View clinical trials related to Brain Neoplasms.
Filter by:This research study will evaluate the efficacy and safety of stereotactic radiotherapy (SRT) combined with Trastuzumab-Deruxtecan (T-DXd; DS-8201a) in HER2-positive Breast Cancer Patients with newly diagnosed or progressing Brain Metastases.
The goal of this diagnostic intervention clinical trial is to compare 18F-Fluciclovine uptake within brain lesions over 60 minutes compared with standard of care positive histology confirmation or confirmation MRI images. The main questions it aims to answer are: 1. What are the dynamics of 18F-Fluciclovine update within a non-treated metastatic brain lesion over 60 minutes? 2. What are the dynamics of 18F-fluciclovine update within recently treated metastatic brain lesions? 3. What is the potential use of 18F-Fluciclovine in delineating true local progression from radionecrosis in patients with clinical uncertainty of indeterminate MRI? Participants will undergo an 18F-fluciclovine head PET/CT scan prior to treatment for brain metastatic lesion(s). The study will characterize uptake dynamic PET images over 60 minutes. Uptake within the lesions and the benign brain parenchyma will be plotted on a time activity curve for 60 mins. Patients will undergo a second 18F-fluciclovine PET/CT to evaluate 18F-fluciclovine uptake in treated lesions over 60 minutes. This will be offered concurrently with the post-procedure standard of care (SOC) MRI to evaluate post-treatment changes. Uptake within the lesions and the benign brain parenchyma will be plotted on a 60 min time activity curve. Results will be compared to the pre-treatment baseline images. A third 18F-fluciclovine PET/CT will be offered to evaluate post radiation changes necrosis from recurrence, for up to 10 patients in our cohort who are under clinical surveillance (up to three years surveillance) and developed MRI evidence of either true progression or radionecrosis with clinical uncertainty after stereotactic radiosurgery. The initial 18F-fluciclovine PET/CT will serve as a baseline PET/CT scan. This will be compared to post procedural histological confirmation.
TUXEDO-4 is an international, multicentric, single arm, phase II study aiming to gather additional solid evidence of Trastuzumab-Deruxtecan (T-DXd) activity in patients with Human Epidermal Growth Factor Receptor 2 (HER2)-low breast cancer with active brain metastases. This study will analyze the efficacy of T-DXd as determined by overall response rate (ORR) at any timepoint as judged by best CNS response according to RANO-BM criteria.
To learn if 18F-Fluciclovine (Axumin) PET-CT scans can be used to better detect brain metastatic lesions in patients who are receiving immunotherapy.
Basis: Brain metastasis is very common in breast cancer, and HER2 positivity is a risk factor for high incidence of brain metastasis, with approximately 50% of HER2+ MBC cases experiencing brain metastasis. The reason for this is that as the efficacy of HER2-targeted therapy improves, the survival of these patients significantly extends, leading to an increase in the occurrence rate of brain metastasis events in the late stage of MBC. In the systemic treatment of HER2+ breast cancer brain metastasis, various HER2-targeted drugs have been explored, but none have achieved satisfactory therapeutic effects. Therefore, it is imperative to explore new treatment options. ADC drugs have shown some efficacy in brain metastasis patients, and as a domestically developed ADC drug, trastuzumab vedotin has demonstrated good anti-tumor effects. The treatment model combining trastuzumab vedotin with small molecule TKIs has been rarely reported, so we are attempting to use the treatment model of trastuzumab vedotin combined with pyrotinib or neratinib to explore its efficacy and safety in patients with HER2-positive brain metastasis. Method: The plan is to recruit HER2-positive breast cancer patients with brain metastasis and use the treatment of trastuzumab vedotin combined with pyrotinib or neratinib (specific treatment drugs to be selected during the study). Procedure: All subjects will undergo screening, treatment, and follow-up periods, strictly adhering to relevant GCP regulations during the treatment process. Expectations: Through this study, preliminary efficacy and safety data of trastuzumab vedotin combined with pyrotinib or neratinib treatment will be provided for patients with HER2+ brain metastatic BC.
Background: Approximately 480 primary, non-pituitary, brain tumours were diagnosed in Ireland each year between 1994 and 2013. Recent developments in treatment have greatly improved survival for younger patients in the 15-54 age range. The Irish National Neurosurgical Centre and the St Luke's Radiation Oncology Centre at Beaumont Hospital and treat approximately 200 patients with brain tumours per year with a combination of surgery, radiotherapy (RT) and chemotherapy with RT being the most commonly used treatment modality. With improved survivorship, the prospect of individuals living for several decades with co-morbidities induced by the tumour itself or surgical and RT treatments, raises new and complex issues for patients and clinicians. The hypothalamus and pituitary gland in the brain are the key regulators of hormone action. They control several hormone systems including reproductive function (FSH, LH) growth (growth hormone), thyroid (TSH) and adrenal function (ACTH) as well as many other homeostatic mechanisms. It has long been recognised that therapeutic cranial RT to the pituitary gland causes hypothalamic-pituitary dysfunction (hypopituitarism). Traditionally, high-risk groups for post-irradiation hypopituitarism were considered to be patients with pituitary tumours, survivors of childhood cancer and patients who received high-dose RT to treat nasopharyngeal cancers. The potential for cranial radiotherapy to cause significant pituitary dysfunction in adult patients with brain tumours has received little attention. The assumption has been that the hypothalamic-pituitary axis is more resistant in adults than in children to the effect of cranial RT. However, it is likely that the higher doses of RT, used to treat primary brain tumours in adults, causes significant hypothalamic-pituitary dysfunction resulting in hypopituitarism. Preliminary data from the National Pituitary Centre in Beaumont Hospital has revealed that adult patients, treated with cranial radiotherapy for primary, non-pituitary brain tumours, are at risk of hypopituitarism. Approximately 40% of patients had pituitary deficiencies in at least one hormone axis, while 25% of patients had deficiencies in multiple hormone axes. Hypopituitarism confers significant morbidity and increased mortality to patients. At present, adult survivors of brain tumours are referred to the pituitary service for assessment on an ad-hoc basis meaning that many patients with hypopituitarism may go undiagnosed. In addition to the challenges caused by hypopituitarism, long-term neuropsychological outcomes following a brain tumour cause significant functional impairments and reduced HR-QOL. Patients can present with impairments in specific cognitive domains such as memory and executive functioning or more global systems such as attention as well as significant issues with fatigue. In addition to these primary deficits, patients can also present with significant distress, fluctuant mood and anxiety. Despite the impact of brain tumours can exert, the National Cancer Control Program's National Survivorship Needs Assessment Review (2019) did not identify any studies reporting the needs of adult survivors of brain tumours in Ireland. There is an urgent need to understand the impact of hypopituitarism and its treatment on HR-QOL and neuropsychological functioning. The proposed study will add to the limited existing literature on the prevalence of hypopituitarism in adult survivors of brain tumours treated with radiotherapy and generate detailed information on deficiency rates for individual pituitary hormones and how these deficiencies emerge over time. This will also be the first study to examine if treatment of radiotherapy-induced hypopituitarism (as part of routine clinical care) is associated with improved HR-QOL and neuropsychological functioning.
The etiology and specific pathogenesis of many cardiovascular diseases such as coronary atherosclerosis, cardiomyopathy, atrial fibrillation, and stroke are still unclear. Improving diagnosis and treatment, clarifying the pathogenesis, and providing scientific basis for the prevention and treatment are hot research topics in the study of cardiovascular and cerebrovascular diseases. This study intends to collect clinical data and biological specimen data of patients with cardiovascular and cerebrovascular diseases who meet the inclusion and exclusion criteria, and use multi-omics technology to deeply understand the pathogenic mechanisms of cardiovascular and cerebrovascular diseases and provide new ideas for specific and individualized treatment of patients with cardiovascular and cerebrovascular diseases, to construct early predictive prognostic models and provide a basis for effective treatment of clinical practice in patients with cardiovascular and cerebrovascular diseases.
Physical activity (PA) has been an integral part of non-drug therapy since the early 2010s. This supportive care is likely to reduce fatigue and improve the quality of life of patients during and after the cancer treatment phase. Physical activity also has a protective effect in terms of tertiary prevention by reducing the risk of recurrence of certain cancers (breast, colon, prostate) by around 40 to 50% and by reducing overall mortality. Adapted physical activity (APA) is offered at the Institut de Cancérologie de l'Ouest (ICO) in Angers, but there are obstacles particularly linked to the geographical distance of the establishment where this activity is offered. The RAPASS project is a prospective study which will be proposed to patients followed at the ICO, living in rural areas and far from Angers. Its main objective is to describe the fatigue and quality of life of patients before, during and after a 13-session home-based APA programme. The data collected will also be used to describe changes in physical condition and level, compliance with the programme, continuation of physical activity beyond the duration of the programme, and satisfaction.
The goal of this clinical trial is to learn about in patients with supratentorial brain tumours. The main questions it aims to answer is: Can short-term preoperative walking exercise protect cognitive function in the short term after craniotomy in patients with supratentorial brain tumor and reduce the incidence of surgery-related complications? Participants will be asked to receive general care and regular walking exercises prior to surgery. Researchers will compare patients who receive only general care before surgery to see if preoperative walking exercise has an effect on postoperative prognosis.
This study aims to evaluate feasibility of a double-blind randomized controlled trial for levetiracetam prophylaxis for prevention of seizure in the perioperative phase of brain tumor resection.