Effectiveness and safety of bimekizumab for the treatment of plaque psoriasis. a real-life multicenter study—IL PSO (Italian landscape psoriasis)

Introduction: Bimekizumab is a monoclonal antibody that targets Interleukin-17 A and F, approved for the treatment of moderate-to-severe plaque psoriasis. While bimekizumab has been evaluated in several phase-III clinical trials, real-world evidence is still very limited. Method: This multicenter retrospective study included patients affected by plaque psoriasis treated with bimekizumab from May 1, 2022 to April 30, 2023, at 19 Italian referral hospitals. Patients affected by moderate-to-severe plaque psoriasis eligible for systemic treatments were included. The effectiveness of bimekizumab was evaluated in terms of reduction in psoriasis area and severity index (PASI) compared with baseline at weeks 4 and 16. The main outcomes were the percentages of patients achieving an improvement of at least 75% (PASI75), 90% (PASI90) and 100% (PASI100) in PASI score. Results: The study included 237 patients who received at least one injection of bimekizumab. One hundred and seventy-one patients and 114 reached four and 16 weeks of follow-up, respectively. Complete skin clearance was achieved by 43.3% and 75.4% of patients at weeks 4 and 16, respectively. At week 16, 86.8% of patients reported no impact on their quality of life. At week 16, there were no significant differences between bio-naïve and bio-experienced patients in terms of PASI75, PASI90 and PASI100. The most commonly reported adverse events (AEs) were oral candidiasis (10.1%). No severe AEs or AEs leading to discontinuation were observed throughout the study. Conclusion: Our experience supports the effectiveness and tolerability of bimekizumab in a real-world setting with similar results compared with phase-III clinical trials

Down syndrome and biological treatments in dermatology: Efficacy and safety in our real-life experience and review of literature

Down syndrome (DS) is the most common chromosomal disorder; several dermatological conditions are common in these patients; among them, psoriasis and atopic dermatitis can be frequently encountered. From 2017 to today, we retrospectively identified 4 adults and 3 under 18-year-old patients treated with biological drugs, from our research database. The first endpoint of this study was to evaluate whether the biological drugs work in these special population, and a secondary endpoint was to evaluate any loss of efficacy or any side effects during follow-up. All patients were treated with biological drugs experience resolution of their psoriasis. Mean PASI (Psoriasis Area Severity Index), BSA (Body Surface Area) and DLQI (Dermatology Life Quality Index) at baseline were 20, 16.5 and 25. At week 4, mean PASI, BSA and DLQI decreased, respectively, to 8, 6 and 12, while at week 24, mean values were, respectively, 3, 1.3 and 1. The patients that started therapy earlier, at week 52, do not have signs of recurrence and side effects. We highlighted that no official guidelines exist to approach these patients, from a literature evaluation the most employed drugs are anti-TNFα and in particular adalimumab. In our experience, the new anti-interleukin drugs seem to be well-tolerated, with no sides effect, good compliance and no loss of efficacy

Application of proteomics and metabolomics to study inherited kidney disorders: from big data to precision medicine

The recent application of proteomics and metabolomics to clinical medicine has demonstrated their potential role in complementing genomics for a better understanding of diseases' patho-physiology. These technologies offer the clear opportunity to identify risk factors, disease-specific or stage-specific biomarkers and to predict therapeutic response. This article is an overview of the recent insights obtained by metabolomic and proteomic studies in inherited kidney disorders. Proteomics studies have allowed the definition of a detailed picture of protein composition, post-translational modifications and interactions in kidney-derived samples, improving our understanding of renal physiology, especially of tubular transport and primary cilium-related functions. Studies on patients' urine samples and experimental models of inherited kidney diseases have provided clues suggesting novel potential pathological mechanisms and biomarkers of disease, for example in polycystic kidney disease. Metabolomic-based studies have been recently applied to assess biological system disturbances caused by specific genetic mutations resulting in inherited kidney disorders. These studies have been mainly carried out on mouse and rat models of cystic and metabolic disorders (such as Fabry disease), and on patients' urine samples. They have provided a significant contribution in understanding disease pathophysiology, promoting the discovery of aberrant biochemical pathways and contributing to the development of targeted therapies