Objectives To investigate the discriminative ability of EQ-5D-3L full health state (FHS) in clinical trials of SLE, and identify factors associated with FHS after treatment. Methods Data from the BLISS-52 (NCT00424476) and BLISS-76 (NCT00410384) trials of belimumab (N = 1684) were utilised. FHS was defined as a response of no problems in all five EQ-5D-3L dimensions, yielding an index score of 1. The Pearson’s chi-square or Fisher’s exact test was employed for comparisons, and logistic regression for adjustments and assessment of independence. Results We demonstrated higher EQ-5D-3L FHS frequencies among patients given standard therapy (ST) plus the licensed belimumab dose versus ST alone (26.1% versus 19.4%; P = 0.001; week 52), and within SRI-4 responders versus non-responders (27.0% versus 19.8%; P < 0.001; week 52) from week 36 to 52. In multivariable regression analysis, SLEDAI-2K (OR: 0.90; 95% CI: 0.87 − 0.94; P < 0.001) and SLICC/ACR Damage Index (OR: 0.79; 95% CI: 0.69 − 0.91; P = 0.001) scores were independently associated with lower FHS frequencies at week 52, while adding monthly infusions of belimumab 10 mg/kg to ST favoured FHS perception (OR: 1.60; 95% CI: 1.15 − 2.24; P = 0.006). Add-on belimumab 10 mg/kg yielded higher FHS frequencies in antimalarial users versus non-users (29.9% versus 20.1%; P = 0.011), and in anti-dsDNA and anti-Sm positive versus negative patients (31.4% versus 13.4%; P < 0.001 and 33.0% versus 22.6%; P = 0.010, respectively), whereas no significant differences were observed in patients given ST alone. Conclusion EQ-5D-3L FHS distinguished belimumab from placebo and responders from non-responders, and exhibited known-group validity in subgroup analysis. FHS may prove a useful patient-reported outcome in SLE studies.
Background: The circulating metabolome is altered in multiple sclerosis (MS), but its prognostic capabilities have not been extensively explored. Lipid metabolites might be of particular interest due to their multiple roles in the brain, as they can serve as structural components, energy sources, and bioactive molecules. Gaining a deeper understanding of the disease may be possible by examining the lipid metabolism in the periphery, which serves as the primary source of lipids for the brain. Objective: To determine if altered serum lipid metabolites are associated with the risk of relapse and disability in children with MS. Methods: We collected serum samples from 61 participants with pediatric-onset MS within 4 years of disease onset. Prospective longitudinal relapse data and cross-sectional disability measures (Expanded Disability Status Scale (EDSS)) were collected. Serum metabolomics was performed using untargeted liquid chromatography and mass spectrometry. Individual lipid metabolites were clustered into pre-defined pathways. The associations between clusters of metabolites and relapse rate and EDSS score were estimated utilizing negative binomial and linear regression models, respectively. Results: We found that serum acylcarnitines (relapse rate: normalized enrichment score (NES) = 2.1, q = 1.03E–04; EDSS: NES = 1.7, q = 0.02) and poly-unsaturated fatty acids (relapse rate: NES = 1.6, q = 0.047; EDSS: NES = 1.9, q = 0.005) were associated with higher relapse rates and EDSS, while serum phosphatidylethanolamines (relapse rate: NES = −2.3, q = 0.002; EDSS: NES = −2.1, q = 0.004), plasmalogens (relapse rate: NES = −2.5, q = 5.81E–04; EDSS: NES = −2.1, q = 0.004), and primary bile acid metabolites (relapse rate: NES = −2.0, q = 0.02; EDSS: NES = −1.9, q = 0.02) were associated with lower relapse rates and lower EDSS. Conclusion: This study supports the role of some lipid metabolites in pediatric MS relapses and disability.
Background: Mitochondrial dysfunction plays an important role in multiple sclerosis (MS) disease progression. Plasma extracellular vesicles are a potential source of novel biomarkers in MS, and some of these are derived from mitochondria and contain functional mitochondrial components. Objective: To evaluate the relationship between levels of mitochondrial complex IV and V activity in neuronally enriched extracellular vesicles (NEVs) and brain and retinal atrophy as assessed using serial magnetic resonance imaging (MRI) and optical coherence tomography (OCT). Methods: Our cohort consisted of 48 people with MS. NEVs were immunocaptured from plasma and mitochondrial complex IV and V activity levels were measured. Subjects underwent OCT every 6 months and brain MRI annually. The associations between baseline mitochondrial complex IV and V activities and brain substructure and retinal thickness changes were estimated utilizing linear mixed-effects models. Results: We found that higher mitochondrial complex IV activity and lower mitochondrial complex V activity levels were significantly associated with faster whole-brain volume atrophy. Similar results were found with other brain substructures and retinal layer atrophy. Conclusion: Our results suggest that mitochondrial measures in circulating NEVs could serve as potential biomarkers of disease progression and provide the rationale for larger follow-up longitudinal studies.
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