View clinical trials related to Epigenetic Disorder.
Filter by:In the proposed study, three objectives will be pursued: 1. To develop a method to identify more effectively the acute and long-term risk of adolescents with the most threatening self-harm behaviours. 2. To identify the factors that influence the risk of self-harm behaviours and the success of treatment/treatment of these behaviours in the most at-risk adolescents (changes in these factors). 3. Develop guidelines for more effective treatment of the most at-risk adolescents. For this purpose, a sample of approximately 200 young people who will be hospitalised for suicide risk (the most at risk in Slovenia) and an approximately equal number of healthy adolescents will be included. At inclusion, the presence of several factors will be assessed by reviewing demographic data, clinical diagnosis, self-assessment questionnaires and clinical psychological tests (CSSRS, B-NSSI-AT, ISAS, LPFS-BF2.0, BPFSC-11, TSCC, PAI, ECR-RS, DASA-YV, ASHRS), social assessment, and blood sampling for genetic analyses (DNA isolation, sequencing, nucleotide sequence recognition, quantification and evaluation of short tandem repeats, identification of methylation sites). Longitudinal tracking of autoaggressive events and heteroaggressive events during hospitalisation will be performed and recorded on an ongoing basis. The risk and protective factors of the adolescents most at risk will be compared with a control group of adolescents. The same factors will be reassessed in the most at-risk adolescents after 6 and 18 months of treatment as usual. The data will be collected in a data entry and storage system that will ensure the privacy of the data entered in accordance with the GDPR. This will allow the investigators to identify young people at particular risk of severe self-harm behaviour more reliably, to target them for more intensive and effective treatment, and thus to improve their safety, quality of life and prognosis in the short and long term.
Prolonged-Release Pirfenidone (PR-PFD) is an anti-fibrogenic and anti-inflammatory molecule used for the treatment of idiopathic pulmonary fibrosis (approved by FDA) and liver fibrosis (approved in Mexico by COFEPRIS). PFD effects are mediated in part through inhibition of TGFβ, TNFα, IL-1 and IL-6, along with NFκB activation down-regulation causing reduced TNFα and IFNγ levels. The aim of this protocol is to know if the epigenetic factors induced by PR-PFD have a regulatory role to understand the progression variants in liver fibrosis in a group of patients with viral hepatitis C, with a history of sustained viral response and advanced residual liver fibrosis. To assess the safety and efficacy of two daily doses of pirfenidone (KitosCell® LP), in patients with compensated liver cirrhosis.
The physiological derangements in subjects suffering from long-term symptoms following a Covid-19 infection (Post-COVID-19 Syndrome) are poorly understood and evaluated. This study will recruit subjects with a clinical diagnosis of Post-Covid-19-syndrome) who are scheduled for either of lung function testing, cardiopulmonary exercise testing or cardiac ultrasound. Patients' symptoms will be correlated to physiological measures and compared to predicted values. In addition, in 20 patients, symptoms and physiological measures will be correlated to epigenetical alterations, or DNA-methylation patterns. In addition, a subset of patients will be examined a year after the baseline testing in order to follow the progress of the disease.
This prospective pilot study to evaluate the efficacy and safety of the anti-PD-1 antibody combine with Peg-asparaginase and Chidamide regimen for stage IE and IIE ENKTL.
The prognosis in cancer patients has improved over the years. Survivor rates have increased significantly, and paternity has become an important concern in more than 50% of young male survivors. Sperm cryopreservation before cancer treatment is highly recommendable in these patients, as a strategy to preserve their fertility due to is not possible to predict how the chemo or radiotherapy treatment will affect the spermatogenesis. The objective of this study is to evaluate if sperm after an antineoplastic treatment can be safely used. To determine the possible effects of oncological treatments in the spermatogenesis, three parameters will be analyzed, aneuploidy frequencies, DNA fragmentation in single and double-strand breaks and methylation levels to determine epigenetic changes before and after the therapy. If cancer treatment affect sperm genetic integrity, it would have a clinical impact in the offspring of these patients. Identify the different side effects of antineoplastic treatments in DNA sperm will provide a clinical improvement in order to select the best sperm sample in an IVF treatment and it will facilitate genetic counseling