Conectar
Cutaneous T cell lymphoma (CTCL) is a group of non-Hodgkin lymphomas that primarily affects the skin and can mimic inflammatory dermatoses. Unlike many skin diseases, CTCL can lead to disabling symptoms, and advanced CTCL can even be fatal. Early studies investigating health-related quality of life (HRQOL) in patients with mycosis fungoides (MF) and Sézary syndrome (SS), common subtypes of CTCL, demonstrated significant impairment across numerous domains. The aim of this current study is to develop a core domain set (CDS) to identify the essential aspects of MF/SS that influence HRQOL that should be measured in therapeutic clinical trials. In the future, this set of core concepts will be used to identify the best patient- reported outcome measure(s) (PROM) for HRQOL for MF/SS clinical research.
Multiple strategies will be used to generate candidate concepts: systematic review of the literature, qualitative study and a survey study of healthcare providers. A Delphi consensus process including a comprehensive group of stakeholders (patients, caregivers/care partners, a multidisciplinary group of healthcare professionals, patient advocacy groups, pharmaceutical industry representatives, methodologists and government agencies) will be used to achieve consensus. Statistical corrections for multiple significance testing and false positive findings will be undertaken.
The study was submitted for and received institutional review board approval at the University of Washington (IRB# STUDY00018890 and STUDY00019407). Informed consent will be obtained from all participants where necessary. We will disseminate our findings through peer-reviewed, open access publications and presentations at national/international conferences. We will provide a plain language summary in lay terms for patients and families to patient advocacy groups for distribution to their network.
The protocol is registered in the Core Outcome Measures in Effectiveness Trials (COMET) database.
by Azusa Kubota, Kentaro Kojima, Shinnosuke Koketsu, Takayuki Kannon, Takehiro Sato, Kazuyoshi Hosomichi, Yoshiaki Shinohara, Atsushi Tajima
Brain asymmetry is a fundamental feature of neural organization. However, the molecular basis of hippocampal lateralization in response to environmental stimuli remains poorly understood. Here, we examined the transcriptomic profiles of the left and right hippocampal CA1 regions in rats reared under isolated or enriched housing conditions to elucidate hemisphere-specific responses and shared molecular adaptations. RNA-sequencing analysis revealed lateralized differences in the number and identity of differentially expressed genes, accompanied by distinct biological themes, as indicated by overrepresentation and gene set enrichment analysis. The left CA1 region was prominently engaged in pathways related to synaptic organization and mitochondrial function, whereas the right CA1 region exhibited enrichment in transcriptional regulation and RNA metabolic processes. Despite these asymmetries, co-expression and protein–protein interaction network analyses revealed shared molecular architectures. Immediate early genes formed consistent central hubs across both hemispheres, and a common Mecp2–Grin2b–Cdkl5–Tet3 protein interaction cluster was identified as a potential integrative regulatory module. Additional enrichment analysis of differentially expressed genes shared between hemispheres further highlighted conserved responses, particularly in synaptic plasticity and cell–cell communication. Together, these findings demonstrate that the left and right CA1 regions employ distinct yet partially convergent transcriptional programs to adapt to environmental stimuli. This coordinated molecular asymmetry provides novel insights into hippocampal lateralization and its role in experience-dependent brain plasticity.
FreshRSS 