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NCT ID: NCT05384249 Active, not recruiting - Uveitis Clinical Trials

Phase 2b Pivotal Study of Izokibep in Non-infectious, Intermediate-, Posterior- or Pan-uveitis

Start date: August 23, 2022
Phase: Phase 2
Study type: Interventional

Izokibep is a small protein molecule that acts as a selective, potent inhibitor of interleukin-17A, to which it binds with high affinity. This study investigates izokibep in subjects with active non-infectious, intermediate-, posterior- or pan-uveitis requiring high-dose steroids.

NCT ID: NCT05384184 Recruiting - Clinical trials for Colorectal Cancer Metastases and Hepatocellular Carcinomas

Next Generation " Pre-clinical Model for Colorectal Cancer Metastases and Hepatocellular Carcinomas (BORG)

BORG
Start date: June 6, 2019
Phase:
Study type: Observational

Recently, oncology has moved to a new clinical practice, more personalized, called Predictive Oncology (PO). PO comes from our knowledge about tumor heterogeneity that implies that each disease, thus each patient, is unique. PO's goal is to identify and administrate the right treatment to the right patient. For this, PO requires to go through 3 majors steps: 1. A good characterization of the tumor to identify candidates, 2. A well-established panel of drugs targeting the identified candidates, 3. A relevant model to functionally test these candidates. The first point could easily be addressed with recent technologies that now allow the Next Generation Sequencing (NGS) and/or the simultaneous analysis of transcriptomic profiles from thousands of patients. The last two points have not been efficiently achieved so far, which prevents PO to be really efficient. Indeed, even if NGS allows the identification of potential targets, the presence of a molecular candidate does not necessary means obligatory functional response. The number of drugs approved by the Food and Drug Administration remains limited and most frequent targets in solid tumors (for ex. RAS, P53, MYC, RB1 ...) still do not have specific drugs approved in clinic. Finally, available pre-clinical models still present many major inconvenient: - Chimiogrammes on 2D cultures are not sufficiently relevant to be really predictive of the in vivo situation; - Patient derived xenograft (PDX) are not adapted for clinical use because not all tumors graft and the time to develop a PDX is too long (several months), thus incompatible with the history of the disease (especially for most severe patients). Furthermore the host (NOD-SCID mouse) is immuno-depressed, preventing to objectively test antibodies-mediated drugs. Recently, the 3D cell culture technology has proven its superiority to predict drug response over classical 2D chimiogrammes. It consists in growing "mini-tissues", or organoid-derived from tumor/healthy tissues, thanks to the amplification of stem cells contained within the sample. The generated organoids are personalized and biologically relevant (organoids are expend form the patient's stem cells which self-organized according to the architecture of the tissue they are originating from), they are genetically stable, their growth is compatible with patient's disease history (organoids grow in few weeks), easy and convenient to achieve, even from small biological material quantities (0.5< x < 1cm3), and they can be amplified, frozen and thawed on demand. Moreover, organoids can be made more complex with the addition of other cell types (fibroblasts, immune cells …). None of the actual available pre-clinical model regroups all these characteristics. The constitution of a "next generation" biobank of liver samples (Metastases to the liver and Hepato Cellular Adenocarcinoma) will be very useful in the context of predictive oncology. For this, a biopsy needs to be dissociated and grown in Matrigel™, in presence of a well-defined list of growth factors. Once the culture is established, organoids can be frozen then defrost on demand. Our main objective is to evaluate the feasibility for building a biobank of liver-derived organoids, from liver metastases of colorectal cancers, hepatocellular adenoma and adenocarcinoma (waste tissues). Applications related to organoids derived from tumors are quasi indefinite, from drug screening assays, tests for novel therapies or original drug combinations, to patients' stratifications or fundamental research. In our case, we are interested in building this a biobank in the prospect of using it to build the "next generation of model for predictive oncology" to study liver-related cancers and related drugs testing. Briefly, we want to implement these organoids with cells from the microenvironment in order to makes the global model more pertinent for drug testing. If successful, the generation of such biobank, including both tumor-derived organoids and healthy counterpart, could be really helpful for the scientific and medical community.

NCT ID: NCT05383573 Recruiting - Clinical trials for ANCA-Associated Vasculitis

Pediatric ANCA Associated-vasculitis

PediANCA
Start date: January 1, 2022
Phase:
Study type: Observational

The incidence in pediatrics is very low (about 0.5 per million according to a French study) and therefore the data on the pathology very poor, especially on the therapeutic level. Without appropriate treatment, the mortality rate of the pathology is very high. Existing treatments are almost exclusively composed of immunomodulatory and/or immunosuppressive treatments. Complications related to pathology and iatrogeny are among the first causes of mortality from this pathology and deserve to be studied in order to be known and if possible avoided. The purpose of the study is to achieve a national comparison of clinical and therapeutic practices.

NCT ID: NCT05383352 Recruiting - Clinical trials for Metastatic Pancreatic Adenocarcinoma

A Study to Compare Onivyde Manufactured at Two Different Production Sites in Adult Participants With Advanced Cancer in the Pancreas

SIRACUSA
Start date: May 30, 2022
Phase: Phase 1
Study type: Interventional

The aim of this study is to compare Onivyde manufactured at two different production sites in adult participants with advanced cancer in the pancreas. Adult participants with metastatic pancreatic adenocarcinoma will receive Test Product (TP) and Reference Product (RP) Onivyde in line with its approved indication. The order in which they receive them depends on the group to which they are randomly assigned, this will be referred to as the crossover phase. The average study duration for each participant until end of crossover phase is estimated to be approximately 3 months. After completion of the crossover phase, participants who in the opinion of the investigator will benefit from the treatment will be offered to enter the extension phase where they will receive the commercial Onivyde (RP) until disease progression, withdrawal, unacceptable toxicity or death. Metastatic pancreatic adenocarcinoma is a cancer that has spread (metastasized) beyond the area of the pancreas to other organs of the body. Onivyde is approved for the treatment of metastatic adenocarcinoma of the pancreas after disease progression following gemcitabine-based therapy, in combination with 5-fluorouracil (5-FU) and leucovorin (LV).

NCT ID: NCT05383339 Recruiting - Autoimmune Diseases Clinical Trials

Biomarkers in Autoimmune Diseases, Vasculitis and Auto Inflammatory Diseases

BIOMAI
Start date: November 29, 2022
Phase:
Study type: Observational

The objective of this work is to identify, in patients with autoimmune diseases, systemic vasculitis and autoinflammatory disease, cytokine and lymphocyte biomarkers of activity of these diseases to identify follow-up biomarkers, in order to personalize the follow-up and the treatments for each patient. Immunological data will be obtained from biological samples collected as part of the usual patient care pathway (Blood and tissues sampling) The study will take place in the Department of Internal Medicine and Clinical Immunology (DMIIC), that is certified as the National Reference Centre for Rare Systemic Autoimmune Diseases and the National Reference Centre for Inflammatory Autoinflammatory Diseases and Inflammatory Amyloidosis (CEREMAIA). Its objective is to contribute to the advancement of fundamental knowledge in immunology, in particular to develop prognostic biomarkers of the activity of autoimmune diseases, systemic vasculitis and autoinflammatory diseases by using blood tests.

NCT ID: NCT05383235 Not yet recruiting - Child Sexual Abuse Clinical Trials

Facial Emotion Recognition in Patients Who Committed Sexual Assault Against Children: an EEG Study

EMOREC
Start date: May 20, 2022
Phase: N/A
Study type: Interventional

This study aims to compare the emotional processing in sexual offenders against children versus healthy volunteers using an objective electrophysiological measurement (EEG) during a facial emotion stimuli presentation task. Secondary goal is to assess emotion recognition performances in this population and evaluate the impact of various factors on these performances (type of emotion, age and sex of person expressing the emotion, neuropsychological and cognitive abilities of the subjects).

NCT ID: NCT05383170 Active, not recruiting - Clinical trials for Advanced Breast Cancer

A Study to Evaluate the Safety and Efficacy of CyPep-1 in Combination With Pembrolizumab for the Treatment of Advanced or Metastatic Cancers

Catalyst
Start date: March 21, 2023
Phase: Phase 1/Phase 2
Study type: Interventional

This Phase 1b/2a study will assess the efficacy, safety, and pharmacodynamics of CyPep-1 when administered directly into measurable tumor lesions in combination with the anti-PD-1 antibody pembrolizumab. Additionally, the study will assess anti-tumor effects of CyPep-1 on injected lesions and non-injected target lesions identified at baseline, as well as local and systemic immunological effects of CyPep-1 in combination with pembrolizumab.

NCT ID: NCT05383144 Completed - Breast Cancer Clinical Trials

Deformable Image Registration for Breast Adaptive Tomotherapy

DIRB-ATOM
Start date: June 27, 2022
Phase:
Study type: Observational

The radiotherapy treatment plan (also called dosimetry) used for all treatment sessions is based on the dosimetric scanner. During the sessions, the anatomy of the breast may vary, and these variations may impact the quality of the treatment. Adaptive radiotherapy is a new technique that allows these changes to be taken into account during treatment by automatically rescheduling the treatment for each session. The proposed trial aims to clinically evaluate one of these adaptive radiotherapy tools (PreciseART) based on deformable registration in order to determine if it can be used in daily practice in the treatment of breast cancer by tomotherapy. The trial will also clarify whether factors, such as duration of treatment, impact the quality of this algorithm.

NCT ID: NCT05383092 Recruiting - Pediatric Cancer Clinical Trials

Adapted Physical Activity for Children Treated With Cancer and Insulin Sensitivity

APACIS
Start date: July 11, 2022
Phase: N/A
Study type: Interventional

The main objective of this study is to evaluate the evolution of the sensitivity to insulin, a hormone that acts on sugar in the body, as well as other metabolic, motor and nutritional elements of children with cancer, according to the practice of intense physical activities or stretching. In view of the scientific work on this subject, it is expect to observe that the practice of intense physical activities will improve the results of the children in the metabolic, motor and nutritional evaluations, compared to the stretching program.

NCT ID: NCT05382559 Recruiting - Solid Tumor Clinical Trials

A Study of ASP3082 in Adults With Previously Treated Solid Tumors

Start date: June 8, 2022
Phase: Phase 1
Study type: Interventional

Genes contain genetic code which tell the body which proteins to make. Many types of cancer are caused by changes, or mutations, in a gene called KRAS. Researchers are looking for ways to stop the actions of abnormal proteins made from the mutated KRAS gene. The so-called G12D mutation in the KRAS gene is common in people with some solid tumors. ASP3082 is a potential new treatment for solid tumors in people who have the G12D mutation in their KRAS gene. Before ASP3082 is available as a treatment, the researchers need to understand how it is processed by and acts upon the body. This information will help find a suitable dose and to check for potential medical problems from the treatment. People in this study will be adults with locally advanced, unresectable or metastatic solid tumors with the G12D mutation in their KRAS gene. Locally advanced means the cancer has spread to nearby tissue. Unresectable means the cancer cannot be removed by surgery. Metastatic means the cancer has spread to other parts of the body. They may have been previously treated with standard therapies. The main aims of the study are: to check the safety of ASP3082 by itself and together with cetuximab or chemotherapy, and how well it is tolerated, and to find a suitable dose of ASP3082 by itself and together with cetuximab or chemotherapy. This is an open-label study. This means that people in this study and clinic staff will know that they will receive ASP3082. This study will be in 2 parts. In Part 1, different small groups of people will receive lower to higher doses of ASP3082, by itself, or together with cetuximab. Any medical problems will be recorded at each dose. This is done to find suitable doses of ASP3082, by itself or together with cetuximab to use in Part 2 of the study. The first group will receive the lowest dose of ASP3082. A medical expert panel will check the results from this group and decide if the next group can receive a higher dose of ASP3082. The panel will do this for each group until all groups have received ASP3082 (by itself or together with cetuximab) or until suitable doses have been selected for Part 2. In Part 2, other different small groups of people will receive ASP3082 by itself or together with cetuximab or chemotherapy, with the most suitable doses worked out from Part 1. This will help find a more accurate dose of ASP3082 to use in future studies. ASP3082 (cetuximab or chemotherapy if used), will be given through a vein. This is called an infusion. Each treatment cycle is 21 or 28 days long. People will continue treatment until: they have medical problems from the treatment they can't tolerate; their cancer gets worse; they start other cancer treatment; or they ask to stop treatment. At some visits, other checks will include a medical examination, echocardiogram (ECHO) or multigated acquisition (MUGA) scan, blood and urine tests and vital signs. Vital signs include temperature, pulse, breathing rate, and blood pressure. (Blood oxygen levels will also be checked for people treated with ASP3082 together with cetuximab or chemotherapy.) Tumor samples will be taken during certain visits during treatment and when treatment has finished. People will visit the clinic on certain days during their treatment, with extra visits during the first 2 cycles of treatment. The study doctors will check for any medical problems from ASP3082 by itself or together with cetuximab or chemotherapy. At some visits, other checks will include a medical examination, echocardiogram (ECHO) or multigated acquisition (MUGA) scan, blood and urine tests and vital signs. Vital signs include temperature, pulse, breathing rate, and blood pressure. (Blood oxygen levels will also be checked for people treated with ASP3082 together with cetuximab or chemotherapy.) Tumor samples will be taken during certain visits during treatment and when treatment has finished. People will visit the clinic within 7 days after stopping treatment. The study doctors will check for any medical problems from ASP3082 by itself or together with cetuximab or chemotherapy. Other checks will include a medical examination, echocardiogram (ECHO) or multigated acquisition (MUGA) scan, urine and blood tests and vital signs. After this, people will continue to visit the clinic every 9 weeks to check the condition of their cancer. They will do this until 45 weeks after treatment stopped, or if their cancer is worse, they start other cancer treatment, or they ask to stop treatment. Also, people may visit the clinic at 30 days and 90 days after stopping treatment. At the 30-day visit, the study doctors will check for any medical problems from ASP3082 by itself or together with cetuximab or chemotherapy. People will have their vital signs checked and have some blood tests. At the 90-day visit, the study doctors will check for any medical problems from ASP3082 by itself or together with cetuximab or chemotherapy and people will have their vital signs checked.