Objective To report the incidence rate of osmotic demyelination syndrome (ODS), associated risk factors, treatment, and long‐term outcomes in a nationwide cohort. Methods We conducted a retrospective study of individuals diagnosed with central pontine myelinolysis (ICD‐10 code G37.2) in the Swedish National Patient Register during 1997‐2011. Results During the study period, we identified 83 individuals with ODS, 47 women and 36 men. Median age at diagnosis was 55 years. The incidence rate of ODS for the entire study period was 0.611 (95% CI: 0.490‐0.754) per million person‐years and increased during the study period from 0.271 (95% CI: 0.147‐0.460) in 1997‐2001 to 0.945 (95% CI: 0.677‐1.234) individuals per million person‐years in 2007‐2011. Most cases (86.7%) were hyponatremic with a median sodium level at admission of 104 mmol/L. All hyponatremic cases were chronic. The cause of hyponatremia was multifactorial, including drugs (56.9%), polydipsia (31.9%), and vomiting or diarrhea (41.7%). A majority of patients (69.9%) were alcoholics. Hyponatremic patients were predominantly treated with isotonic saline (93.1%) and only 4.2% with hypotonic fluids. The median correction rate was 0.72 mmol/L/h. Only six patients were corrected in accordance with national guidelines (≤8 mmol/L/24/h). At three months, 7.2% had died and 60.2% were functionally independent (modified Rankin Scale 0‐2). Interpretation We found an increasing incidence during the study period, which could partly be explained by increased access to magnetic resonance imaging. ODS occurs predominantly in patients with extreme chronic hyponatremia which is corrected too fast with isotonic saline. Most patients survived and became functionally independent.
Aims The aim of this study was to use human genetics to investigate the pathogenesis of sick sinus syndrome (SSS) and the role of risk factors in its development. Methods and results We performed a genome-wide association study of 6469 SSS cases and 1 000 187 controls from deCODE genetics, the Copenhagen Hospital Biobank, UK Biobank, and the HUNT study. Variants at six loci associated with SSS, a reported missense variant in MYH6, known atrial fibrillation (AF)/electrocardiogram variants at PITX2, ZFHX3, TTN/CCDC141, and SCN10A and a low-frequency (MAF = 1.1–1.8%) missense variant, p.Gly62Cys in KRT8 encoding the intermediate filament protein keratin 8. A full genotypic model best described the p.Gly62Cys association (P = 1.6 × 10−20), with an odds ratio (OR) of 1.44 for heterozygotes and a disproportionally large OR of 13.99 for homozygotes. All the SSS variants increased the risk of pacemaker implantation. Their association with AF varied and p.Gly62Cys was the only variant not associating with any other arrhythmia or cardiovascular disease. We tested 17 exposure phenotypes in polygenic score (PGS) and Mendelian randomization analyses. Only two associated with the risk of SSS in Mendelian randomization, AF, and lower heart rate, suggesting causality. Powerful PGS analyses provided convincing evidence against causal associations for body mass index, cholesterol, triglycerides, and type 2 diabetes (P > 0.05). Conclusion We report the associations of variants at six loci with SSS, including a missense variant in KRT8 that confers high risk in homozygotes and points to a mechanism specific to SSS development. Mendelian randomization supports a causal role for AF in the development of SSS.
Aims Syncope is a common and clinically challenging condition. In this study, the genetics of syncope were investigated to seek knowledge about its pathophysiology and prognostic implications. Methods and results This genome-wide association meta-analysis included 56 071 syncope cases and 890 790 controls from deCODE genetics (Iceland), UK Biobank (United Kingdom), and Copenhagen Hospital Biobank Cardiovascular Study/Danish Blood Donor Study (Denmark), with a follow-up assessment of variants in 22 412 cases and 286 003 controls from Intermountain (Utah, USA) and FinnGen (Finland). The study yielded 18 independent syncope variants, 17 of which were novel. One of the variants, p.Ser140Thr in PTPRN2, affected syncope only when maternally inherited. Another variant associated with a vasovagal reaction during blood donation and five others with heart rate and/or blood pressure regulation, with variable directions of effects. None of the 18 associations could be attributed to cardiovascular or other disorders. Annotation with regard to regulatory elements indicated that the syncope variants were preferentially located in neural-specific regulatory regions. Mendelian randomization analysis supported a causal effect of coronary artery disease on syncope. A polygenic score (PGS) for syncope captured genetic correlation with cardiovascular disorders, diabetes, depression, and shortened lifespan. However, a score based solely on the 18 syncope variants performed similarly to the PGS in detecting syncope risk but did not associate with other disorders. Conclusion The results demonstrate that syncope has a distinct genetic architecture that implicates neural regulatory processes and a complex relationship with heart rate and blood pressure regulation. A shared genetic background with poor cardiovascular health was observed, supporting the importance of a thorough assessment of individuals presenting with syncope.
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