Search Results (3)

Background: Pruritus is burdensome across dermatoses. Beyond Staphylococcus, broader components of the cutaneous microbiome—bacteria, fungi, and viruses—and their products shape itch via barrier disruption, immune polarization, and direct neurosensory activation. Methods: We conducted a narrative review of human and translational studies. PubMed/MEDLINE, Scopus, and Web of Science were searched from inception to 27 August 2025 using terms for itch, skin microbiome, bacteriotherapy, proteases, PAR, TRP channels, IL-31, Malassezia, and AHR ligands. English and Italian records were screened; randomized trials, systematic reviews, and mechanistic studies were prioritized; and unsupported single case reports were excluded. Results: Beyond Staphylococcus aureus, microbial drivers include secreted proteases activating PAR-2/4; pore-forming peptides and toxins engaging MRGPRs and sensitizing TRPV1/TRPA1; and metabolites, especially tryptophan-derived AHR ligands, that recalibrate barrier and neuro-immune circuits. Commensal taxa can restore epidermal lipids, tight junctions, and antimicrobial peptides. Early studies of topical live biotherapeutics—Roseomonas mucosa and Staphylococcus hominis A9—report reductions in disease severity and itch. Fungal communities, particularly Malassezia, contribute via lipases and bioactive metabolites with context-dependent effects. Across studies, heterogeneous itch metrics, small samples, and short follow-up limit certainty. Conclusions: The cutaneous microbiome actively contributes to itch and is targetable. Future studies should prioritize standardized itch endpoints, responder stratification, and robust safety for live biotherapeutics. Full article

Background. Anal HPV infection, anal dysplasia and, ultimately, anal cancer are particularly common in HIV-infected men who have sex with men. Treatment of anal dysplasia, aiming to prevent evolution to squamous cell carcinoma of the anus, is currently limited to direct ablation and/or application of topical therapy. The aim of the present study is to investigate the effect of oral bacteriotherapy (Vivomixx® in EU, Visbiome® in USA) on anal HPV infection and HPV-related dysplasia of the anal canal in HIV-infected men who have sex with men. Methods. In this randomized, placebo-controlled, quadruple-blinded trial (NCT04099433), HIV-positive men who have sex with men with anal HPV infection and HPV-related dysplasia were randomized to receive oral bacteriotherapy or placebo for 6 months. Anal HPV test, anal cytology and high resolution anoscopy with biopsies of anal lesions were performed at baseline and at the end of the study. Safety and tolerability of oral bacteriotherapy were also evaluated. Interim analysis results were presented. Results. 20 participants concluded the study procedures to date. No serious adverse events were reported. In respect to participants randomized to placebo, individuals in the experimental arm showed higher rate of anal dysplasia regression (p = 0.002), lower rate of onset of new anal dysplasia (p = 0.023) and lower rates of worsening of persistent lesions (p = 0.004). Clearance of anal HPV infection was more frequently observed in the bacteriotherapy group (p = 0.067). Conclusion. Being an interim analysis, we limit ourselves to report the preliminary results of the current study. We refer the conclusions relating to the possible effectiveness of the intervention to the analysis of the definitive data. Full article

Cutibacterium acnes is the most abundant bacterium living in human, healthy and sebum-rich skin sites, such as the face and the back. This bacterium is adapted to this specific environment and therefore could have a major role in local skin homeostasis. To assess the role of this bacterium in healthy skin, this review focused on (i) the abundance of C. acnes in the skin microbiome of healthy skin and skin disorders, (ii) its major contributions to human skin health, and (iii) skin commensals used as probiotics to alleviate skin disorders. The loss of C. acnes relative abundance and/or clonal diversity is frequently associated with skin disorders such as acne, atopic dermatitis, rosacea, and psoriasis. C. acnes, and the diversity of its clonal population, contributes actively to the normal biophysiological skin functions through, for example, lipid modulation, niche competition and oxidative stress mitigation. Compared to gut probiotics, limited dermatological studies have investigated skin probiotics with skin commensal strains, highlighting their unexplored potential. Full article