Background and Purpose-The characteristics of intracerebral hemorrhage (ICH) may vary by ICH location because of differences in the distribution of underlying cerebral small vessel diseases. Therefore, we investigated the incidence, characteristics, and outcome of lobar and nonlobar ICH. Methods-In a population-based, prospective inception cohort study of ICH, we used multiple overlapping sources of case ascertainment and follow-up to identify and validate ICH diagnoses in 2010 to 2011 in an adult population of 695 335. Results-There were 128 participants with first-ever primary ICH. The overall incidence of lobar ICH was similar to nonlobar ICH (9.
Improvements in the diagnostic pathway for mitochondrial disease will result in earlier, cheaper and more accurate methods to identify patients with mitochondrial disease. This article is part of a Special Issue entitled Frontiers of Mitochondrial Research.
Objectives:Mitochondrial diseases are the commonest group of heritable metabolic disorders. Phenotypic diversity can make molecular diagnosis challenging and causative genetic mutations may reside in either mitochondrial or nuclear DNA. A single comprehensive genetic diagnostic test would be highly useful and transform the field. We applied whole genome sequencing to evaluate the variant detection rate and diagnostic capacity of this technology with a view to simplifying and improving the mitochondrial disease diagnostic pathway.Methods:Adult patients presenting to a specialist mitochondrial disease clinic in Sydney, Australia were recruited to the study if they satisfied clinical mitochondrial disease (Nijmegen) criteria. Whole genome sequencing was performed on blood DNA, followed by clinical genetic analysis for known pathogenic mitochondrial disease-associated variants and mitochondrial mimics.Results:Of the 242 consecutive patients recruited, 62 subjects had ‘definite’, 108 had ‘probable’ and 72 had ‘possible’ mitochondrial disease classification by the Nijmegen criteria. Disease causing variants were identified for 130 subjects, regardless of the location of the causative genetic mutations, giving an overall diagnostic rate of 53.7% (130/242). Identification of causative genetic mutations informed precise treatment, restored reproductive confidence and optimised patient management.Conclusion:Comprehensive bigenomic sequencing accurately detects causative gene mutations in affected patients and simplifies mitochondrial disease diagnosis, enables early treatment and informs the risk of genetic transmission.
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