ABSTRACT
Although retinoids are considered as the most effective treatment, management of dissecting cellulitis of the scalp (DCS) is often challenging. A multicentre retrospective study was conducted to evaluate the efficacy of anti-tumour necrosis factor (TNF) agents in treating DCS after failure of other conventional treatments. Twenty-six patients were included. After a mean treatment duration of 19â months (SD 21), the median Physician's Global Assessment score decreased from 3 to 1. The median number of inflammatory nodules and abscesses decreased from 7 to 0.5 and from 1 to 0, respectively. The median Dermatology Life Quality Index and numerical rating scale score for pain severity decreased from 10 to 8 and 6 to 1, respectively. The median treatment satisfaction was 7 out of 10 on the Patient Satisfaction Index. This study confirms the efficacy of anti-TNF agents in treating patients with DCS that is resistant to conventional therapies.
Subject(s)
Scalp Dermatoses , Tumor Necrosis Factor Inhibitors , Humans , Retrospective Studies , Cellulitis/drug therapy , Cellulitis/pathology , Scalp Dermatoses/drug therapy , Tumor Necrosis Factor-alphaABSTRACT
Venous ulcers are the most common type of human chronic nonhealing wounds and are stalled in a constant and excessive inflammatory state. The molecular mechanisms underlying the chronic wound inflammation remain elusive. Moreover, little is known about the role of regulatory RNAs, such as microRNAs, in the pathogenesis of venous ulcers. We found that both microRNA (miR)-34a and miR-34c were upregulated in the wound-edge epidermal keratinocytes of venous ulcers compared with normal wounds or the skin. In keratinocytes, miR-34a and miR-34c promoted inflammatory chemokine and cytokine production. In wounds of wild-type mice, miR-34a-mimic treatment enhanced inflammation and delayed healing. To further explore how miR-34 functions, LGR4 was identified as a direct target mediating the proinflammatory function of miR-34a and miR-34c. Interestingly, impaired wound closure with enhanced inflammation was also observed in Lgr4 knockout mice. Mechanistically, the miR-34-LGR4 axis regulated GSK-3ß-induced p65 serine 468 phosphorylation, changing the activity of the NF-κB signaling pathway. Collectively, the miR-34-LGR4 axis was shown to regulate keratinocyte inflammatory response, the deregulation of which may play a pathological role in venous ulcers.