View clinical trials related to Neuroblastoma.
Filter by:Background: Olfactory neuroblastoma (ONB) is a rare cancer of the nasal cavity. At diagnosis, it is usually locally advanced. It tends to spread to the neck. Sometimes it spreads to the lungs and bones. Researchers want to find a better way to treat it. Objective: To learn if giving immunotherapy drug bintrafusp alfa can help ONB shrink or disappear. Eligibility: People aged 18 years and older diagnosed with recurrent or metastatic ONB that has not responded to standard treatment. Design: Participants will be screened with a medical history, blood and urine tests, and physical exam. Their ability to perform their normal activities will be assessed. They will have an electrocardiogram to evaluate their heart. They will have imaging scans and/or a nuclear bone scan, as needed. For some scans, they may receive a contrast dye. Some screening tests will be repeated during the study. Participants will receive bintrafusp alfa once every 2 weeks for 26 doses. They will get it intravenously over 60 minutes. They may get other medicines to prevent side effects. They will complete health questionnaires. Visits will last 4-6 hours. Participants may have optional tumor biopsies. Participants will have an end of treatment visit within 7 days after they stop taking the study drug. About 28 days after treatment ends, they will have a safety visit. They will have follow-up visits every 3 months for the first year, then every 6 months for years 2-5, and then once a year after that for the rest of their life. If their disease progresses, they may be eligible for re-treatment with the study drug
The purpose of the study is to find out whether N9 is a safe and effective treatment for children with neuroblastoma. N9 includes 3 different combinations of chemotherapy drugs that are given at different times - Cyclophosphamide, topotecan, and vincristine (CTV), Ifosfamide, carboplatin, and etoposide (ICE), Cyclophosphamide, doxorubicin, and vincristine (CDV).
The purpose of the study is to explore the combination of a bivalent vaccine, a sugar called beta-glucan (β-glucan), and a protein called granulocyte-macrophage colony stimulating factor (GM-CSF) as an effective treatment for people with high-risk neuroblastoma that is in complete remission. The combination may be effective because the different parts of the treatment work to strengthen the immune system's response against cancer cells in different ways.
This is a single-arm, uncontrolled, international, multi-center, clinical,phase 2 trial, in patients ≥ 12 months of age with high-risk neuroblastoma in first remission. 120 patients will be enrolled to receive naxitamab + GM-CSF in combination with isotretinoin.
The LuDO-N Trial is a multi-centre phase II clinical trial on 177Lu-DOTATATE treatment of recurrent or relapsed high-risk neuroblastoma in children. The LuDO-N Trial builds on the experience from the previous LuDO Trial and utilises an intensified dosing schedule to deliver 2 doses over a 2-week period, in order to achieve a maximal effect on the often rapidly progressing disease. This strategy requires a readiness for autologous stem cell transplantation in all patients, but is not anticipated to increase the risk of long-term sequelae, since the cumulative radiation dose remains unchanged. The primary aim of the study is to assess the response to 177Lu-DOTATATE treatment at 1 and 4 months after ende of treatment. Secondary aims are to assess survival and treatment-related toxicity. Additional aim are to correlate tumour dosimetry with response, correlate SSTR-2 expression with 68Ga-DOTATATE uptake and to correlate the uptake with the treatment response.
The phase I portion of this study is designed for children or adolescents and young adults (AYA) with a diagnosis of a solid tumor that has recurred (come back after treatment) or is refractory (never completely went away). The trial will test 2 combinations of therapy and participants will be randomly assigned to either Arm A or Arm B. The purpose of the phase I study is to determine the highest tolerable doses of the combinations of treatment given in each Arm. In Arm A, children and AYAs with recurrent or refractory solid tumors will receive 2 medications called Onivyde and talazoparib. Onivyde works by damaging the DNA of the cancer cell and talazoparib works by blocking the repair of the DNA once the cancer cell is damaged. By damaging the tumor DNA and blocking the repair, the cancer cells may die. In Arm B, children and AYAs with recurrent or refractory solid tumors will receive 2 medications called Onivyde and temozolomide. Both of these medications work by damaging the DNA of the cancer call which may cause the tumor(s) to die. Once the highest doses are reached in Arm A and Arm B, then "expansion Arms" will open. An expansion arm treats more children and AYAs with recurrent or refractory solid tumors at the highest doses achieved in the phase I study. The goal of the expansion arms is to see if the tumors go away in children and AYAs with recurrent or refractory solid tumors. There will be 3 "expansion Arms". In Arm A1, children and AYAs with recurrent or refractory solid tumors (excluding Ewing sarcoma) will receive Onivyde and talazoparib. In Arm A2, children and AYAs with recurrent or refractory solid tumors, whose tumors have a problem with repairing DNA (identified by their doctor), will receive Onivyde and talazoparib. In Arm B1, children and AYAs with recurrent or refractory solid tumors (excluding Ewing sarcoma) will receive Onivyde and temozolomide. Once the highest doses of medications used in Arm A and Arm B are determined, then a phase II study will open for children or young adults with Ewing sarcoma that has recurred or is refractory following treatment received after the initial diagnosis. The trial will test the same 2 combinations of therapy in Arm A and Arm B. In the phase II, a participant with Ewing sarcoma will be randomly assigned to receive the treatment given on either Arm A or Arm B.
3CAR is being done to investigate an immunotherapy for patients with solid tumors. It is a Phase I clinical trial evaluating the use of autologous T cells genetically engineered to express B7-H3-CARs for patients ≤ 21 years old, with relapsed/refractory B7-H3+ solid tumors. This study will evaluate the safety and maximum tolerated dose of B7-H3-CAR T cells.The purpose of this study is to find the maximum (highest) dose of B7-H3-CAR T cells that are safe to give to patients with B7-H3-positive solid tumors. Primary objective To determine the safety of one intravenous infusion of autologous, B7-H3-CAR T cells in patients (≤ 21 years) with recurrent/refractory B7-H3+ solid tumors after lymphodepleting chemotherapy Secondary objective To evaluate the antitumor activity of B7-H3-CAR T cells Exploratory objectives - To evaluate the tumor environment after treatment with B7-H3-CAR T cells - To assess the immunophenotype, clonal structure and endogenous repertoire of B7-H3-CAR T cells and unmodified T cells - To characterize the cytokine profile in the peripheral blood after treatment with B7-H3-CAR T cells
Cd276 (B7-H3) is an ideal target for car-t treatment because of its high expression on the surface of neuroblastoma, osteosarcoma, gastric cancer and lung cancer cells, but not in normal peripheral cells or tissues. In conclusion, car-t cell therapy has achieved exciting results in blood tumors, but it has been stopped in solid tumor. The main reason for the poor effect is the existence of tumor microenvironment of solid tumor, which inhibits the chemotaxis and infiltration of car-t cells to tumor site. Therefore, in this clinical experiment, we will explore the best model of car-t therapy for solid tumor by intravenous and local tumor injection, which will bring new hope to patients with osteosarcoma, neuroblastoma and gastric cancer
This phase I/II trial evaluates the highest safe dose, side effects, and possible benefits of tegavivint in treating patients with solid tumors that has come back (recurrent) or does not respond to treatment (refractory). Tegavivint interferes with the binding of beta-catenin to TBL1, which may help stop the growth of tumor cells by blocking the signals passed from one molecule to another inside a cell that tell a cell to grow.
Neuroblastoma is an embryonal tumor originated from primitive neural crest cells. It is the most common extracranial solid tumor in children. It is characterized by abundant blood vessels, rapid growth and early metastasis.With the gradual improvement of diagnosis and treatment technology, the survival rate of children with Neuroblastoma in China has been increasing year by year, but the Overall Survival is still lower than that in European and American countries, so new and efficient treatment methods are urgently needed in clinical practice.Anti-angiogenesis target therapy is an important component of the malignant tumor treatment, hydrochloric acid for Anlotinib has the anti-tumor angiogenesis and suppress tumor growth, Anlotinib currently in thyroid carcinoma, esophageal cancer, liver cancer, colorectal cancer, soft nest, cervical cancer, soft tissue sarcoma and so on the many kinds of cancer are conducting clinical trials, but in neuroblastoma application has not been reported.The purpose of this study was to explore the therapeutic effect and mechanism of Anlotinib and irinotecan combined with temozolomide in the treatment of refractory or recurrent Neuroblastoma in children.Neuroblastoma is an embryonal tumor originated from primitive neural crest cells. It is the most common extracranial solid tumor in children. It is characterized by abundant blood vessels, rapid growth and early metastasis.It accounts for 8%-10% of all malignant tumors in children, with an annual incidence of 0.3-5.5/100,000.The prognosis of Neuroblastoma was closely related to age at diagnosis, clinical stage, tumor pathological type, N-myc gene copy number and DNA index.According to the above five indicators, the Children's Oncology Group divided NB into low, medium and high risk groups.According to the 2013 Children's Oncology Group data, the current 5-year Overall Survival of low - and moderate-risk Neuroblastoma patients was 90%, while the Overall Survival of high-risk patients was only 50%.The current treatment of Neuroblastoma is a multidisciplinary combination of surgery, chemoradiotherapy and autologous stem cell transplantation.With the gradual improvement of diagnosis and treatment technology, the survival rate of children with NB in China has been increasing year by year, but the Overall Survival is still lower than that in European and American countries, so new and efficient treatment methods are urgently needed in clinical practice.