View clinical trials related to Neuroblastoma.
Filter by:The best treatment for recurrent cancers or those that do not respond to therapies is not known. Typically, patients with these cancers receive a combination of cancer drugs (chemotherapy), surgery, or radiation therapy. These treatments can prolong their life but may not offer a long-term cure. This study proposes using a drug called Sirolimus in combination with common chemotherapy drugs to treat patients with recurrent and refractory solid tumors. Sirolimus has been found to inhibit cell growth and to have anti-tumor activity in pediatric solid tumors in previous studies and, therefore, has the potential to increase the effectiveness of the chemotherapy drugs when given together. This study wil investigate the highest dose of Sirolimus that can be given orally with other oral chemotherapy drugs. Cohorts of 2 subjects will be started at the minimum dose. The dose will be increased in the next 2 subjects as long as there were no major reactions in the previous groups. This study will also seek to learn more about the side effects of sirolimus when used in this combination and what effects the drug has on the white cells and the immune system. Successful use of this drug will impact the cancer population greatly by providing an increased chance of survival to those with resistant or recurrent cancers.
Neuroblastoma is a cancer of the nervous system and accounts for 15% of cancer related deaths in children. With the advancement of treatment therapies, the long term survival rate has progressed to approximately 50%. The therapy used for treatment, however, is very toxic and associated with serious long-term side effects. Treatment for neuroblastoma typically includes chemotherapy, surgery, stem cell transplantation, radiation therapy, and immunotherapy. At the end of this treatment, children with neuroblastoma commonly take the drug isotretinoin for 6 months. Isotretinoin maintains the response to previous treatments and helps turn the remaining cancer cells into normal nerve cells. Most patients often respond to this treatment at first but are at a high-risk for the cancer coming back. The majority of the children who relapse after treatment or develop recurrent disease do so in the first two years following the completion of therapy and there are no current treatments to cure those who relapse. This study will explore whether or not extending the therapy with isotretinoin from 6 months to 24 months will help prevent the cancer from coming back without causing severe side effects.
This is a pilot study to determine whether doses of 15 mCi/kg and 18 mCi/kg of 131I-MIBG are tolerable when given with irinotecan/vincristine on a one week schedule to children and young adults with high-risk refractory/relapsed neuroblastoma.
The purpose of this study is to gain knowledge about how to best diagnose and treat tumors, how tumors affect normal tissue and how treatment of tumors with radiation therapy and chemotherapy affect tumors.
This randomized phase III trial is studying how well Caphosol rinse works in preventing mucositis in young patients undergoing autologous or donor stem cell transplant. Supersaturated calcium phosphate (Caphosol) rinse may be able to prevent mucositis, or mouth sores, in patients undergoing stem cell transplant.
Apart from brain tumors, Neuroblastoma is the most common solid tumor during childhood. About 50% of the cases present at diagnosis with factors of bad prognosis. During the last two decades, despite increased therapeutic intensity during induction and consolidation of high-risk neuroblastomas, the 5 year overall survival of high risk neuroblastoma remains in between 30 to 40% depending on studies. Besides strategies of high-dose chemotherapy followed by autologous transplantation of hematopoietic stem cells, and differentiating molecules (retinoids), immunotherapy will become one of the leading anti-neuroblastoma targeted therapy. No therapeutic strategies or molecules obtained such gains of survival ever before. Studying the immune system of children with neuroblastoma at diagnosis and during their treatment will help us to determine when we should test active or passive immunotherapy strategies. Moreover, this study would allow us to specify the cause of tumor immune tolerance in neuroblastoma, on which we have few data in comparison to adult tumors. This will be a multicentric, pilot, prospective, open, study that will not require unusual diagnostic interventions. This study will be transversal (all neuroblastoma stages included) in order to determine comparative criteria between low and high risk neuroblastoma. It will also be longitudinal (from diagnosis to post-treatment follow-up) in order to specify evolutionary aspects of immunity under radio-chemotherapy and retinoic acid therapy. Immunological analyses will be done on blood, bone marrow and tumor samples, at diagnosis, and during the treatment of children diagnosed for neuroblastoma (up to 3 time points). These types of samples are routinely done during conventional neuroblastoma treatment.
This is a multi-site study with plerixafor in pediatric cancer patients. The study will be conducted in 2 stages: - Stage 1 is a dose-escalation study. - Stage 2 is an open-label, randomized, comparative study using the appropriate dosing regimen identified in the Stage 1 dose-escalation study. All participating patients will receive a standard mobilization regimen as per study site practice guidelines (either chemotherapy plus once daily granulocyte-colony stimulating factor (G-CSF) or once daily G-CSF alone). The only change to the standard mobilization regimen is the addition of plerixafor treatment prior to apheresis for all patients in Stage 1 (dose escalation), and for those patients randomized to the plerixafor plus standard mobilization treatment arm in Stage 2 (randomized, comparative). Stage 1 will enroll at least 27 patients. Stage 2 will enroll at least 40 patients.
This treatment study for relapsed high-risk neuroblastoma, Ewings sarcoma, osteogenic sarcoma, rhabdomyosarcoma or synovial sarcoma involves an autologous cancer testis (CT) antigen specific dendritic cell (DC) vaccine preceded by decitabine as a demethylating chemotherapy.
Background: - Marqibo(Registered Trademark) is a new anticancer drug. It combines Vincristine sulfate, which is a widely used anticancer drug, and packages it into a tiny fat bubble known as a liposome. The goal of this is to improve the drug's ability to destroy cancer cells and help reduce the potential side effects of treatment. - Vincristine sulfate was originally developed from chemicals found in the periwinkle plant and acts against multiple types of malignant cancer. It is approved for multiple cancer types including solid tumors and blood cancers. - Research has shown that Marqibo(Registered Trademark) is able to slow or stop the growth of cancer cells in some adults, both alone and in combination with other chemotherapy drugs, but more research is needed to determine its use in children. - There has been one previous small study of Marqibo(Registered Trademark) in children. Although some anti-cancer activity was seen, side effects and optimal dosing were not fully determined. - As is seen with standard Vincristine suflate, the most common side effect of Marqibo(Registered Trademark) involves the nervous system. It can cause numbness and tingling in the hands and feet. Symptoms commonly improve when the drug is discontinued or the dose is lowered. Objectives: - To determine the safety and efficacy of Marqibo as a treatment for children who have been diagnosed with certain types of malignant cancer that has not responded to standard treatment. Eligibility: - Children and adolescents between 2 and 21 years of age who have been diagnosed with certain types of malignant cancer that has not responded to standard treatment. - These cancer types include solids tumors, primary brain tumors, leukemias, and lymphomas.
This phase I trial is studying the side effects and the best dose of vorinostat when given together with isotretinoin to see how well it works in treating patients with high-risk refractory or recurrent neuroblastoma. Vorinostat may stop the growth of tumor cells by blocking some of the enzymes needed for cell growth. Isotretinoin may help vorinostat work better by making tumor cells more sensitive to the drug. Giving vorinostat together with isotretinoin may be an effective treatment for neuroblastoma.