BackgroundNumerous studies support that Human papillomavirus (HPV) can cause cervical cancer. However, few studies have surveyed the heterogeneity of HPV infected or uninfected (HPV+ and HPV-) cervical cancer (CESC) patients. Integration of scRNA-seq and TCGA data to analyze the heterogeneity of HPV+ and HPV- cervical cancer patients on a single-cell level could improve understanding of the cellular mechanisms during HPV-induced cervical cancer.MethodsCESC scRNA-seq data obtained from the Gene Expression Omnibus (GEO) database and the Seurat, Monocle3 package were used for scRNA-seq data analysis. The ESTIMATE package was used for single-sample gene immune score, CIBERSORT package was used to identify immune scores of cells, and the “WGCNA” package for the weighted correlation network analysis. Univariate Cox and LASSO regression were performed to establish survival and relapse signatures. KEGG and GO analyses were performed for the signature gene. Gene Expression Profiling Interactive Analysis was used for Pan-cancer analysis.ResultsIn the HPV+ CESC group, CD8+ T cells and B cells were down-regulated, whereas T reg cells, CD4+ T cells, and epithelial cells were up-regulated according to scRNA-seq data. Survival analysis of TCGA-CESC revealed that increased expression of naive B cells or CD8+ T cells favors the survival probability of CESC patients. WGCNA, univariate Cox, and LASSO Cox regression established a 9-genes survival signature and a 7-gene relapse model. Pan-cancer analysis identified IKZF3, FOXP3, and JAK3 had a similar distribution and effects in HPV-associated HNSC.ConclusionAnalysis of scRNA-seq and bulk RNA-seq of HPV+ and HPV- CESC samples revealed heterogeneity from transcriptional state to immune infiltration. Survival and relapse models were adjusted according to the heterogeneity of HPV+ and HPV- CESC immune cells to assess the prognostic risk accurately. Hub genes represent similar protection in HPV- associated HNSC while showing irrelevant to other potential HPV-related cancers.
<b><i>Background:</i></b> <i>Demodex</i> mites are related to some inflammatory diseases such as rosacea and blepharitis and could be harmful in patients with immunodeficiency or immunosuppression, especially notable in patients using biologic like dupilumab. In order to have an objective observation of different anti-<i>Demodex</i> strategies, we conducted this study, based on interventional clinical evidence with quantified <i>Demodex</i> mite data. <b><i>Methods:</i></b> We used the PubMed, Embase, ClinicalTrials.gov, Medline, and International Clinical Trials Registry Platform (ICTRP) as databases. To assess the risk of bias, the RoB2 and ROBINS-I tools were used. The certainty of evidence was assessed following the GRADE guideline. Furthermore, the effect sizes (ESs) of different strategies were compared in different time periods (0–1, 1–2, 2–3, >3 months), as well as <i>Demodex</i> decrease rates. <b><i>Results:</i></b> 1,618 studies were identified in the databases, with 21 of which included in the final quantitative synthesis. Interventions in these studies included ivermectin, tea tree oil (TTO), permethrin, crotamiton, metronidazole, light therapies, combined therapies, and other therapies. During 0–1 month, the ES varied from 0.07 (cleanser) to 1.95 (systemic ivermectin-metronidazole). During 1–2 months, the ES varied from 0.88 (topical permethrin) to 4.40 (topical ivermectin). During 2–3 months, the ES varied from 0.79 (topical permethrin) to 8.37 (topical ivermectin). During the time of 3 months, the ES varied from 0.59 (topical permethrin) to 2.25 (intense pulsed light [IPL]). In terms of <i>Demodex</i> decrease rates, topical ivermectin, TTO, permethrin, IPL, and baby shampoo had achieved a nearly 100% decrease. The reported adverse events were mostly mild, without severe adverse events reported in any of the studies. <b><i>Conclusions:</i></b> We found ivermectin (topical and systemic), ivermectin-metronidazole (topical), and TTO (topical) are promising anti-<i>Demodex</i> interventions. In addition to traditional pharmacotherapy, light therapies, especially IPL and skin cleansing, could also be considered as effective methods to control <i>Demodex</i> mite infestation.
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