View clinical trials related to Cancer.
Filter by:The C4 program aims to provide a multi-level intervention program (Patient Level, Healthcare Team and Healthcare System Level) that improves the coordination of care with supportive/ancillary care providers and community services through the use of patient navigation and a digital needs assessment and a closed-loop referral system and improves patient-centered communication and engagement in care through skills training for the healthcare team and provision of culturally appropriate patient educational tools and resources. The program components incorporate three areas that are critical to improving patient-centered care: coordination of care, patient-centered communication and engagement, and psychosocial care and other supportive services.
The purpose of this study is to assess the feasibility of a pre-simulation virtual reality (VR) platform designed to promote relaxation for cancer patients planned for radiation therapy (RT).
Precision oncology is the future of fighting cancer. Cancer Core Europe (CCE) developed a precision medicine trial, i.e. the Basket of Basket (BoB) study, to provide personalised treatment to a large number of patients by incorporating a molecular profiling platform. The EU-funded CCE_DART project, developed within the CCE Consortium, is aimed at improving efficiency and transform platform trials into data-rich translational research programmes. Within the CCE_DART project working area D "Patient involvement through information and partnership" three interconnected web e-tools were developed aimed at promoting patient information, recruitment, and involvement as well as facilitating adherence to the CCE BoB trial: 1) iENTER: informative web site addressed to potential BoB trial participants, their caregivers, patients' advocates, and the public; 2) iCONSENT: web app for remote management of the informed consent process in the CCE BoB trial.3) iPARTICIPATE: web app allowing remote access to BoB trial patients trial visits calendar, medications list and posology, to upload documents and download reports, messaging between patients and clinical staff. The main objective of this study is to carry out field testing and assess usability of the e-tools iENTER, iCONSENT and iPARTICIPATE. The study is also addressed at collecting patients' suggestions for improvements of the e-tools.
Solid tumors pose significant challenges in current therapeutic approaches. Targeted therapy has emerged as a promising avenue, aiming to enhance treatment efficacy while minimizing adverse effects. This clinical trial focuses on an innovative combination of two targeted inhibitors, Palbociclib and Bevacizumab, for their potential synergistic effects in addressing these challenging malignancies. Moreover, this study incorporates a molecular approach by considering Long Non-Coding RNAs (LncRNAs) as biomarkers. Initiating with a focus on colorectal cancer, the study aims to expand its scope to other solid tumors, including lung, breast, ovarian and other cancers. Palbociclib, a cyclin-dependent kinase 4/6 (CDK4/6) inhibitor, disrupts the cell cycle progression, particularly in cancer cells with specific molecular characteristics. Bevacizumab, a vascular endothelial growth factor (VEGF) inhibitor, targets angiogenesis-a critical process for tumor growth and metastasis. The rationale behind combining these agents lies in their complementary mechanisms of action, potentially leading to enhanced antitumor effects. LncRNAs have shown promise in predicting treatment response and prognosis in various cancers, providing an additional layer of precision to the treatment strategy. By elucidating the molecular basis through LncRNA analysis, the trial aims to tailor the treatment to the specific molecular profile of each patient, ultimately striving for better outcomes and improved survival rates. This novel combination therapy, coupled with a personalized biomarker-driven approach, represents a cutting-edge strategy in the pursuit of more effective and individualized treatment for solid tumors.
According to statistics, in 2020, new head and neck malignancies in the world accounted for 4.9% (931931 cases) of malignant tumors in the whole body, and the new death cases were 467125, accounting for 4.7% of malignant tumors in the whole body. The high incidence rate and mortality brought great burden to the medical system. In addition, due to various types of head and neck cancer, hidden location, impact on function and quality of life, and low overall survival rate, this type of disease has seriously threatened human health and social development. The incidence of oropharyngeal cancer and laryngeal cancer is more subtle. Traditional examination methods include CT(computer tomography), MR(magnetic resonance), and laryngoscopy, but they cannot make accurate judgments on the systemic TNM(primary tumor, regional nodes, metastasis) staging of oropharyngeal cancer and laryngeal cancer. 18F-FDG(18F-2-fluoro-2-deoxy-D-glucose fluorodeoxyglucose) PET/CT examination can better diagnose and stage compared to traditional examination methods. However, due to the interference of more inflammatory lesions or physiological uptake in the pharynx, the false positive rate of 18F-FDG PET/CT examination is significantly increased, 18F-FAPI(18F-fibroblast activation protein inhibitors) is a novel broad-spectrum tumor imaging agent that can be specifically uptake by fibroblasts in the tumor microenvironment, and has lower physiological uptake and acute inflammatory lesion uptake in the larynx. 18F-FAPI PET/CT examination can more accurately stage tumors throughout the body than 18F-FDG PET/CT examination. Combined with PET/MR local scanning, it will further improve the accuracy of T and N staging of local tumors. Therefore, It is of great significance for clinical diagnosis and treatment to effectively and reliably determine the systemic TNM staging of oropharyngeal and laryngeal cancer through non-invasive methods.
Recent research has highlighted the significant relationship between type 2 diabetes mellitus and cancer, both prevalent and impactful on global health. The intrinsic correlation arises from shared metabolic processes, particularly a systemic and chronic inflammatory state driven by factors like obesity, dyslipidemia, and hyperglycemia. This leads to the creation of a self-sustaining microenvironment known as meta-inflammation, promoting cancer development through DNA damage, oxidative stress, and the influence of hormones like leptin. The hyperglycemic environment in diabetes contributes to cancer development, supporting the Warburg effect and insulin-related mechanisms. This study aims to identify risk factors associated with diabetes that impact tumor development and progression, crucial for guiding effective preventive strategies in clinical practice. Primary objective of the study: - identify the risk factors affecting the occurrence of cancer in the population affected by type 2 diabetes mellitus; Secondary objectives of the study: - description of the demographic, clinical and first-line therapy characteristics of patients diagnosed with type 2 diabetes mellitus; - assess risk factors for recurrence, presence of a second tumour not related to the first and the presence of both events in patients who have had a tumor within 10 years of diagnosis of diabetes; - assess the relationship between the characteristics of patients and the time to the onset of cancer.
We aim to include 60 children and adolescents aged 10 to 19 years who have undergone successful treatment for leukemia or lymphoma. Based on randomization, they will either 1) commence 16 weeks of training with STEEL or 2) commence 16 weeks of circuit training. STEEL training involves exercises for major muscle groups using free weights, body weight, or tailored machines. Circuit training is structured similarly to previous training for the target group and includes exercises using body weight, exercise balls, and rings. The training takes place in local centers either with friends or with other participants in the project. Before starting participation in the project, the child/adolescent and their parents or guardians will receive information about late effects, diet, sleep, and exercise, providing guidance and support regarding the project elements. The effects of the two training modalities will be evaluated based on self-reported quality of life, muscle strength, muscle mass, bone mineral content, fitness, and markers of metabolic syndrome (BMI, waist circumference, blood pressure, and blood analysis).
The goal of this clinical interventional study is to compare the efficacy of mobile healthcare education in two ways (game-based or text-based) to improve cutaneous self-care capability in cancer patients receiving EGFR-based target therapy. The main questions it aims to answer are: Impact of different mobile healthcare education ways on cutaneous self-care capability of patients Impact of different mobile healthcare education ways on learning motivation of patients towards cutaneous self-care knowledge and skills Participants will be randomly divided into two groups. Both groups will download a healthcare education application on their phone. One group will accept the education about the knowledge and self-care skills of cutaneous adverse drug reaction by playing game. In contrast, the other group will accept the same education content by reading text on the phone. Subjects will be asked to use the application at home for two weeks after giving consent to participate this study, and then completed questionnaire three times during study period. The timepoints of completing questionnaire are listed following: Baseline / pre-intervention test (after signing informed consent form, D1) First post-intervention test (after finishing intervention, D15) Second post-intervention test (D30) Researchers will compare game group and text group to see if game group has better performance on cutaneous self-care capability and learning motivation.
Cancer associated fibroblasts (CAFs) can promote tumor cell proliferation, migration, invasion, and angiogenesis through immunosuppressive effects and the production of mediators, thereby promoting tumor growth and progression. The characteristic of CAFs is high expression of fibroblast activation protein (FAP). In approximately 90% of epithelial derived tumors, FAP is highly overexpressed on the membrane of CAFs. Contrary to CAFs, FAP expression is lower or absent in normal tissues. Therefore, FAP inhibitors (FAPI) targeting FAP can overcome the limitations of 18F-2-fluoro.2-deoxy-D-glucose fluorodeoxyglucose(18F-FDG) PET imaging. But like 18F-FDG, wound healing, fibrosis, and inflammation can also uptake FAPI.. Therefore, a comparison of the performance of 18F-FDG and 18F-FAPI PET imaging in diagnosing primary and metastatic lesions of various types of cancer is conducted to evaluate the potential value of these new radiopharmaceuticals as effective alternatives to 18F-FDG, highlighting their advantages and limitations.
Glioblastoma, the most prevalent malignant tumor in the central nervous system, is characterized by high invasiveness and a propensity to recur, contributing to a relatively elevated mortality rate. Patients diagnosed with high-grade glioblastomas typically experience a median survival period of less than 14 months. Presently, the standard treatment for glioblastoma involves surgical resection combined with postoperative radiotherapy and chemotherapy, with postoperative chemotherapy playing a pivotal role in enhancing patient prognosis. Temozolomide (TMZ), a cutting-edge oral alkylating agent known for its advantageous properties, including easy traversal of the blood-brain barrier, induces DNA alkylation in tumor cells, fostering apoptosis. Currently, it serves as a frontline medication for postoperative chemotherapy in glioblastoma. However, clinical resistance to TMZ chemotherapy significantly hampers its efficacy in later stages. We have recently discovered and validated that 5-aminoimidazole-4-carboxamide (AICA), derived from TMZ, can transform into 5-aminoimidazole-4-carboxamide ribonucleotide-5-phosphate (AICAR) in GBM cells. Hypoxanthine phosphoribosyltransferase 1 (HPRT1) has been identified as the catalyst for the AICA reaction, generating AICAR. AICAR acts as an endogenous activator of AMP-activated protein kinase (AMPK), fostering chemoresistance in glioblastoma through the activation of the AMPK signaling pathway. 6-mercaptopurine (6-MP) competes effectively to inhibit HPRT1 activity, thereby impeding TMZ-induced AMPK activation and significantly heightening glioblastoma cell sensitivity to TMZ. In this project, we propose an innovative strategy involving the combination of 6-MP with TMZ for the treatment of glioblastoma.