A randomized crossover trial of elamipretide in adults with primary mitochondrial myopathy

We examine the growing number of studies of survey respondents' global self-ratings of health as predictors of mortality in longitudinal studies of representative community samples. Twenty-seven studies in U.S. and international journals show impressively consistent findings. Global self-rated health is an independent predictor of mortality in nearly all of the studies, despite the inclusion of numerous specific health status indicators and other relevant covariates known to predict mortality. We summarize and review these studies, consider various interpretations which could account for the association, and suggest several approaches to the next stage of research in this field.

Abstract This article details an updated version of the principles of ethical authorship and publishing in the Journal of Cachexia, Sarcopenia and Muscle (JCSM) and its two daughter journals JCSM Rapid Communication and JCSM Clinical Reports. We request of all author sending to the journal a paper for consideration that at the time of submission to JCSM, the corresponding author, on behalf of all co‐authors, needs to certify adherence to these principles. The principles are as follows: all authors listed on a manuscript considered for publication have approved its submission and (if accepted) approve publication in JCSM as provided; each named author has made a material and independent contribution to the work submitted for publication; no person who has a right to be recognized as author has been omitted from the list of authors on the submitted manuscript; the submitted work is original and is neither under consideration elsewhere nor that it has been published previously in whole or in part other than in abstract form; all authors certify that the submitted work is original and does not contain excessive overlap with prior or contemporaneous publication elsewhere, and where the publication reports on cohorts, trials, or data that have been reported on before the facts need to be acknowledged and these other publications must be referenced; all original research work has been approved by the relevant bodies such as institutional review boards or ethics committees; all relevant conflicts of interest, financial or otherwise, that may affect the authors' ability to present data objectively, and relevant sources of funding of the research in question have been duly declared in the manuscript; the manuscript in its published form will be maintained on the servers of JCSM as a valid publication only as long as all statements in the guidelines on ethical publishing remain true. If any of the aforementioned statements ceases to be true, the authors have a duty to notify as soon as possible the Editors of JCSM, JCSM Rapid Communication, and JCSM Clinical Reports, respectively, so that the available information regarding the published article can be updated and/or the manuscript can be withdrawn.

Mitochondrial dysfunction plays a key pathogenic role in aging skeletal muscle resulting in significant healthcare costs in the developed world. However, there is no pharmacologic treatment to rapidly reverse mitochondrial deficits in the elderly. Here, we demonstrate that a single treatment with the mitochondrial-targeted peptide SS-31 restores in vivo mitochondrial energetics to young levels in aged mice after only one hour. Young (5 month old) and old (27 month old) mice were injected intraperitoneally with either saline or 3 mg kg(-1) of SS-31. Skeletal muscle mitochondrial energetics were measured in vivo one hour after injection using a unique combination of optical and (31) P magnetic resonance spectroscopy. Age-related declines in resting and maximal mitochondrial ATP production, coupling of oxidative phosphorylation (P/O), and cell energy state (PCr/ATP) were rapidly reversed after SS-31 treatment, while SS-31 had no observable effect on young muscle. These effects of SS-31 on mitochondrial energetics in aged muscle were also associated with a more reduced glutathione redox status and lower mitochondrial H2 O2 emission. Skeletal muscle of aged mice was more fatigue resistant in situ one hour after SS-31 treatment, and eight days of SS-31 treatment led to increased whole-animal endurance capacity. These data demonstrate that SS-31 represents a new strategy for reversing age-related deficits in skeletal muscle with potential for translation into human use. © 2013 The Anatomical Society and John Wiley & Sons Ltd.