View clinical trials related to IBD.
Filter by:The aim of this study is to evaluate the IFX exposure (AUC), effectiveness, presence of ADAbs and treatment burden before and after switching from IV to SC IFX maintenance treatment in a real-world cohort of IBD patients with quiescent disease on IFX monotherapy and combination therapy of IFX and an immunomodulator. Methods: this is a prospective, single centre, open-label cohort study, conducted in Zuyderland Medical Centre in which 36 adult IBD patients in remission on stable IV IFX therapy are switched to SC CT-P13 of which 18 patients use an immunomodulator in addition to IFX (cohort 2). After the switch to SC CT-P13, patients are followed for 24 weeks. The study is subdivided into two phases: the IV IFX treatment phase before switching and the SC CT-P13 treatment phase after the switch. After enrolment, the subject receives a final dose of IV IFX according to their own maintenance schedule. Primary endpoints are the Area under the concentration-time curve (AUC) at steady state (1) before and after the switch to SC CT-P13 and (2) with or without concomitant immunomodulator during SC therapy. AUCs will be estimated using pharmacokinetic modelling in MwPharm. Besides IFX trough level, treatment related time expenditure, quality-of-life and patient satisfaction will be assessed before and after the switch.
This study is part of the project funded by the Horizon2020 program for establishing the consortium Algae4IBD (https://algae4ibd.eu/), where Dept. of Molecular Medicine and Medical Biotechnologies (DMMBM) University of Naples Federico II participates as a partner. It aims to promote the implementation of the European Crohn's and Colitis Organization (ECCO/FECCO) Directive and the benefit of the Inflammatory Bowel Disease (IBD) patient's wellness by finding innovative algae based novel small molecule therapeutics. A systemic approach to eco-innovation is adopted to create interconnections between sectors, value chains, natural resources, and relevant societal stewards. To this end, the consortium has set specific objectives to achieve holistic innovations, including technical, economic, health, and social factors that all work in concert. IBD included Crohn's disease and ulcerative colitis. It is a class of chronic inflammatory disorders with complex pathogenesis. Despite the lack of a full understanding of its etiogenesis, many anti-inflammatory treatments have been developed over the last decades. However, not all patients may benefit from these treatments and some of them are refractory to the current therapies or experience relapse of the disease. Therefore, there is still an urgent need to find an innovative line of interventions for ameliorating these patients' overall quality of life. Algae4IBD consortium will form a bridge between innovation and market demands to prevent and treat inflammation, pain, and IBD. Bioactive molecule/compounds extracts from microalgae, cyanobacteria, and macro-algae (MiaCyMa) are an inexhaustible untapped natural source for products destined for IBD prevention and treatment (inflammation, pain, and the disease process associated with the gut's microbiome). The natural source potential is still more promising when considering extremophile strains for excellent metabolism systems. Moreover, the production of the natural source of biological materials should be sustainable. Indeed, the non-genetically modified organisms (GMO cultures offer numerous advantages such as reduced requirements of fresh water and land (no arable land is required), drastic reduction of nitrogen sources, and potential environmental threats. Algae4IBD concept will include a multi-step screening approach and feedback loops across the project steps to achieve its goals. Specifically, DMMBM is in charge with work package (WP) 4, task 4.4.2, which aims to characterize the activity of plant cell (algae) extracts named in this proposal as "natural compounds" of algae provided by the consortium in ex-vivo models, using bioptic samples derived from patients with IBD (patients with ulcerative colitis (UC) and Crohn's disease (CD)), comparing them to samples derived from patients without UC and CD.
This multi-center study will evaluate the safety and immune response to recombinant zoster vaccine (RZV) series in 264 patients with inflammatory bowel disease (IBD) on immunosuppressive therapy recruited from 6 study sites who can expect to be on study for up to 14 months.
The loss of response rate of ustekinumab(UST) is high, and the specific mechanism has not yet been elucidated. Molecular markers that can accurately predict the efficacy of UST are urgently needed to provide theoretical basis for guiding individualized treatment. Therefore, this study intends to explore the impact of intestinal epithelial fucosylation levels on the efficacy of UST in patients with Crohn's disease(CD), aiming to provide predictable molecular markers for UST to accurately treat CD.
The goal of this clinical trial is to test the safety and efficacy of far Infra-red (fIR) therapy in Crohn's disease patients. The main questions it aims to answer are: 1. Is infrared therapy safe for treating Crohn's disease patients? 2. Is infrared therapy effective for treating Crohn's disease? Participants will be asked to attend 10 treatments of fIR therapy, provide stool and blood samples and answer questionnaires. Researchers will compare between high intensity fIR therapy and lowest intensity fIR therapy (placebo) to see if high intensity fIR therapy is an effective treatment for Crohn's disease.
To estimate prevalence of subclinical airway injuries among IBD patients. To investigate relationship between activity of IBD and airways
This is a French prospective longitudinal observational multicentre cohort study. Primary objective : to assess prospectively the presence and the extent of safety concerns (cancer, serious infections, arterial and venous thrombotic events) in patients with CD and UC and treated with JAKi, anti-IL23p19, and S1p modulators.
Psychological distress (anxiety and depression) is common in and experienced differently by people living with long-term health conditions (LTCs). Being able to measure whether psychological distress is related to living with a LTC would allow researchers and clinicians to provide interventions specifically tailored to the challenges of living with a LTC and therefore provide the most appropriate support for these patients. Such a measure would also be useful in research to identify the presence of illness-related distress in different patient groups. This project will therefore create a new measure of illness-related distress that has applications for both research and clinical practice. This will involve the psychometric validation of the new illness-related distress measure to test how valid and reliable the measure is. The aim of the project is to provide initial validation of the Illness Related Distress Scale in a community sample, recruited through online platforms. The objective of the study is to gather initial validity and reliability data for the scale.
The developments of knowledge and possibilities of investigation in the biomedical field, and in particularly in the field of inflammatory bowel diseases need to be analyzed and study vast cases of biological material carefully collected, preserved and correlated with complete clinical-pathological-instrumental data. In order to organize and make uniform the collection, storage and management of samples and the clinical data associated with them, a biobank is being set up, called "IBD Biobank" aimed at studying inflammatory intestinal diseases. THE subjects/patients who decide to authorize the collection, storage and use of biological material for future research purposes which are not currently identifiable will be called, in this document, donors. The IBD Biobank involves the recruitment of adult subjects. To each donor will be given informed consent DSAN 1178/6 ("Regulation e informed consent for the collection, conservation and use of human biological material spontaneous monocentric or multicentric studies with promoting OSR") or the most updated version of this informed consent, according to the directives of the OSR Ethics Committee. The biological material of the IBD Biobank will be processed at the laboratories of the Biological Resources Center (CRB) e preserved at BIOREP srl (Via Olgettina, 60, c/o San Raffaele Hospital-DIBIT2 - Palazzina San Michele 20132 Milan). Generally biological materials will be collected during the already scheduled surgery and the routine clinical examination as part of outpatient visits, day hospitals and hospital admissions. The biological samples will come stored in tubes equipped with barcode identification (2D) which guarantee a code unique to each rate and preserve its anonymity. The clinical-pathological-instrumental data, demographic and anamnestic information will be entered by trained personnel on a computerized database anonymously by assigning a UPN code identifying the patient. Access the database is managed via personal login and password. All data entered is recorded and stored on the server of the IRCCS San Raffaele Hospital in Milan.
This study is part of the project funded by the Horizon2020 program for establishing the consortium Algae4IBD (https://algae4ibd.eu/), where OSR participates as a partner. It aims to promote the implementation of the European Crohn's and Colitis Organization (ECCO/FECCO) Directive and the benefit of the Inflammatory Bowel Disease (IBD) patient's wellness by finding innovative algae based novel small molecule therapeutics. A systemic approach to eco-innovation is adopted to create interconnections between sectors, value chains, natural resources, and relevant societal stewards. To this end, the consortium has set specific objectives to achieve holistic innovations, including technical, economic, health, and social factors that all work in concert. IBD included Crohn's disease and ulcerative colitis. It is a class of chronic inflammatory disorders with complex pathogenesis. Despite the lack of a full understanding of its etiogenesis, many anti-inflammatory treatments have been developed over the last decades. However, not all patients may benefit from these treatments and some of them are refractory to the current therapies or experience relapse of the disease. Therefore, there is still an urgent need to find an innovative line of interventions for ameliorating these patients' overall quality of life. Algae4IBD consortium will form a bridge between innovation and market demands to prevent and treat inflammation, pain, and IBD. Bioactive molecule/compounds extracts from microalgae, cyanobacteria, and macro-algae (MiaCyMa) are an inexhaustible untapped natural source for products destined for IBD prevention and treatment (inflammation, pain, and the disease process associated with the gut's microbiome). The natural source potential is still more promising when considering extremophile strains for excellent metabolism systems. Moreover, the production of the natural source of biological materials should be sustainable. Indeed, the non-genetically modified organisms (GMO cultures offer numerous advantages such as reduced requirements of fresh water and land (no arable land is required), drastic reduction of nitrogen sources, and potential environmental threats. Algae4IBD concept will include a multi-step screening approach and feedback loops across the project steps to achieve its goals. Specifically, OSR is in charge with work package (WP) 4, task 4.4, which aims to characterize the activity of plant cell (algae) extracts named in this proposal as "natural compounds" of algae provided by the consortium in ex-vivo models, using bioptic samples derived from patients with IBD (patients with ulcerative colitis (UC) and Crohn's disease (CD)), comparing them to samples derived from patients without UC and CD.