ul plasma. We simplified and validated this EV-based blood assay and will now develop a microfluidic device to isolate plasma EV subsets and determine EV biomarker levels that will make early diagnosis of SA in the GP environment possible.
Such a microfluidic device will also be very useful in other POC applications using EV subsets in diagnosis and prognosis of cardiovascular disease in GP or ambulance.

16:15

Negative Enrichment and Gene Expression Analysis of CTCs by Using a Microfluidic Device
Liang Zhao, Assistant Professor, University of Science and Technology Beijing, China

Traditional methods for CTCs capture and analysis are usually utilize speci?c antibody to isolate CTCs from periphery blood. However, some circulating tumor cells that are undergoing epithelia-mesenchymal transformation may lose its surface antigen which was speci?cally expressed in epithelial cells. Herein, we developed a micro?uidic device for capturing CTCs and analysis without bias from whole blood by negative depletion of red blood cells (RBCs) and white blood cells (WBCs) off-chip. The operation is ultimately easy and interested CTCs could be distinguished and retrieved for further molecular analysis.

17:00

Kendall Van Keuren-JensenKeynote Presentation

Using exRNAs to Diagnose Diseases and Injuries of the Central Nervous System
Kendall Van Keuren-Jensen, Associate Professor, Translational Genomics Research Institute, United States of America

A variety of RNAs are secreted into biofluids by every cell type, packaged within extracellular vesicles (EVs) or bound to proteins. exRNAs present in multiple biofluids can act as potential prognostic or predictive biomarkers of a wide range of diseases and injuries.

17:45

Round-Table Discussion on the Deployment of Microfluidics Technologies for Liquid Biopsy Development

18:30

Beer and Wine and Networking

19:30

Close of Conference Day


Add to Calendar ▼2019-10-10 00:00:002019-10-10 00:00:00Europe/LondonMicrofluidics for Circulating Biomarkers Summit 2019Microfluidics for Circulating Biomarkers Summit 2019 in Coronado Island, CaliforniaCoronado Island, CaliforniaSELECTBIOenquiries@selectbiosciences.com