Search Results (2)

It is well known that N-methyl-D-aspartate receptor encephalitis (NMDARE) can be triggered by infectious encephalitis such as herpes simplex virus 1 encephalitis (HSE). However, the incidence of post-HSE NMDARE in Denmark is unknown. We reviewed literature cases and compared these to retrospectively identified cases of post-HSE NMDARE in Denmark, using a national cohort database of autoimmune encephalitis (AE) and two regional databases of infectious encephalitis patients. We identified 80 post-HSE NMDARE cases in the literature, 66% being children, who more often presented movement disorders, decreased consciousness, and sleep disturbances compared to adults. Eight patients with post-HSE NMDARE were identified from the national cohort database of AE, none being children. Forty-four HSE patients were identified from the regional infectious encephalitis databases. Of these, 16 (36%) fulfilled the Graus criteria for probable/definite NMDARE, and eight (18%) presented a prolonged/relapsing disease course. Ten (23%) were tested for AE during hospitalization. Six (14%) had leftover cerebrospinal fluid available for retrospective autoantibody testing. One out of these six patients (17%) harbored NMDARE antibodies. Thus, in total, nine post-HSE NMDARE patients have been identified in Denmark from 2009 to 2021. Comparing the adult Danish patients to the literature, Danish patients were older, but the clinical phenotype and paraclinical findings were similar. Overall, the incidence of adult post-HSE NMDARE in the Region of Southern Denmark was 0.17 per million people per year and only 7% of adult HSE patients in the region were diagnosed with post-HSE NMDARE. Our findings suggest that adult patients are still underdiagnosed and the absence of pediatric cases diagnosed with post-HSE NMDARE in Denmark is highly concerning. Full article

MicroRNAs (miRNAs) are a class of small noncoding RNA that can regulate physiological and pathological processes through post-transcriptional regulatory gene expression. As an important member of the miRNAs family, microRNA-7 (miR-7) was first discovered in 2001 to play an important regulatory role in tissue and organ development. Studies have shown that miR-7 participates in various tissue and organ development processes, tumorigenesis, aging, and other processes by regulating different target molecules. Notably, a series of recent studies have determined that miR-7 plays a key regulatory role in the occurrence of inflammation and related diseases. In particular, miR-7 can affect the immune response of the body by influencing T cell activation, macrophage function, dendritic cell (DC) maturation, inflammatory body activation, and other mechanisms, which has important potential application value in the intervention of related diseases. This article reviews the current regulatory role of miR-7 in inflammation and related diseases, including viral infection, autoimmune hepatitis, inflammatory bowel disease, and encephalitis. It expounds on the molecular mechanism by which miR-7 regulates the occurrence of inflammatory diseases. Finally, the existing problems and future development directions of miR-7-based intervention on inflammation and related diseases are discussed to provide new references and help strengthen the understanding of the pathogenesis of inflammation and related diseases, as well as the development of new strategies for clinical intervention. Full article