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Active clinical trials for "Brain Neoplasms"

Results 441-450 of 1541

Pilot Phase 2 Study Whole Brain Radiation Therapy With Simultaneous Integrated Boost for Patients...

Brain Metastases

This trial is a pilot, Phase 2, sequential two-cohort study designed to test two de-escalated whole brain radiation therapy (WBRT) dose levels and assess their ability to maintain acceptable in-brain distant control. The WBRT dose would decrease as the study moves forward, both in terms of absolute value and equivalent dose in 2 Gray fractions (EQD2) (as determined by the linear quadratic radiobiological model). The absolute value of the simultaneous integrated boost (SIB) dose will change with each dose level because the number of fractions delivered will depend on the WBRT dose. As such, the SIB dose will be manipulated such that the EQD2 will remain essentially equivalent despite the difference in the number of fractions delivered. This design will ensure that the only variable is the change in WBRT dose. The concept is that WBRT with SIB would be expected to maximize both local and in-brain distant control as has already been shown in studies exploring WBRT with SRS boost. However, by itself WBRT with SIB does not address the concern over neurocognitive outcomes. Therefore, investigators hypothesize that there is a lower WBRT dose threshold that will maintain acceptable in-brain distant control, particularly in the setting of a SIB to gross lesions to maintain treated lesion control. In addition, lower overall brain dose (including lower hippocampal dose without specific hippocampal avoidance) may potentially improve neurocognitive function. Investigators are also interested in evaluating treated lesion control, overall survival, neurocognitive sequelae of therapy, quality of life, performance status, and adverse effects of therapy. Biomarker identification for potential correlative circulating tumor DNA and microRNA is an exploratory endpoint to generate data for future prospective evaluation.

Suspended14 enrollment criteria

Assessing Sleep and Circadian Rhythms in Primary Brain Tumors Patients

Sleep Circadian RhythmsChronodisruption

Background: Sleep disturbances are among the most common and severe symptoms reported by people with primary brain tumors (PBT). Smart wearable devices like Fitbits may be able to give detailed data about people s sleep and circadian rhythms. In this study, researchers will use Fitbits to learn more about sleep disruptions caused by tumors. This might help them design better future treatment and supportive care studies. Objective: To describe sleep disturbances and circadian disruption in people with PBT. Eligibility: English-speaking adults ages 18 and older who have PBT and are enrolled in the NIH study, Evaluation of the Natural History of and Specimen Banking for Patients with Tumors of the Central Nervous System. It is also known as the Natural History Study, trial #16C0151. Design: Participants will be screened over the telephone or in person. They will be asked about their medical history. Their cancer diagnosis will be confirmed through test results and pathology reports. Participants will complete 4 surveys. The surveys take about 20 minutes to complete and will ask about: The quality of their sleep Their ability to fall asleep and stay asleep How the quality of their sleep affects their daily activities Their sleep hygiene and preferences Participants will get a Fitbit. It looks like a watch and is worn on the wrist. They will connect the device to their smart phone to track sleep, heart rate, and activity. They will wear it for 1 month. Participants will keep a daily sleep diary for 1 week. It will be sent via an electronic link. They will also repeat 2 of the surveys. Participation will last for 1 month.

Enrolling by invitation6 enrollment criteria

Treatments for Brain Metastases With Poor Prognostic Factors

Brain Metastases

The goal of this observational study is to learn about treatments in brain metastases with poor prognostic factors. The main questions it aims to answer are: What kind of local treatment provides a survival benefit for patients with poor prognostic factors? What kind of systemic treatment provides a survival benefit for patients with poor prognostic factors? Will the combination of local treatment and systemic treatment provide a survival benefit for patients with poor prognostic factors? Participants will be asked to provide personal information about their living status, symptoms, and disease control during the follow-up.

Enrolling by invitation7 enrollment criteria

Lithium Treatment to Prevent Cognitive Impairment After Brain Radiotherapy

Cognitive ImpairmentCognitive Decline5 more

Randomized, placebo-controlled, double-blinded, parallel group clinical trial to investigate if 6 months of oral lithium tablets (S-lithium 0,5-1,0 mmol/l) will prevent cognitive decline after brain radiotherapy in pediatric brain tumor survivors. Primary outcome measure is Processing Speed Index (PSI) 2 years after start of study treatment.

Not yet recruiting15 enrollment criteria

A Pilot Study to Assess the Clinical Utility of 18F-Fluciclovine (Axumin) PET-CT for Detecting True-versus...

Brain Metastases

To learn if 18F-Fluciclovine (Axumin) PET-CT scans can be used to better detect brain metastatic lesions in patients who are receiving immunotherapy.

Not yet recruiting16 enrollment criteria

MRI-based Computer Aided Diagnosis Software (V1) for Glioma

GliomaPrimary Brain Tumor

The goal of this multi-center clinical trial is to evaluate the effectiveness of MRI-based computer-aided diagnosis software (V1) for glioma segmentation, gene prediction, and tumor grading. Machine learning methods such as high-precision tumor segmentation and classification and discrimination modeling can further optimize the non-invasive molecular diagnosis and prognosis prediction. The main question it aims to answer is whether the software can predict the molecular type and the prognosis quickly and correctly. The results will be compared with the real-world clinical data double-blindly. Finally, form a set of user-friendly automatic glioma diagnosis and treatment systems for clinics.

Enrolling by invitation9 enrollment criteria

Functional Organization of the Superior Temporal Gyrus for Speech Perception

EpilepsyBrain Tumor1 more

The basic mechanisms underlying comprehension of spoken language are still largely unknown. Over the past decade, the study team has gained new insights to how the human brain extracts the most fundamental linguistic elements (consonants and vowels) from a complex and highly variable acoustic signal. However, the next set of questions await pertaining to the sequencing of those auditory elements and how they are integrated with other features, such as, the amplitude envelope of speech. Further investigation of the cortical representation of speech sounds can likely shed light on these fundamental questions. Previous research has implicated the superior temporal cortex in the processing of speech sounds, but little is known about how these sounds are linked together into the perceptual experience of words and continuous speech. The overall goal is to determine how the brain extracts linguistic elements from a complex acoustic speech signal towards better understanding and remediating human language disorders.

Enrolling by invitation5 enrollment criteria

Stereotactic Radiosurgery in Treating Patients With Large Brain Metastases

Tumors Metastatic to BrainUnspecified Adult Solid Tumor

This phase I/II trial studies the side effects and the best dose of stereotactic radiosurgery and to see how well it works in treating patients with large brain metastases. Radiosurgery can send x-rays directly to the tumor and cause less damage to normal tissue.

Suspended17 enrollment criteria

Does Perioperative Intravenous Magnesium Affect Postoperative Quality of Recovery in Craniotomy...

Brain TumorSurgery

Perioperative pain management for craniotomy patients may be challenging because the commonly used agents such as opioids, gabapentin, and dexmedetomidine also cause sedation, which can confound the neurological exam and can lead to respiratory depression and increased intracranial pressure. Preoperative intravenous magnesium boluses and infusions have previously been established as an effective, nonsedating analgesic that can reduce opioid consumption 25-30% up to 48 hours postoperatively. However, intravenous magnesium has not seen widespread use in craniotomy patients due to concerns for interference with the neurological monitoring that commonly occurs in these cases. Intravenous magnesium given as a bolus preoperatively or as a constant infusion may avoid these problems and has never been investigated. The goal of this study is to compare intravenous magnesium given preoperatively and intraoperatively to placebo in adult elective craniotomy patients to improve quality of recovery postoperatively, and evaluate safety and tolerability. Secondary endpoints will include evaluating for pain, sedation, agitation, blood pressure, and opioid consumption postoperatively.

Not yet recruiting12 enrollment criteria

Improving Survivorship and Health-related Quality of Life in Patients With Primary Brain Tumours...

HypopituitarismRadiotherapy-Induced Hypopituitarism1 more

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.

Not yet recruiting11 enrollment criteria
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