Diffractive Micro Bar Codes for Encoding of Biomolecules in Multiplexed Assays

Broder, Graham R.; Ranasinghe, Rohan T.; She, Joseph; Banu, Shahanara; Birtwell, S.; Cavalli, Gabriel; Galitonov, G.; Holmes, David; Martins, Hugo F.; MacDonald, Kevin F.; Neylon, Cameron; Zheludev, Nikolay I.; Roach, Peter L.; Morgan, Hywel

doi:10.1021/ac7018574

Cited by 32 publications

(50 citation statements)

References 36 publications

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“…SU8 has very good structural properties (Abgrall et al 2007), and features can be quickly and easily defined in a single step photolithography process using standard microfabrication equipment. The residual epoxide groups left on the SU8 surface after polymerization can easily be modified for the attachment (Broder et al 2008) and solid phase synthesis (Cavalli et al 2007;Qvortrup et al 2011) of a wide range of molecules, and biological assay demonstrations on SU8 (Broder et al 2008) show that it is a highly suitable material for suspension array applications. We describe a high capacity encoding method for SU8 microparticles, together with a microfluidic platform for particle alignment during imaging, and custom image analysis software for robust, high throughput readout of assay response and particle codes.…”

Section: Introductionmentioning

confidence: 99%

Multiplexed suspension array platform for high-throughput protein assays

Birtwell

Broder

Roach

et al. 2012

Biomed Microdevices

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A multiplexed suspension array platform, based on SU8 disks patterned with machine-readable binary identification codes is presented. Multiple probe molecules, each attached to individual disks with different unique codes, provide multiplexed detection of targets in a small sample volume. The experimental system consists of a microfluidic chamber for arraying the particles in a manner suitable for high throughput imaging using a simple fluorescent microscope, together with custom software for automated code readout and analysis of assay response. The platform is demonstrated with a multiplexed antibody assay targeting 3 different human inflammatory cytokines. The suitability of the platform for other bio-analytical applications is discussed.

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Section: Introductionmentioning

confidence: 99%

Multiplexed suspension array platform for high-throughput protein assays

Birtwell

Broder

Roach

et al. 2012

Biomed Microdevices

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“…We have previously used SU8 to manufacture micronmetresized bars (i.e. beads) encoded with diffraction gratings and demonstrated multiplexed assays [19]. The particles have also been used in conventional multistep solid-state synthesis of oligonucleotides and peptides [20].…”

Section: Introductionmentioning

confidence: 99%

Holographically encoded microparticles for bead-based assays

Birtwell

Banu

Zheludev

et al. 2009

J. Phys. D: Appl. Phys.

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We demonstrate a re-writable, high capacity holographic encoding technique for multiplexed bead-based suspension assays. The microparticles are made from SU8 doped with a photochromic diarylethene dye and manufactured using multilayer photolithography and dry etching. Each particle is encoded with a unique hologram, whose diffraction pattern consists of bright and dark regions, representing a binary number that identifies the particle. Theoretically up to 10 24 unique codes are available on a 100 µm particle using this method, when the code is read with a standard 2/3 CMOS camera. Encoding capacities of 512 unique codes have been demonstrated on a 500 µm SU8 particle. The code is thermally stable for 3 days at 25 • C, and once written, the code can be erased and re-written once whilst still remaining readable. The code can be written into the particle during an assay experiment (no pre-encoding is required) and requires simple optics for reading.

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“…24,25 Recently, a swelling-deswelling method for the facile surface modication of 2D and 3D patterns of SU-8 has been described, demonstrating the oligonucleotide attachment.…”

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confidence: 99%

Development of a versatile biotinylated material based on SU-8

et al. 2013

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The negative epoxy-based SU-8 photoresist has a wide variety of applications within the semiconductor industry, photonics and lab-on-a-chip devices, and it is emerging as an alternative to silicon-based devices for sensing purposes. In the present work, biotinylation of the SU-8 polymer surface promoted by light is reported. As a result, a novel, effective, and low-cost material, focusing on the immobilization of bioreceptors and consequent biosensing, is developed. This material allows the spatial discrimination depending on the irradiation of desired areas. The most salient feature is that the photobiotin may be directly incorporated into the SU-8 curing process, consequently reducing time and cost. The potential use of this substrate is demonstrated by the immunoanalytical detection of the synthetic steroid gestrinone, showing excellent performances. Moreover, the naked eye biodetection due to the transparent SU-8 substrate, and simple instrumental quantification are additional advantages.

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Diffractive Micro Bar Codes for Encoding of Biomolecules in Multiplexed Assays

Cited by 32 publications

References 36 publications

Multiplexed suspension array platform for high-throughput protein assays

Multiplexed suspension array platform for high-throughput protein assays

Holographically encoded microparticles for bead-based assays

Development of a versatile biotinylated material based on SU-8

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