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CD326 (EpCAM) MicroBeads, human | Tumor cells | MicroBeads and Isolation Kits | Cell separation reagents | MACS Cell Separation | Products and services | USA
CD326 (EpCAM) MicroBeads, human | Tumor cells | MicroBeads and Isolation Kits | Cell separation reagents | MACS Cell Separation | Products and services | USA

MagVigen™ - Anti-EpCAM, Human Nanoparticles/Kit - NVIGEN
MagVigen™ - Anti-EpCAM, Human Nanoparticles/Kit - NVIGEN

Cells | Free Full-Text | Epithelial Cell Adhesion Molecule: An Anchor to Isolate Clinically Relevant Circulating Tumor Cells
Cells | Free Full-Text | Epithelial Cell Adhesion Molecule: An Anchor to Isolate Clinically Relevant Circulating Tumor Cells

Efficient Purification and Release of Circulating Tumor Cells by Synergistic Effect of Biomarker and SiO2@Gel‐Microbead‐Based Size Difference Amplification - Huang - 2016 - Advanced Healthcare Materials - Wiley Online Library
Efficient Purification and Release of Circulating Tumor Cells by Synergistic Effect of Biomarker and SiO2@Gel‐Microbead‐Based Size Difference Amplification - Huang - 2016 - Advanced Healthcare Materials - Wiley Online Library

Clinical verification of vimentin/EpCAM immunolipid magnetic sorting system in monitoring CTCs in arterial and venous blood of advanced tumor | Journal of Nanobiotechnology | Full Text
Clinical verification of vimentin/EpCAM immunolipid magnetic sorting system in monitoring CTCs in arterial and venous blood of advanced tumor | Journal of Nanobiotechnology | Full Text

Performance Enhancement of Electrochemiluminescence with the Immunosensor Controlled Using Magnetized Masks for the Determination of Epithelial Cancer Biomarker EpCAM | Analytical Chemistry
Performance Enhancement of Electrochemiluminescence with the Immunosensor Controlled Using Magnetized Masks for the Determination of Epithelial Cancer Biomarker EpCAM | Analytical Chemistry

In situ signal amplification improves the capture efficiency of circulating tumor cells with low expression of EpCAM - ScienceDirect
In situ signal amplification improves the capture efficiency of circulating tumor cells with low expression of EpCAM - ScienceDirect

The detection of EpCAM+ and EpCAM– circulating tumor cells | Scientific Reports
The detection of EpCAM+ and EpCAM– circulating tumor cells | Scientific Reports

Usefulness of Immuno-Magnetic Beads Conjugated with Anti-EpCAM Antibody for Detecting Endometrial Cancer Cells
Usefulness of Immuno-Magnetic Beads Conjugated with Anti-EpCAM Antibody for Detecting Endometrial Cancer Cells

Isolation of Rare Tumor Cells from Blood Cells with Buoyant Immuno-Microbubbles | PLOS ONE
Isolation of Rare Tumor Cells from Blood Cells with Buoyant Immuno-Microbubbles | PLOS ONE

Immunobeads for capture of EpCAM positive exosomes 1 micron - Galen Laboratory Supplies
Immunobeads for capture of EpCAM positive exosomes 1 micron - Galen Laboratory Supplies

Usefulness of Immuno-Magnetic Beads Conjugated with Anti-EpCAM Antibody for Detecting Endometrial Cancer Cells
Usefulness of Immuno-Magnetic Beads Conjugated with Anti-EpCAM Antibody for Detecting Endometrial Cancer Cells

Cancers | Free Full-Text | Deciphering HER2-HER3 Dimerization at the Single CTC Level: A Microfluidic Approach
Cancers | Free Full-Text | Deciphering HER2-HER3 Dimerization at the Single CTC Level: A Microfluidic Approach

Integration of Magnetic Bead-Based Cell Selection into Complex Isolations | ACS Omega
Integration of Magnetic Bead-Based Cell Selection into Complex Isolations | ACS Omega

Recombinant Human EpCAM/TROP1 Fc Alexa Fluor® 647 Protein AFR960-020: R&D Systems
Recombinant Human EpCAM/TROP1 Fc Alexa Fluor® 647 Protein AFR960-020: R&D Systems

Isolation of epithelial cells using anti-EpCAM antibodies labeled with... | Download Scientific Diagram
Isolation of epithelial cells using anti-EpCAM antibodies labeled with... | Download Scientific Diagram

Frontiers | Distribution and Clinical Analysis of EpCAM+/Vimentin+ Circulating Tumor Cells in High-Risk Population and Cancer Patients
Frontiers | Distribution and Clinical Analysis of EpCAM+/Vimentin+ Circulating Tumor Cells in High-Risk Population and Cancer Patients

Photoresponsive immunomagnetic nanocarrier for capture and release of rare circulating tumor cells - Chemical Science (RSC Publishing) DOI:10.1039/C5SC01380A
Photoresponsive immunomagnetic nanocarrier for capture and release of rare circulating tumor cells - Chemical Science (RSC Publishing) DOI:10.1039/C5SC01380A

Functions of EpCAM in physiological processes and diseases (Review)
Functions of EpCAM in physiological processes and diseases (Review)

EpCAM (D1B3) Rabbit mAb | Cell Signaling Technology
EpCAM (D1B3) Rabbit mAb | Cell Signaling Technology

High-yield enrichment of mouse small intestine intraepithelial lymphocytes by immunomagnetic depletion of EpCAM+ cells
High-yield enrichment of mouse small intestine intraepithelial lymphocytes by immunomagnetic depletion of EpCAM+ cells

BMI-EPCAMAb35-Beads | Mouse Anti-Human EpCAM [Clone EpAb3-5] - Magnetic
BMI-EPCAMAb35-Beads | Mouse Anti-Human EpCAM [Clone EpAb3-5] - Magnetic

EpCAM homo-oligomerization is not the basis for its role in cell-cell adhesion | Scientific Reports
EpCAM homo-oligomerization is not the basis for its role in cell-cell adhesion | Scientific Reports

Microslit on a chip: A simplified filter to capture circulating tumor cells enlarged with microbeads | PLOS ONE
Microslit on a chip: A simplified filter to capture circulating tumor cells enlarged with microbeads | PLOS ONE

Immunoengineered magnetic-quantum dot nanobead system for the isolation and detection of circulating tumor cells | Journal of Nanobiotechnology | Full Text
Immunoengineered magnetic-quantum dot nanobead system for the isolation and detection of circulating tumor cells | Journal of Nanobiotechnology | Full Text