View clinical trials related to Neoplasms.
Filter by:To study the correlation between the content of natural IgM in patients' blood samples and liposomal doxorubicin for clinical use, and to explore the possibility of using natural IgM content to guide clinical accurate medication.
This is a Phase 1, first-in-human, open-label, adaptive-design outpatient study to assess the safety, tolerability, and PK/PD of SON-1010 administered to patients with advanced solid tumors.
Few chemotherapeutic options exist for pancreatic cancer. Moreover, objective criteria are lacking for deciding which regimen is more beneficial for patient presenting with metastases at diagnosis. This study investigates whether organoid generation from tumour samples of pancreatic cancer is a safe and feasible process for testing of multiple chemotherapy regimens in the laboratory. By participating to this study, patients will have a part of the tumour tissue retrieved and sent to the laboratory for organoid generation and drug testing. For surgically-resectable tumors, tumoral tissue samples will be collected from the main surgical specimens, before sending it for final pathological examination. In case of suspected metastatic lesion at diagnosis, curative surgery is not indicated. Therefore, we will offer patients to undergo port-a-cath implantation for chemotherapy delivery and concomitant laparoscopic surgical excisional biopsy of suspicious metastatic (either hepatic or peritoneal) lesions. At this stage of the study, the treatment that the patient will receive after surgery will not be affected by the results of the laboratory testing. In fact, all patients will receive the standard of care treatment based on the most recent oncologic guidelines and on the oncologist's clinical judgement. As part of the study, each patient will be followed for 30 days to assess possible surgical complications related to the surgical biopsy. This study will help to speed up the implementation of organoid generation in the clinical routine for the choice of the best treatment of patients affected by pancreatic cancer.
The main technical difficulties in radioactive iodine-125 seed implantation (RISI) lie in the complexity of operation and the control of operation quality. The current data shows that under the combined guidance of 3D-printing template and CT, the accuracy of RISI has been significantly improved, and the actual target dose could meet the design requirements of preoperative plan. At present, 3D printing templates (3DPT) are divided into non-coplanar templates (3DPNCT) and coplanar templates (3DPCT). In clinical practice, due to the complex technical requirements, high production cost and long printing time of 3DPNCT, a considerable number of patients can also complete the treatment with 3DPCT. Moreover, compared with 3DPNCT, 3DPCT has the advantages of accurate needle path control, fast needle path adjustment, convenient for intraoperative real-time optimization, without waiting for printing time, easy for doctors to master, lower cost than 3DPNCT, and easy to carry out at the grass-roots level. Therefore, this study intends to explore 3DPCT technology to further clarify: (1) the accuracy of 3DPCT assisted CT guided RISI in the treatment of thoracic malignant tumors; (2) the short-term efficacy and toxicity of 3DPCT assisted CT guided RISI in the treatment of thoracic malignant tumors.
SBRT (stereotactic radiotherapy) can provide a higher dose to the target area without increasing the risk of surrounding normal tissue / organ injury in selective cases. At present, SBRT has been widely used in radiotherapy of lung cancer and it can also play a better local control for lung metastasis. However, there are parallel organs and series organs in the chest, and different organs have different tolerance to radiotherapy, so the toxicities of SBRT in different sites are different, and the prescription dose is also different. This study intends to make a detailed division of the chest region and explore the safety and efficacy of SBRT in different areas. It is divided into four types: chest wall type: the lesion is directly adjacent or overlapped with the chest wall; peripheral type: the lesion is more than 1cm away from the chest wall and more than 2cm away from the bronchial tree; central type: the lesion is less than 2cm away from the bronchial tree; ultral-central type: the lesion is directly adjacent or overlapped with the mediastinal structure. 48-60Gy / 4-10f (EQD2 = 62.5Gy ~ 99.7Gy) was given according to the location of the tumor. Main outcome measures are local progression free survival and radiation toxicities; secondary outcome measure is overall survival.
This phase I trial tests a digital meditation for postoperative pain control after abdominal surgery for cancer. Mindfulness interventions such as guided meditation may improve pain control and decrease stress. Including a brief mindfulness intervention administered via test messages as part of postoperative care may improve pain severity, decrease opioid use, and improve patient responses to non-surgical treatments.
This is an open-label, dose-escalation, multi-center phase I study evaluating the safety of CF33-hNIS (hNIS - human sodium iodide symporter) administered via two routes of administration, intratumoral (IT) or intravenous (IV), either as a monotherapy or in combination with pembrolizumab in patients with metastatic or advanced solid tumors.
This phase I trial finds out the side effects and possible benefits of stereotactic radiosurgery and immune checkpoint inhibitors with NovoTTF-100M for the treating of melanoma that has spread to the brain (brain metastases). Stereotactic radiosurgery is a type of external radiation therapy that uses special equipment to position the patient and precisely give a single large dose of radiation to a tumor. It is used to treat brain tumors and other brain disorders that cannot be treated by regular surgery. Immunotherapy with monoclonal antibodies, such as pembrolizumab, nivolumab and ipilimumab, may help the body's immune system attack the cancer, and may interfere with the ability of tumor cells to grow and spread. NovoTTF-100M is a portable battery operated device which produces tumor treating fields in the body by means of surface electrodes placed on the skin. Tumor treating fields are low intensity, intermediate frequency electric fields that pulse through the skin to disrupt cancer cells' ability to divide. Giving stereotactic radiosurgery and immune checkpoint inhibitors with NovoTTF-100M may work better than stereotactic radiosurgery and immune checkpoint inhibitors.
The objective of this study is to assess the safety and tolerability of MRG002 in combination with HX008 in patients with HER2-expressed advanced malignant solid tumors; and to , explore the maximum tolerated dose (MTD), and to determine the recommended phase II dose (RP2D) of combination therapy; , and to evaluate the preliminary efficacy, pharmacokinetics, and immunogenicity of combination therapy in the targeted study population.
This is a Phase I, Open-Label, Multi-Center, Dose Finding Study to Investigate the Safety, Pharmacokinetics, and Preliminary Efficacy of ATG-018 (ATR inhibitor) Treatment in Patients with Advanced Solid Tumors and Hematological Malignancies .