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ID# CC005

Rapid Identification of Ocular Fungal and Amoebic Pathogens

Drs. Eduardo C. Alfonso and Jack W. Fell

Problem

Currently, diagnosis of fungal eye infections is a clinical and therapeutic challenge. Typically such infections are diagnosed as bacterial because of similar clinical features. Fungal involvement is usually suspected only after antibiotic therapy has failed. Since eye infections progress rapidly and can have devastating and irreversible effects, failure to recognize the causative agent and apply appropriate therapy has serious consequences.

Solution

To address the unmet clinical need, a quick DNA test using bead array technology for the rapid identification of fungal and ameobic pathogens in infected ocular tissues is being developed. The assay will combine the specificity and reliability of nucleic acid hybridization analysis, with the speed and sensitivity of Luminex instrumentation. The bead suspension array allows combination of up to 100 different unique fluorescence microspheres, with the capability to identify up to 100 pathogenic species per well in a 96 well format at an estimated rate of 0.47 min.

Competitive Advantage

High speed and high sensitivity for rapid and accurate diagnosis Inexpensive Versatile as a variety of probes can be added or subtracted to create different arrays that can be employed in a wide variety of applications

Applications

The technology could potentially be used to target all medically important ocular fungal pathogens for direct detection from clinical samples. Contrary to gene chips, the present technology is inexpensive and versatile, as a variety of probes can be added or subtracted to create different arrays that can be employed in a wide variety of applications. The technology will help to reduce morbidity by allowing rapid and accurate medical treatment of fungal eye infections. This multiplex, DNA bead suspension array can be expanded to include other ocular disease microorganisms, particularly bacteria and protozoans. The technology can also be employed in relevant areas of public health, bioterrorism, food safety and the environment.

Patent Status

US and PCT Applications Pending.

Licensing Opportunity

The University of Miami is seeking collaborative research and licensing options.

About the Inventors

Eduardo C. Alfonso, MD, is the Interim Chairman of the Department of Ophthalmology, Director of the Bascom Palmer Eye Institute and Medical Director of the Anne Bates Leach Eye Hospital, at the Miller School of Medicine, University of Miami. A cornea specialist, Dr. Alfonso has a special interest in corneal transplants. He is an internationally known expert on ocular infectious diseases. In 2006 he documented an increase in the incidence of an aggressive form of fungal corneal infection that was related to soft contact lens use. His findings drew considerable media attention throughout the world and significantly reduced the number of new infections.

Jack Fell, Ph.D., is a Professor of Microbiology at the Rosenstiel School of Marine and Atmospheric Science, University of Miami. Dr. Fell’s research interests include studies on the role of fungi in marine food webs and adapting molecular systematics for rapid identification of marine and terrestrial microbes using technologies such as suspension arrays and electrochemistry. He has developed several high through put techniques (patents pending) for rapid detection of various pathogens which have been licensed to industry for commercial exploitation. He, and co-inventor Dr. Mara Diaz, developed several high through put techniques (patents pending) for rapid detection of various pathogens which have been licensed to industry for commercial exploitation.

Selected References

Dursun D, Fernandez V, Miller D, Alfonso EC. Advanced Fusarium keratitis progressing to endophthalmitis. Cornea 2003; 22: 300-3.
Rosa RH Jr, Miller D, Alfonso EC. The changing spectrum of fungal keratitis in south Florida. Ophthalmol 1994; 101: 1005-1013. Alfonso EC, Mandelbaum S, Fox MJ, Forster RK. Ulcerative keratitis associated with contact lens wear. Am J Ophthalmol 1986; 101: 429-433. Koidou-Tsiligianni A, Alfonso E, Forster RK. Ulcerative keratitis associated with contact lens wear. Am J Ophthalmol 1989 ; 108: 64-67. Liesegang TJ, Forster RK. Spectrum of microbial keratitis in South Florida. Am J Ophthalmol 1980; 90: 38-47. Tanure MAG, Cohen EJ, Sudesh S, et al. Spectrum of fungal keratitis at Wills Eye Hospital, Philadelphia, Pennsylvania. Cornea 2000; 19: 307-12. Ritterband DC, Seedor JA, Shah MK, et al. Fungal keratitis at the New York Eye and Ear Infirmary. Cornea 2006; 25: 264-7. Alfonso EC, Cantu-Dibildox J, Munir WM, et al. Insurgence of Fusarium keratitis associated with contact lens wear. Arch Ophthalmol 2006; In Press. Dalhoff A, Shalit I. Immunomodulatory effects of quinolones. The Lancet 2003; 3: 359-71.

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