View clinical trials related to Brain Tumor, Pediatric.
Filter by:The goal of this observational study is to learn about the clinical and nutritional effectiveness of ketogenic diet (KD) in pediatric patients with genetic, neurological or metabolic conditions requiring KD. The main question[s] it aims to answer are: - does KD support adequate growth? - does KD improve clinical symptoms? - how does KD impact quality of life? Participants will be followed up as per clinical practice
The REMIT (RE-irradiation of diffuse MIdline glioma paTients) study evaluates safety and the palliative efficacy of re-irradiation of patients with diffuse midline glioma (DMG). The study will introduce a standard re-irradiation treatment schedule for DMG patients who have progressed following primary treatment.
This will be the first in-depth study to evaluate pretreatment and 12 months post-treatment, neurocognitive and psychological outcomes of children with brain tumor and blood cancer in Pakistan. The investigators will also determine the socioeconomic burden of pediatric brain tumors in low middle-income region and the association of micro RNA and protein markers with neurocognitive outcomes in PBT and blood cancer children. A prospective cohort study with a follow-up of 12 months at the Aga Khan University Hospital, Karachi, Pakistan and Jinnah postgraduate Medical Centre , Karachi, Pakistan will be conducted. After taking consent/ assent the investigators will recruit 80, 5-21 years old children with newly diagnosed brain tumors presenting with any stage, who have not undergone any treatment. Trained psychologist will assess the neurocognitive outcomes by the Slosson scale, Raven's progressive matrices and Wechsler Intelligence Scale for children (WISC V) and Wechsler Adult Intelligence Scale (WAIS-IV) tools. The Quality of life and depression of the children will be determined by PedQL and Revised Children's Anxiety and Depression Scale (RCADS) and hospital anxiety and depression scale (HADs) respectively . The financial burden of the disease on the family will be measured on a visual analog scale ranging from no burden (0) to very large burden (100) and the parents QoL and disrupted schedule, financial problems, lack of family support, health problems and the impact of caregiving on caregiver's self-esteem will be assessed by Pediatric Quality of Life Inventory PedQl (family module) and Caregiver Reaction Assessment (CRA) tools respectively. The serum micro RNA (mi-21, mi-10b and mi-210) and protein markers (GFAP, NSE and S100β) will be assessed by qRT-PCR and ELISA.
Primary malignant central nervous system (CNS) tumors are the second most common childhood malignancies. Amongst, medulloblastomas are the most common malignant brain tumor of childhood and occur primarily in the cerebellum. According to molecular characteristics, medulloblastomas were classified into four subtypes: WNT, SHH, Group3 and Group4 and different prognosis were noticed between subgroups. Several genetic predispositions related to clinical outcome were also discovered and might influence the treatment of medulloblastomas as novel pharmaceutical targets. This study aims to investigate genetic and cellular profiles of pediatric brain malignancies, mostly medulloblastomas, and other central nervous system tumor based on WGS, RNA-seq, single-cell sequencing and spatial transcriptomics. We also aim to investigate the correlation between genetic characteristics and clinical prognosis.
This is a pilot project to explore the utility of PET-MRI in the post-treatment surveillance of high-grade gliomas or medulloblastomas in children in our institution.
The purpose of this study is to test the safety and efficacy of iC9-GD2-CAR T-cells, a third generation (4.1BB-CD28) CAR T cell treatment targeting GD2 in paediatric or young adult patients affected by relapsed/refractory malignant central nervous system (CNS) tumors. In order to improve the safety of the approach, the suicide gene inducible Caspase 9 (iC9) has been included.
Children and adults with recurrent or progressive malignant brain tumors have a dismal prognosis, and outcomes remain very poor. Magrolimab is a first-in-class anticancer therapeutic agent targeting the Cluster of differentiation 47 (CD47)-signal receptor protein-alpha (SIRP-alpha) axis. Binding of magrolimab to human CD47 on target malignant cells blocks the "don't eat me" signal to macrophages and enhances tumor cell phagocytosis. Pre-clinical studies have shown that treatment with magrolimab leads to prolonged survival in models of Atypical Teratoid Rhabdoid Tumors (ATRT), diffuse intrinsic pontine glioma (DIPG), high-grade glioma (adult and pediatric), medulloblastoma, and embryonal tumors formerly called Primitive Neuro-Ectodermal Tumors (PNET). Safety studies in humans have proven that magrolimab has an excellent safety profile. Ongoing studies are currently testing magrolimab in adult myelodysplastic syndromes, acute myeloid leukemia, non-Hodgkin lymphoma, colorectal, ovarian, and bladder cancers. Herein we propose to test the safety of magrolimab in children and adults with recurrent or progressive malignant brain tumors.
In this prospective, open, single-armed, multicenter, phase II study for application of 5-ALA in children and adolescents with supratentorial brain tumors 80 patients will be investigated. Primary objective of the study is to determine the safety of 5-ALA for fluorescence-guided resections in children and adolescents with supratentorial, intra-axial brain tumors. Secondary objectives are - to determine whether fluorescent tissue truly signifies tumor (positive predictive value) in various pediatric brain tumors - to determine the degree of tumor resection on early post-operative MRI - and to determine the pharmacokinetics of 5-ALA in this population.
Background. 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.
Although many children with brain tumours are successfully cured of their disease, a substantial proportion of patients suffer disease recurrence and require further treatment. This therapy may involve a repeat course of radiation (RT2). Based on retrospective data, re-irradiation may provide palliative and even potentially curative benefit. However, such retrospective data are subject to bias, which may over-report survival and under-report toxicity. Furthermore, we do not know how re-irradiation affects patients' HRQOL. The goal of this research is to prospectively describe the HRQOL of patients diagnosed with DIPG and recurrent brain tumors and their families before and after re-irradiation to more accurately assess the benefit versus the toxicity of this treatment. In addition, if we are able to demonstrate the feasibility of collecting HRQOL information on a routine basis we will be able to justify the need to conduct this research further and implement HRQOL screening as a standard of care for these patients. Re-irradiation for children with DIPG and recurrent brain tumours will not cure these children from their disease but may improve neurological function and wellbeing. We postulate that the opportunity of more time to say the final good bye and creating memories will facilitate bereavement and prevent psychological dysfunction of parents and siblings. A greater understanding of what helps these families may enable clinicians to better support these children and their families in this difficult disease course. Ultimately our goal is to improve the psychological experience of these patients and their families.