A centrifugal fluidic immunoassay for ocular diagnostics with an enzymatically hydrolyzed fluorogenic substrate.

We present a novel "Lab-on-a-Disk" platform and demonstrate its capability for rapid and sensitive measurement of vascular endothelial growth factor (VEGF) intended for patients suffering from diabetic retinopathy (DR) and age-related macular degeneration (AMD). This approach combines sedimentation principles applied to microspheres under centrifugal force with signal amplification using an enzyme and a fluorogenic substrate for readout. The simple single channel per assay platform separates, washes and concentrates antibody-coated microspheres from excess label to produce a sensitive fluorogenic response proportional to the amount of VEGF in the sample. This platform has comparable sensitivity to conventional ELISA and can generate a readout within 16-18 min with no sample preparation beyond mixing assay reagents and loading on the disk. In the context of ocular diagnostics, this device has the potential to facilitate accurate dosing of anti-VEGF medications utilized to treat DR and AMD, as well as identify patients whose ocular VEGF levels are not elevated and who would therefore not benefit from standard anti-VEGF medications.

[1]  K. M. Selim,et al.  Increased levels of vascular endothelial growth factor in the aqueous humor of patients with diabetic retinopathy , 2010, Indian journal of ophthalmology.

[2]  Matthias Bolz,et al.  ANGIOGENIC AND INFLAMMATORY MARKERS IN THE INTRAOCULAR FLUID OF EYES WITH DIABETIC MACULAR EDEMA AND INFLUENCE OF THERAPY WITH BEVACIZUMAB , 2010, Retina.

[3]  Tae-Hyeong Kim,et al.  Lab-on-a-disc for fully integrated multiplex immunoassays. , 2012, Analytical Chemistry.

[4]  Glenn J Jaffe,et al.  Ranibizumab and bevacizumab for neovascular age-related macular degeneration. , 2011, The New England journal of medicine.

[5]  H. Yamashita,et al.  Aqueous humor levels of cytokines are related to vitreous levels and progression of diabetic retinopathy in diabetic patients , 2004, Graefe's Archive for Clinical and Experimental Ophthalmology.

[6]  Jintae Kim,et al.  Centrifugal microfluidics for biomedical applications. , 2010, Lab on a chip.

[7]  U. Schaff,et al.  Whole blood immunoassay based on centrifugal bead sedimentation. , 2011, Clinical chemistry.

[8]  G. Shah,et al.  Neovascular age-related macular degeneration and anti-VEGF nonresponders , 2010 .

[9]  B. Klein,et al.  Overview of epidemiologic studies of diabetic retinopathy. , 2007, Ophthalmic epidemiology.

[10]  R. Schlingemann,et al.  Treatment of retinal diseases with VEGF antagonists. , 2009, Progress in brain research.

[11]  Macdara Glynn,et al.  Centrifugal microfluidics for cell analysis. , 2012, Current opinion in chemical biology.

[12]  David M. Rissin,et al.  Single-Molecule enzyme-linked immunosorbent assay detects serum proteins at subfemtomolar concentrations , 2010, Nature Biotechnology.

[13]  P. Yager,et al.  Point-of-care diagnostics for global health. , 2008, Annual review of biomedical engineering.

[14]  T. Mimura,et al.  Aqueous Humor Levels of Vasoactive Molecules Correlate with Vitreous Levels and Macular Edema in Central Retinal Vein Occlusion , 2010 .

[15]  Mary Amasia,et al.  Lab-on-DVD: standard DVD drives as a novel laser scanning microscope for image based point of care diagnostics. , 2013, Lab on a chip.

[16]  L. Aiello,et al.  Vascular endothelial growth factor in ocular fluid of patients with diabetic retinopathy and other retinal disorders. , 1994, The New England journal of medicine.

[17]  Linan Song,et al.  Multiplexed single molecule immunoassays. , 2013, Lab on a chip.

[18]  R. Zengerle,et al.  Microfluidic lab-on-a-chip platforms: requirements, characteristics and applications. , 2010, Chemical Society reviews.

[19]  S. Resnikoff,et al.  Global data on visual impairment in the year 2002. , 2004, Bulletin of the World Health Organization.

[20]  Tae-Hyeong Kim,et al.  Fully integrated lab-on-a-disc for simultaneous analysis of biochemistry and immunoassay from whole blood. , 2011, Lab on a chip.