Cell Separation Device using High Electromagnetic Gradients through a Particle-based Microfluidic Approach
- 技术优势
- Simple mechanism is less costly to produce than conventional magnetic cell sorting mechanisms. Significant increase in induced magnetic force, with initial results showing the new design with metal particles to be three times as strong as magnet-only setup. Proposed technique can be extended in producing high-throughput microfluidic cell separation array, performing multiple cell separation events in one single step.
- 技术应用
- Efficient cell separation in clinical or research laboratories to replace differential centrifugation separation. Isolation or depletion of cells from various starting samples, such as whole blood, spleen, lymph nodes or thymus. Sorting of cells to facilitate cell therapies in oncology patients receiving high-dose chemotherapy.
- 详细技术说明
- A new, optimized microfluidic channel design for maximized cell separation has been developed at UCLA. The device utilizes small metal particles to concentrate magnetic fields, routing the media through a simplified setup that can efficiently separate cells using magnetic beads. The force exerted on the magnetic beads flowing through the new design with the metal particles was markedly increased than a conventional magnet-only setup. The large magnetic field gradient generated from the new design translates into an enhanced magnetic force for cell/bead manipulation or separation.
- *Abstract
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A new fabrication method for a microfluidic cell separation device has been developed by UCLA investigators. The proposed design exerts significantly more magnetic force than conventional setups, while realizing low cost of production.
- *IP Issue Date
- Oct 8, 2013
- *Principal Investigation
-
Name: Adam Yuh Lin
Department:
Name: Tak Sing Wong
Department:
- 附加资料
- Patent Number: US8551333B2
Application Number: US2009594179A
Inventor: Lin, Adam Yuh | Wong, Tak Sing
Priority Date: 5 Apr 2007
Priority Number: US8551333B2
Application Date: 30 Sep 2009
Publication Date: 8 Oct 2013
IPC Current: B03C000102 | C12M000100
US Class: 210222 | 25206251R | 4220681 | 422502 | 422504 | 422527 | 4352872 | 4353081 | 436526 | 436806
Assignee Applicant: The Regents of the University of California
Title: Particle-based microfluidic device for providing high magnetic field gradients
Usefulness: Particle-based microfluidic device for providing high magnetic field gradients
Summary: As microfluidic device for manipulation of particles in a fluid; in microfluidic particle-manipulation system (claimed); for generating high magnetic field gradients in microfluidic channels; and as magnetic micro-electrical-mechanical systems (MEMS) fluidic devices used in cell separation.
Novelty: Microfluidic device for manipulating particles in fluid used in microfluidic particle-manipulation system comprises device body defining main channel having inlet/outlet and further defining particulate diverting channel; and microparticles
- 主要类别
- 电子
- 细分类别
- 半导体
- 申请号码
- 8551333
- 其他
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Background
Organizing and separating cells is a fundamental function in the research of biochemical systems. Cell separation methods that utilize electromagnetic forces in particular are useful in research applications, where magnetic beads can be linked with antibodies to ensure specific interaction with target cells. Conventional magnetic cell separator devices require multi-layered, complicated fabrication process to incorporate magnetic materials with the microfluidic channels. Furthermore, high magnetic field gradient are difficult to generate in microfluidic devices such as Micro Total Analysis Systems. The complexity and limitations of the current devices hinders increased utilization of cell separation techniques, prompting a need for a more economical design that would make high-yield separations more accessible to a variety of research applications.
Tech ID/UC Case
20251/2007-477-0
Related Cases
2007-477-0
- 国家/地区
- 美国
