Helen Nightingale, Gerald Pfeffer, David Bargiela, Rita Horvath, Patrick F. Chinnery. Brain, 1633-1648 First published online: 3 May 2016 DOI:10.1093/brain/aww081
Open Access, (Creative Commons Attribution License)
From a clinical perspective, nuclear-genetic enzyme defects show the greatest promise. Stem cell therapy is already being used in specific contexts, and its efficacy and safety being evaluated, and gene therapy trials in mouse models show clear benefits. Unfortunately, each one of these rare genetic diseases may require their own proprietary approach, and the impact needs to be evaluated long-term. Small molecules are attractive because they have the potential to provide a more generic solution applicable across the mitochondrial disease spectrum, and a greater understanding of cell signalling pathways opens up several unexpected disease targets. For some of these drugs, clinical evaluation is imminent, particularly for those being repurposed or repositioned drugs such as bezafibrate. It is critical at this stage that laboratory and clinical scientists work closely with patient organizations to ensure that the ultimate aims of therapy will actually tackle issues that are important to patients. Given limited resources, this will ensure that new treatments improve quality of life—a prerequisite if these treatments are going to be adopted by healthcare systems worldwide.
Friday, September 23, 2016
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