RESUMO
FCH domain only 1 (FCHO1) is a key player in clathrin-mediated endocytosis, vital for various cellular processes, including immune regulation and cancer progression. However, the clinical implications of FCHO1 mutations, particularly in combined immunodeficiency, remain unclear. This systematic review aims to provide an objective analysis of the molecular genetics, clinical manifestations, and potential therapeutic targets associated with FCHO1 mutations. A systematic search following Preferred Reporting Items for Systematic Reviews and Meta-Analysis (PRISMA) guidelines was conducted across electronic databases up to March 25, 2024, to identify studies investigating the relationship between FCHO1 and different clinical manifestations. Eligibility criteria were applied to screen studies, and data extraction included study characteristics, reported symptoms, genetic variants, and primary outcomes. In silico analyses were performed to assess protein-protein interactions and gene expression patterns. Five studies were included, offering insights into the molecular genetics, T-cell deficiency mechanisms, clinical manifestations, and potential therapeutic targets associated with FCHO1 mutations. Molecular analyses identified specific mutations disrupting FCHO1 function, leading to impaired T-cell proliferation, cytokine production, and susceptibility to infections. Clinically, patients exhibited recurrent infections, lymphopenia, and malignancies, with allogeneic hematopoietic stem cell transplantation emerging as a therapeutic option. In silico analyses revealed potential interactions and co-expression between FCHO1 and genes involved in cancer progression and immune signaling pathways. This systematic review objectively elucidates the multifaceted role of FCHO1 in immune regulation and disease pathogenesis. Understanding the molecular mechanisms underlying FCHO1 mutations and their impact on disease manifestations is crucial for guiding clinical management and developing targeted therapeutic strategies.
RESUMO
BACKGROUND: Hypertrophic scars (HTSs) result from aberrant wound healing processes, leading to raised, thickened tissue with functional discomfort and cosmetic concerns. Current treatments, including corticosteroid injections and laser therapy, have limitations. Stromal vascular fraction (SVF) therapy and CO2 laser treatment offer promising avenues, with SVF therapy showing regenerative potential and CO2 laser therapy promoting precise tissue removal and wound healing. This study aims to investigate the combined application of SVF therapy and CO2 laser treatment for HTS, aiming to enhance treatment efficacy, tissue remodeling, and aesthetic outcomes, ultimately improving patient satisfaction in HTS management. METHOD: PubMed, Scopus, Embase, and Web of Science databases have been searched for relevant studies. The "R" software (version 4.3.1) along with the "tidyverse" and "meta" statistical packages utilized to analyze data related to the efficiency of this combined method. A random-effects model was fitted to the data. For each study, continuous outcomes were pooled by calculating the standardized mean difference, along with their 95% confidence intervals. The assessment of heterogeneity utilized the I2 and chi-squared tests, applying the random effect model. RESULTS: Six articles fulfilled our inclusion criteria and were included in our review. Results from the pooled analysis of Vancouver Scar Scale (VSS) scores across three included studies indicated a significant impact of the SVF+CO2 method on VSS scores post-treatment (SMD=-3.0144; 95% CI:-4.3706 to -1.6583, p<0.0001). However, analysis of transepidermal water loss levels before and after treatment showed no significant difference (SMD=-2.7603; 95% CI: -6.8729 to 1.3522; p=0.1883). Comparatively, in a pooled analysis of two studies, the combined SVF+CO2 method demonstrated superior efficacy in VSS scores compared to other methods (SMD= -1.3573; 95% CI: -2.2475 to -0.4672, p = 0.0028), with moderate heterogeneity across studies (I^2=23.0%, p = 0.2545). CONCLUSION: The combined application of SVF and CO2 laser treatment shows significant promise in improving hypertrophic scars' appearance and texture. The SVF+CO2 method demonstrates superior efficacy compared to other modalities, suggesting its potential as a valuable therapeutic approach for hypertrophic scar management. LEVEL OF EVIDENCE III: This journal requires that authors assign a level of evidence to each article. For a full description of these Evidence-Based Medicine ratings, please refer to the Table of Contents or the online Instructions to Authors www.springer.com/00266 .