National Institute of Health (NIH) announced awards to expand the Office of Rare Diseases Research part of the National Center for Advancing Translational Sciences (ORDR-NCATS) collaborative Rare Diseases Clinical Research Network (RDCRN).
Through the network, physician-scientists at 22 consortia will work with 98 patient advocacy groups to advance clinical research and investigate new treatments for patients with rare diseases. The collaborations are made possible by $29 million in fiscal 2014 funding from NIH.
Rett Syndrome, MECP2 Duplications and Rett-Related Disorders (CDKL5 and FOXG1) represent one of the 22 consortia funded by the U54 cooperative agreement award with the National Institute of Child Health and Human Development (NICHD). Led by Alan K. Percy, M.D., the University of Alabama at Birmingham, this project involves clinical research into four disorders of the nervous system: Rett Syndrome (RTT), MECP2 Duplication disorder, CDKL5 disorder, and FOXG1 syndrome. These conditions strike previously healthy-seeming children early in their lives and can lead to seizures, difficulty with fine motor control and walking, and intellectual disability.
The research center’s work takes the form of a natural history study with three major goals over the next 5 years, at $1.25m per year:
- Identify and understand the core clinical features of each disorder;
- Identify factors that can modify the severity of the disorders; and
- Understand the relationship between patients’ symptoms and their brain imaging and electroencephalography alterations.
This award will investigate longitudinal natural history and neurobehavioral assessments, biomarkers, outcome measures, and neurophysiological and neuroimaging correlates of disease severity in CDKL5disorder, Rett syndrome, MECP2 Duplication disorder and FOXG1 syndrome.
Under the leadership of Dr. Alan Percy, the study will involve:
Nine PARTICIPATING sites:
- The University of Alabama at Birmingham – Alan K. Percy, MD
- Baylor College of Medicine, Texas Children’s Hospital – Daniel G. Glaze, MD
- Harvard Medical School, Boston Children’s Hospital – Walter E. Kaufmann, MD
- Greenwood Genetics Center – Steven A. Skinner, MD
- Children’s Hospital of Pennsylvania – Eric D. Marsh, MD PhD
- University of Rochester Medical Center – Alex R. Paciorkowski, MD, FACMG
- University of Colorado Medical School, Denver – Timothy A. Benke, MD PhD
- University of California, San Diego, Rady Children’s Hospital – Jeffrey L. Neul, MD PhD
- Vanderbilt University Medical Center – Sarika U. Peters, PhD
Two ENROLLING sites:
- Rush University Medical Center – Peter T. Heydemann, MD
- University of California San Francisco Benioff Oakland Children’s Hospital – Mary Jones, MD
“Through this Natural History Study (NHS) we will transform Rett syndrome and the Rett-related disorders care initiatives by stimulating more clinical research that will help draft guidance on how to standardize and optimize the best care for the children and adults with these four disorders as soon as possible through building a collaborative clinical network,” says Steven Kaminsky, PhD, Chief Science Officer, Rettsyndrome.org. Dr. Alan Percy adds, “The potential for developing effective clinical trials is now tangible with other disease-modifying agents rapidly coming to the clinics”.
Janet Woodcock, M.D., Director of FDA’s Center for Drug Evaluation and Research (CDER), writes in FDA Voice, the FDA’s official blog: “The more we know about rare diseases, the more likely we are to find safe and effective treatments. If you add them all [7,000 rare diseases] together, there are about 30 million – or almost one in ten — people in the U.S. with some form of the rare disease. Sadly, although great progress has been made in some areas, many of these people have no FDA-approved drug to cure their condition, help them feel better, or even slow the disease’s progress. Well-conducted studies of natural history can yield vital information about:
- Biomarkers, demographic, genetic, and environmental variables that correlate with the course
and stages of the disease;
- Identification of patient subpopulations with different characteristics and effects of the
- Patient perspectives on what aspects of disease are most important to treat; and,
- How to quantify those aspects so that they can serve as useful outcome measures for clinical trials.
Knowledge of natural history is essential for developing more efficient clinical trial designs. It also could help reduce the length and cost of drug development and, possibly, contribute toward greater predictability of clinical development programs.
The FDA is committed to working with patient advocates and other organizations to support natural history studies for rare diseases. We encourage the use of natural history data collection tools to describe natural history for many rare diseases. It is our deeply felt hope and wish that we can then take steps toward developing and approving new therapies for persons with rare diseases.” (blog excerpt 10/23/2014).
The International Foundation for CDKL5 Research will take an active role in this endeavor as a member of the Coalition of Patient Advocacy Groups (CPAGs) within the RDCRN.
ABOUT CDKL5 DISORDER
CDKL5 Disorder is a rare neurological disorder that affects girls and boys within the first few months of life, causing debilitating and refractory seizures, severe neuro-developmental impairment, and multi-organ involvement. Children diagnosed with CDKL5 disorder often cannot walk, talk or feed themselves, and are often confined to a wheelchair. Many suffer from scoliosis, cortical visual impairment and severe gastrointestinal symptoms. Communication is difficult for children with CDKL5, which can be isolating and frustrating. We believe that children with CDKL5 disorder understand what is going on around them, but are unable to express themselves.
ABOUT INTERNATIONAL FOUNDATION FOR CDKL5 RESEARCH (IFCR)
IFCR is the only international foundation dedicated to the CDKL5 gene and is the leading organization for research, spreading awareness, and support for families. IFCR has funded three CDKL5 Centers of Excellence to improve the quality of care children with CDKL5 receive, as well as a database registry. IFCR hosts international science symposia and family conferences. We promote cooperation and collaboration among scientists and clinicians and encourage basic science, translational and innovative clinical research.