Effect of Goal-directed Fluid Therapy Based on Stroke Volume Variation on Metabolic Acidosis in...
Brain TumorIn patients undergoing craniotomy, 0.9% normal saline is commonly administered in order to reduce cerebral edema. Excessive administration of 0.9% normal saline has been to reported to cause hyperchloremic metabolic acidosis. On the other hand, hypovolemia due to insufficient fluid replacement for perioperative loss can also result in metabolic acidosis by lactic acid accumulation. However, the guideline for perioperative fluid management has not been yet established. The investigators hypothesized that intraoperative fluid management according to SVV(Stroke Volume Variation)could reduce perioperative metabolic acidosis compared to those by CVP(Central Venous Pressure). Therefore, the study is trying to determine if intraoperative fluid administration based on SVV could reduce metabolic acidosis when compared with CVP in patients undergoing craniotomy due to brain tumor who receive 0.9% normal saline as main fluid regimen.
Head and Neck Maskless Immobilization Device in Immobilizing Patients With Head and Neck Cancer...
Brain and Nervous SystemIntracranial Neoplasm1 moreThis pilot clinical trial studies how well head and neck maskless immobilization device works in immobilizing patients with head and neck cancers or intracranial tumors undergoing radiation therapy. Maskless immobilization device may help to prevent movement of head during radiation therapy and immobilize patients with the same accuracy and reliability as the standard thermoplastic mask routinely used for patients receiving radiation therapy.
Assessing the Patient Experience in Cancer Care
Brain NeoplasmBreast Neoplasm8 moreCommunication is an important component of comprehensive cancer care impacting patient satisfaction, adherence, and quality of life. The wide array of issues addressed in cancer clinical interactions makes communicating about a broad range of topics (including quality of life, communication, symptom control, complementary/alternative therapies, costs, treatment burden, prognosis, anxiety, side-effects, sexual function, palliative care options, etc.) especially interesting and potentially challenging. Some of these topics may not be routinely addressed in the clinical interaction or may require consultative support from other members of the comprehensive cancer care team. One frequently overlooked critical element in research on communication between cancer clinicians, their patients, and their primary care clinicians is describing real-time consultations between patients and their clinicians. These interactions provide rich material for assessing key psycho-social dynamics and identifying issues that patients find important in their care. In order to devise systems of care that optimize the patient experience, it is critical that clinicians and researchers understand, appreciate, and systematically characterize the richness and complexity of the decision-making process in routine cancer consultations between cancer patients and their treating clinicians. This study seeks to assess the patient experience in cancer care by observing patients and their physicians in their clinical interactions and following them for several months to see how their care went. By describing in-depth the conversations and experiences of patients in these clinical interactions, this study will lay the foundation for practice-based interventions to optimize patients' interactions with their cancer care teams.
The Roles of Tissue Factor in Malignant Gliomas
Venous ThromboembolismBrain TumorsTo explore the relationship between tissue factor levels, tumour progression, activation of blood coagulation and venous thromboembolism with malignant glioma
Comparison of Educational Services and Outcomes for Patients Treated for Childhood Cancer
CancerBrain TumorThe purpose of the study is to evaluate some educational outcomes of children treated for childhood cancer.
Gene Testing to Help in the Diagnosis and Treatment of Childhood Brain Tumors
Brain TumorsCentral Nervous System TumorsRATIONALE: Analyzing the number and structure of genes found in a child's cancer cells may help doctors improve methods of diagnosing and treating children with brain tumors. PURPOSE: This clinical trial is studying the number and structure of genes in cancer cells of children with brain tumors.
Analysis of Brain Metastasis in Patients With Breast Cancer, With and Without Over-Expression of...
Breast NeoplasmsThis study will examine two subsets of patients with breast cancer metastasis, that is, spreading, to the brain. It will identify genes and proteins that promote metastasis, particularly in women who are found to over-express (have more than other people do) the human epidermal growth factor receptor, ErbB2, also known as HER-2. The molecular and genetic events that permit tumor metastasis are not well understood. There is intense investigation going on into the process in which tumor cells escape the primary local tumor, spread to distant places in the body, and find and create conditions that promote growth in those tissues. Metastasis of tumors such as breast cancer to the brain is a common problem. Tumor cells will be analyzed with the use of microarrays. A microarray is a tool for analyzing gene expression, consisting of a small membrane or glass slide containing samples of many genes arranged in a regular pattern. The goal is to identify a potential molecular signature. It is hoped that there will be discovery of why some patients are more likely than others to develop a brain metastasis, which can have a major negative effect on the quality of life and survival. Female patients 18 years of age with known or evidence by radiology of a breast tumor metastatic to the brain or those who have had a removal of a brain tumor for diagnosis or treatment may be eligible for this study. Participants will undergo the following procedures and tests: Craniotomy, that is, surgical opening of the skull, and removal of the brain tumor. Blood specimens taken from a central vein or artery before the operation, throughout as needed, and for several days afterward, to measure blood chemistries, blood count, and so forth. Physical examination and imaging of the central nervous system before and after surgery. Urine or serum, or both, pregnancy test of women of childbearing potential. Patients will also undergo blood tests at 3-month intervals after surgery for up to 5 years. The purpose is to determine if there are tumor cells in the blood, which may explain how they reached the brain.
Evaluation of Factors in Human Brain Tumors
Brain NeoplasmGlioblastoma2 morePresently, patients with primary malignant brain tumors have a life expectancy of 15 weeks following surgery unless they receive additional types of therapy (chemotherapy, radiotherapy, and/or immunotherapy). Patients that receive additional therapy can increase life expectancy to 50 weeks. The statistics on the life expectancy and survival have increased efforts among researchers to develop new treatments for primary malignant brain tumors. This research project involves the growth and study of human brain tumor cells outside the body in the laboratory as part of an attempt to better understand these tumors and to develop more effective treatments for them.
Multimodality MRI and Liquid Biopsy in GBM
Glioblastoma MultiformeBrain Tumor5 morePatients with a new diagnosis of high-grade glioma based on MRI, who are considered surgical candidates determined by neurosurgeons or patients with recurrent glioblastoma with the initial diagnosis of glioblastoma (histologic or molecular proof) and recommended for clinically surgical resection may be eligible for this study. Subjects may participate in this study if they are at least 18 years of age. Ferumoxytol-enhanced MRI will be used to quantify tumor-associated macrophages. This is a non-therapeutic trial in that imaging will not be used to direct treatment decisions. The blood draw is being completed to evaluate cell-free circulating tumor DNA (cfDNA) and cell-free tumor DNA (ctDNA).
A Pilot Study of Inpatient Hospice With Procurement of Brain Tumor Tissue on Expiration for Research...
EpendymomasGliomas3 moreBackground: - An important new area of brain tumor research is the development of tumor and brain stem cell lines. Successful growth of these cell lines requires obtaining large volumes of fresh tumor and brain tissue, which is best accomplished by harvesting whole brains from recently deceased patients. These cell lines will help researchers understand how these tumors develop and will also help identify new targets for treatment. Researchers are interested in conducting a pilot study of planned inpatient hospice care with timely brain tumor tissue harvest at the time of death. Objectives: To provide high-quality end of life inpatient hospice care for patients with untreatable brain tumors. To procure brain and tumor tissue shortly after time of death in order to derive viable tumor and neural stem cell lines for research purposes. Eligibility: Individuals at least 18 years of age who have an untreatable primary brain or central nervous system tumor, are able to give informed consent (either their own or through a designated power of attorney), and have agreed to a Do Not Resuscitate order and Consent for Autopsy as part of the end-of-life care plan. HIV-positive individuals or those suspected of having infectious cerebritis are not eligible because of the potential for contamination of brain tissue. Design: Participants will be enrolled in inpatient hospice admission to the National Institutes of Health Clinical Center either from home or from an outside hospital once a study investigator estimates an expected survival of less than 2 weeks. Participants will receive palliative care at the Clinical Center. Care will be tailored to each participant depending on the information provided in the individual's end-of-life care plan. Supportive medications such as antiseizure medications and pain relievers will be administered as appropriate. At the time of death, researchers will follow standard procedures for notifying next of kin and will collect brain tissue and tumor samples from the deceased. Following tissue collection, the deceased will be released for autopsy and funeral procedures.