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Literature DB >> 19343660

Microfluidics and photonics for Bio-System-on-a-Chip: a review of advancements in technology towards a microfluidic flow cytometry chip.

Jessica Godin¹, Chun-Hao Chen, Sung Hwan Cho, Wen Qiao, Frank Tsai, Yu-Hwa Lo.

Abstract

Microfluidics and photonics come together to form a field commonly referred to as 'optofluidics'. Flow cytometry provides the field with a technology base from which both microfluidic and photonic components be developed and integrated into a useful device. This article reviews some of the more recent developments to familiarize a reader with the current state of the technologies and also highlights the requirements of the device and how researchers are working to meet these needs.

Entities: CellLine Chemical Disease Species

Mesh：

Year: 2008 PMID： 19343660 PMCID： PMC2746115 DOI： 10.1002/jbio.200810018

Source DB: PubMed Journal: J Biophotonics ISSN： 1864-063X Impact factor: 3.207

52 in total

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Journal: Lab Chip Date: 2004-04-20 Impact factor: 6.799

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Journal: Annu Rev Med Date: 2005 Impact factor: 13.739

4. On-chip free-flow magnetophoresis: continuous flow separation of magnetic particles and agglomerates.

Authors: Nicole Pamme; Andreas Manz
Journal: Anal Chem Date: 2004-12-15 Impact factor: 6.986

Review 5. Lab-on-a-chip devices for global health: past studies and future opportunities.

Authors: Curtis D Chin; Vincent Linder; Samuel K Sia
Journal: Lab Chip Date: 2006-10-27 Impact factor: 6.799

6. DC-dielectrophoretic separation of microparticles using an oil droplet obstacle.

Authors: Irena Barbulovic-Nad; Xiangchun Xuan; Jacky S H Lee; Dongqing Li
Journal: Lab Chip Date: 2005-12-20 Impact factor: 6.799

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Journal: Proc Natl Acad Sci U S A Date: 2005-10-18 Impact factor: 11.205

8. Single particle high resolution spectral analysis flow cytometry.

Authors: Gregory Goddard; John C Martin; Mark Naivar; Peter M Goodwin; Steven W Graves; Robb Habbersett; John P Nolan; James H Jett
Journal: Cytometry A Date: 2006-08-01 Impact factor: 4.355

9. Dynamically reconfigurable liquid-core liquid-cladding lens in a microfluidic channel.

Authors: Sindy K Y Tang; Claudiu A Stan; George M Whitesides
Journal: Lab Chip Date: 2008-01-14 Impact factor: 6.799

10. Model study detecting breast cancer cells in peripheral blood mononuclear cells at frequencies as low as 10(-7).

Authors: H J Gross; B Verwer; D Houck; R A Hoffman; D Recktenwald
Journal: Proc Natl Acad Sci U S A Date: 1995-01-17 Impact factor: 11.205

38 in total

1. An optical-coding method to measure particle distribution in microfluidic devices.

Authors: Tsung-Feng Wu; Zhe Mei; Luca Pion-Tonachini; Chao Zhao; Wen Qiao; Ashkan Arianpour; Yu-Hwa Lo
Journal: AIP Adv Date: 2011-06-29 Impact factor: 1.548

2. Cell analysis using a multiple internal reflection photonic lab-on-a-chip.

Authors: Jordi Vila-Planas; Elisabet Fernández-Rosas; Bergoi Ibarlucea; Stefanie Demming; Carme Nogués; Jose A Plaza; Carlos Domínguez; Stephanus Büttgenbach; Andreu Llobera
Journal: Nat Protoc Date: 2011-09-29 Impact factor: 13.491

3. Three-dimensional cellular focusing utilizing a combination of insulator-based and metallic dielectrophoresis.

Authors: Ching-Te Huang; Cheng-Hsin Weng; Chun-Ping Jen
Journal: Biomicrofluidics Date: 2011-10-03 Impact factor: 2.800

4. Hydrodynamic self-focusing in a parallel microfluidic device through cross-filtration.

Authors: S Torino; M Iodice; I Rendina; G Coppola; E Schonbrun
Journal: Biomicrofluidics Date: 2015-11-20 Impact factor: 2.800

5. Label-free Optofluidic Cell Classifier Utilizing Support Vector Machines.

Authors: Tsung-Feng Wu; Zhe Mei; Yu-Hwa Lo
Journal: Sens Actuators B Chem Date: 2013-09 Impact factor: 7.460

6. An integrated, multiparametric flow cytometry chip using "microfluidic drifting" based three-dimensional hydrodynamic focusing.

Authors: Xiaole Mao; Ahmad Ahsan Nawaz; Sz-Chin Steven Lin; Michael Ian Lapsley; Yanhui Zhao; J Philip McCoy; Wafik S El-Deiry; Tony Jun Huang
Journal: Biomicrofluidics Date: 2012-04-20 Impact factor: 2.800