Advancing Clinical Trials for Inherited Retinal Diseases: Recommendations from the Second Monaciano Symposium.
Abstract
Major advances in the study of inherited retinal diseases (IRDs) have placed efforts
to develop treatments for these blinding conditions at the forefront of the emerging
field of precision medicine. As a result, the growth of clinical trials for IRDs has
increased rapidly over the past decade and is expected to further accelerate as more
therapeutic possibilities emerge and qualified participants are identified. Although
guided by established principles, these specialized trials, requiring analysis of
novel outcome measures and endpoints in small patient populations, present multiple
challenges relative to study design and ethical considerations. This position paper
reviews recent accomplishments and existing challenges in clinical trials for IRDs
and presents a set of recommendations aimed at rapidly advancing future progress.
The goal is to stimulate discussions among researchers, funding agencies, industry,
and policy makers that will further the design, conduct, and analysis of clinical
trials needed to accelerate the approval of effective treatments for IRDs, while promoting
advocacy and ensuring patient safety.
Type
Journal articlePermalink
https://hdl.handle.net/10161/23895Published Version (Please cite this version)
10.1167/tvst.9.7.2Publication Info
(2020). Advancing Clinical Trials for Inherited Retinal Diseases: Recommendations from the
Second Monaciano Symposium. Translational vision science & technology, 9(7). pp. 2. 10.1167/tvst.9.7.2. Retrieved from https://hdl.handle.net/10161/23895.This is constructed from limited available data and may be imprecise. To cite this
article, please review & use the official citation provided by the journal.
Collections
More Info
Show full item recordScholars@Duke
Vadim Y Arshavsky
Helena Rubinstein Foundation Distinguished Professor of Ophthalmology
Research conducted in our laboratory is dedicated to understanding how vision is performed
on the molecular level. Our most mature direction addresses the function of rod and
cone photoreceptors, which are sensory neurons responsible for the detection and primary
processing of information entering the eye in the form of photons. Photoreceptors
respond to capturing photons by generating electrical signals transmitted to the secondary
neurons in the retina and, ultimately, to the brain. Our wor
Alessandro Iannaccone
Professor of Ophthalmology
Alessandro Iannaccone, MD, MS, FARVO is Professor of Ophthalmology and Director of
the Center for Retinal Degenerations and Ophthalmic Genetic Diseases, which was established
in 2016. Prior to joining Duke University, Dr. Iannaccone was an Associate Professor
of Ophthalmology at the Hamilton Eye Institute in Memphis, TN, where he served as
the founding Director of the Retinal Degenerations & Ophthalmic Genetics Service and
the Lions’ Visual Function Diagnostic Lab since 1997.
<
Alphabetical list of authors with Scholars@Duke profiles.
Articles written by Duke faculty are made available through the campus open access policy. For more information see: Duke Open Access Policy
Rights for Collection: Scholarly Articles
Works are deposited here by their authors, and represent their research and opinions, not that of Duke University. Some materials and descriptions may include offensive content. More info