CAR T Cells After Lymphodepletion for the Treatment of IL13Rα2 Positive Recurrent or Refractory...
Malignant Brain NeoplasmRecurrent Malignant Brain Neoplasm1 moreThis phase I trial investigates the side effects of chemotherapy and cellular immunotherapy in treating children with IL13Ralpha2 positive brain tumors that have come back after a period of improvement (recurrent) or do not respond to treatment (refractory). Cellular immunotherapy (IL13(EQ)BBzeta/CD19t+ T cells) are brain-tumor specific cells that may induce changes in body's immune system and may interfere with the ability of tumor cells to grow and spread. Chemotherapy drugs, such as as cyclophosphamide and fludarabine, work in different ways to stop the growth of tumor cells, either by killing the cells, by stopping them from dividing, or by stopping them from spreading. Many patients with brain tumor respond to treatment, but then the tumor starts to grow again. Giving chemotherapy in combination with cellular immunotherapy may kill more tumor cells and improve the outcome of treatment.
Stereotactic Brain-directed Radiation With or Without Aguix Gadolinium-Based Nanoparticles in Brain...
Brain CancerBrain Metastases14 moreThe purpose of this study is to determine whether AGuIX (Activation and Guidance of Irradiation by X-ray) gadolinium-based nanoparticles make radiation work more effectively in the treatment of patients with brain metastases that are more difficult to control with stereotactic radiation alone.
ARX788 in HER2-positive Breast Cancer Patients With Brain Metastases
HER2-positiveMetastatic Breast CancerA Phase 2 Study of ARX788 in HER2-positive, Metastatic Breast Cancer Patients whose Disease is resistant or refractory to Tyrosine kinase inhibitors (TKI).
Toripalimab Combined With Anlotinib and SBRT in Patients With Untreated Brain Metastases of Driven...
NSCLCThe purpose of this study is to explore the efficacy and safety of toripalimab combined with anlotinib and SBRT for non-driver gene mutation untreated brain metastases non-small Cell Lung Cancer.
GM1 Prophylaxis for WBRT Related Cognitive Dysfunction
Brain MetastasesRadiotherapy Side Effect4 moreTo evaluate the efficacy and safety of GM1 for preventing cognitive impairment related to whole brain radiotherapy in breast cancer patients with brain metastases. And explore the clinical and molecular parameter for predicting severe cognitive impairment induced by WBRT and gaining benefit from GM1. Primary Endpoint: the change of Hopkins Verbal and Learning Test-Revised Delayed Recall,HVLT-R DR,before and after WBRT Secondary ENDPOINT: the change of Alzheimer's Disease Assessment Scale-Cognitive,ADAS-Cog before and after WBRT;severe cognitive impairment percentage and onset time; Design:204 patients will be randomly assigned to exp.group,102 cases,and 102 cases of control group.
Phase 2 Trial in Multiple Brain Metastases Outcomes With HA-SIB-WBRT
Brain MetastasesRecently, the evidence supports hippocampal avoidance with whole brain radiotherapy (HA-WBRT) as the recommended treatment option in patients with good prognosis and multiple brain metastases as it gives better neurocognitive preservation compared to historical whole brain radiotherapy controls. There is however often poor tumour control with this technique due to the low doses given. Stereotactic Radiosurgery (SRS), a form of focused radiotherapy which is given to patients who have a limited number of brain metastases, gives a higher radiation dose to the metastases resulting in better target lesion control. With improvements in radiation technology, advanced dose-painting techniques now allow a simultaneous integrate boost (SIB) dose to lesions whilst minimising doses to the hippocampus to potentially improve brain tumour control and preserve cognitive outcomes (HA-SIB-WBRT). The Investigators believe that the SIB in HA-SIB-WBRT (experimental) will result in better functional and survival outcomes compared to HA-WBRT (control). Patients who are fit, have multiple brain metastases (5-25 lesions) and reasonable life expectancy (>6 months) will be recruited from NCCS over 2 years. Patients will be followed up the over the following year with imaging, toxicity data, quality of life, activities of daily living and cognitive measurements at set time points. The results will be compared across the 2 arms. Patients with brain metastases are living longer. Maintaining functional independence and brain metastases control is thus increasingly important. Improved radiotherapy treatment techniques could provide better control and survival outcomes whilst maintain QoL and functional capacity.
Pediatric Trial of Indoximod With Chemotherapy and Radiation for Relapsed Brain Tumors or Newly...
GlioblastomaMedulloblastoma2 moreIndoximod was developed to inhibit the IDO (indoleamine 2,3-dioxygenase) enzymatic pathway, which is important in the natural regulation of immune responses. This potent immune suppressive mechanism has been implicated in regulating immune responses in settings as diverse as infection, tissue/organ transplant, autoimmunity, and cancer. By inhibiting the IDO pathway, we hypothesize that indoximod will improve antitumor immune responses and thereby slow the growth of tumors. The central clinical hypothesis for the GCC1949 study is that inhibiting the pivotal IDO pathway by adding indoximod immunotherapy during chemotherapy and/or radiation is a potent approach for breaking immune tolerance to pediatric tumors that will improve outcomes, relative to standard therapy alone. This is an NCI-funded (R01 CA229646, MPI: Johnson and Munn) open-label phase 2 trial using indoximod-based combination chemo-radio-immunotherapy for treatment of patients age 3 to 21 years who have progressive brain cancer (glioblastoma, medulloblastoma, or ependymoma), or newly-diagnosed diffuse intrinsic pontine glioma (DIPG). Statistical analysis will stratify patients based on whether their treatment plan includes up-front radiation (or proton) therapy in combination with indoximod. Central review of tissue diagnosis from prior surgery is required, except non-biopsied DIPG. This study will use the "immune-adapted Response Assessment for Neuro-Oncology" (iRANO) criteria for measurement of outcomes. Planned enrollment is up to 140 patients.
Acceptance and Commitment Therapy for Neuro-Oncology Wellbeing
Brain TumorsQuality of Life2 moreBackground. Survivors of childhood brain tumours have the poorest health-related quality of life of all cancer survivors due to the multiple physical and psychological sequelae of brain tumours and their treatment. Remotely delivered Acceptance and Commitment Therapy (ACT) may be a suitable and accessible psychological intervention to support young people who have survived brain tumours. Aims. This study aims to assess the feasibility and acceptability of remotely delivered ACT to improve quality of life among young brain tumour survivors. Method. This study is a two-arm, parallel group, randomised controlled trial comparing ACT with waitlist control. Participants will be aged 11-24 years and survivors of brain tumours who have completed cancer treatment. Participants will be randomised to receive 12 weeks of ACT either immediately or after a 12-week wait. The durability of treatment effects will be assessed by further follow-up assessments at 24-, 36- and 48- weeks. The DNA-v model of ACT will be employed, which is a developmentally appropriate model for young people. Feasibility will be assessed using the proportion of those showing interest who consent to the trial and complete the intervention. A range of clinical outcome measures will also assess physical and mental health, everyday functioning, quality of life and service usage. Acceptability will be assessed using participant evaluations of the intervention, alongside qualitative interviews and treatment diaries analysed thematically. Discussion. This study will provide an initial assessment of the value of remotely delivered ACT in supporting recovery and coping for young people after brain tumour treatment.
Phase Ib/II Trial of Abemaciclib and Elacestrant in Patients With Brain Metastasis Due to HR+/Her2-...
Breast CancerThis is a multi-institutional, single arm, open label, Phase Ib/II study of abemaciclib in combination with elacestrant in patients with HR+/Her2- breast cancer metastatic to the brain. Patients may have received up to two prior lines of systemic chemotherapy for locally advanced or metastatic disease. There will be no limit on prior use of endocrine therapy including aromatase inhibitors, tamoxifen and fulvestrant, given a documented clinical benefit of elacestrant in this setting.
Intraoperative Radiotherapy in Patients With Brain Metastases
Brain MetastasesIntraoperative radiotherapy (IORT) is a new alternative for local radiotherapy with the advantages of dose escalation, reduced overall treatment time, and enhanced patient convenience, however the degree of efficacy is unknown, as well as and which is the most efficient dose. The objective of this study is to evaluate the efficacy and safety of IORT in patients with surgical excision of brain metastases at a dose of 20 Gy is at least as effective and safe as other forms of radiation therapy in patients with resection of brain metastases.