International team of researchers develop new model for earlier treatments for AMD
Queen's University Belfast Feb 22, 2017
An international team of researchers from QueenÂs, University College London and the University of Alabama at Birmingham have developed a cell culture model that could help to develop earlier treatment strategies for age–related macular degeneration (AMD).
The research study recently published in the journal Investigative Ophthalmology and Visual Science, found that retinal pigment epithelial (RPE) cells removed directly from the eye can reproduce all the major known elements of drusen, the hallmark extracellular deposit of AMD, when the cells are grown on specific surfaces.
The cell culture model developed confirms that RPE cells in early AMD are functional and that the conditions of the so called BruchÂs membrane, the layer in the eye on which RPE cells grow, is key for the formation of drusen deposits. These then increase the risk of developing later stages of AMD.
This cell culture model is the most comprehensive developed so far and will provide an insight into disease progression and the best route to early treatment before vision loss occurs.
Dr Imre Lengyel, from the Centre for Experimental (CEM) at QueenÂs University, who conducted the mineralomics analysis on the study, said: ÂWe expect that this reproducible and valid model system will be important in determining what molecules in drusen and what changes in RPE cells can cause advancement to late stages of AMD.Â
The elderly are the fastest growing segment of the population. New drug targets to help older persons maintain good vision and independent living are eagerly sought. This research will be an important milestone for patients with age–related macular degeneration, their families, and eye doctors.
Dr Christine Curcio, from the Department of Ophthalmology at University of Alabama, Birmingham, added: ÂBased on our experiments there is a whole new way to look at how drusen form and increase the risk of developing AMD. From this research study we now believe that drusen reduction is now a viable treatment goal.Â
Matthew Pilgrim, PhD student at the Institute of Ophthalmology, University College London, who worked on the research project with Dr Lengyel, said: ÂThere is no better education for a student than to be part of an important interdisciplinary project and learn about team science in addition to advanced microanalysis. Working on a project that is important for patients is very rewarding.Â
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The research study recently published in the journal Investigative Ophthalmology and Visual Science, found that retinal pigment epithelial (RPE) cells removed directly from the eye can reproduce all the major known elements of drusen, the hallmark extracellular deposit of AMD, when the cells are grown on specific surfaces.
The cell culture model developed confirms that RPE cells in early AMD are functional and that the conditions of the so called BruchÂs membrane, the layer in the eye on which RPE cells grow, is key for the formation of drusen deposits. These then increase the risk of developing later stages of AMD.
This cell culture model is the most comprehensive developed so far and will provide an insight into disease progression and the best route to early treatment before vision loss occurs.
Dr Imre Lengyel, from the Centre for Experimental (CEM) at QueenÂs University, who conducted the mineralomics analysis on the study, said: ÂWe expect that this reproducible and valid model system will be important in determining what molecules in drusen and what changes in RPE cells can cause advancement to late stages of AMD.Â
The elderly are the fastest growing segment of the population. New drug targets to help older persons maintain good vision and independent living are eagerly sought. This research will be an important milestone for patients with age–related macular degeneration, their families, and eye doctors.
Dr Christine Curcio, from the Department of Ophthalmology at University of Alabama, Birmingham, added: ÂBased on our experiments there is a whole new way to look at how drusen form and increase the risk of developing AMD. From this research study we now believe that drusen reduction is now a viable treatment goal.Â
Matthew Pilgrim, PhD student at the Institute of Ophthalmology, University College London, who worked on the research project with Dr Lengyel, said: ÂThere is no better education for a student than to be part of an important interdisciplinary project and learn about team science in addition to advanced microanalysis. Working on a project that is important for patients is very rewarding.Â
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