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Detecting Malignant Brain Tumor Cells in the Bloodstream During Surgery to Remove the Tumor Clinical Trials Info presented on Clinical Trials Search is not intended to be a substitute for certified medical advice, visits or professional assistance using a real physician. We are not physicians. Always consult your dr. about Detecting Malignant Brain Tumor Cells in the Bloodstream During Surgery to Remove the Tumor conditions. Clinical Trials Search.org is a site dedicated to listing clinical research studies in human subjects. Detecting Malignant Brain Tumor Cells in the Bloodstream During Surgery to Remove the Tumor Clinical research trials and Detecting Malignant Brain Tumor Cells in the Bloodstream During Surgery to Remove the Tumor health trials happen in many of localities throughout the U.S.. A clinical trial or clinical study is a research project with human volunteer subjects. Clinical drug trials and pharmaceutical clinical trials typically measure the effectualness of new drugs. The function of the studies / projects is to resolve particular human medical questions. Clinical trials are a popular manner for mDs, government agencies, and private sector corporations to discover remedies for all varieties of circumstances, like Detecting Malignant Brain Tumor Cells in the Bloodstream During Surgery to Remove the Tumor. Detecting Malignant Brain Tumor Cells in the Bloodstream During Surgery to Remove the Tumor Clinical Trials and other clinical trials allow volunteers to obtain healthcare treatment options before they are available to the masses. Some times the participants undergo professional assistance for free of charge, and occasionally they are paid for their time. Sometimes there is a cost for a Detecting Malignant Brain Tumor Cells in the Bloodstream During Surgery to Remove the Tumor clinical trial. Human subjects often get the best healthcare available for their Detecting Malignant Brain Tumor Cells in the Bloodstream During Surgery to Remove the Tumor condition. Dangers are a reality, however, and may include additional or frequent mD visits, healthcare dangers (potentially life-jeopardising), and/or the treatment being ineffectual. Trials are federally governed with rigorous guidelines to protect clinical trials patients.
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Home > "D" Clinical Trials Conditions > Detecting Malignant Brain Tumor Cells in the Bloodstream During Surgery to Remove the Tumor  Detecting Malignant Brain Tumor Cells in the Bloodstream During Surgery to Remove the Tumor
Detecting Malignant Brain Tumor Cells in the Bloodstream During Surgery to Remove the Tumor
For Condition: Astrocytoma,Glioblastoma,Glioma
Status: Recruiting
Sponsor(s): National Institute of Neurological Disorders and Stroke (NINDS) ,
Synopsis: Glioblastomas, the most frequent malignant brain tumor in adults, are widespread in the brain, despite their discrete appearance on computed tomography (CT) or magnetic resonance imaging (MRI). While this tumor tends to spread widely in the brain, unlike other tumors of the body, it rarely metastasizes, or spreads, to other organs. Approximately 10 percent of patients with glioblastoma develop metastatic disease after radiation or brain surgery. In the absence of radiation or brain surgery, few patients have developed disease spread outside the brain. During surgery to remove tumors of other organs of the body, such as the lung, prostate, kidney, or ovary, cells from these tumors are routinely found in the bloodstream. These cells are believed to be the reason for the spread of these tumors. In the case of malignant brain tumors, this process of glioma (tumor) cells shedding into circulation has not yet been investigated. This study will determine whether glioma cells can be detected in the bloodstream of patients undergoing surgery. If glioma cells are absent, it may mean they are unable to penetrate the blood-brain barrier. If they are present, they presumably can penetrate into blood vessels but they may be recognized and eliminated by the immune system, or they may escape detection yet not be able to take hold in the new microenvironment. The results of the study will add to the knowledge of the biology of these highly malignant tumors. Study participants will be admitted to the hospital for 8 to 10 days. They will undergo a complete physical and neurological exam and blood and urine tests. An electrocardiogram will be performed, and x-rays may be taken. On the morning of surgery, the patient will receive sedation intravenously. A tiny plastic tube called a catheter will be introduced into a vein in the groin through needles. The catheter will be passed through to the jugular bulb, right above the jugular vein, on the same side as the tumor. The patient will then be taken to the operating room for surgery. During surgery, not more than one quarter of a unit of blood will be removed through the catheter. The catheter will be removed before the patient enters the intensive care unit. Another MRI will be taken after surgery. The study will enroll participants for 2 years. Patients will be followed at 3 months and 6 months after the surgery to make sure the postoperative period is uneventful.
Details: Glioblastomas are the most frequent malignant brain tumor in adults and are widespread in the brain despite their discrete appearance on CT or MRI. While locally aggressive, metastasis of glioblastoma to extracranial organs is considered rare. Approximately 10% of patients with glioblastoma develop metastatic disease after radiation or craniotomy. Few patients have developed extracranial metastatic disease in the absence of surgical resection or radiation. Unlike tumors of other organs such as lung, colon and prostate, the presence of glioma cells in the circulation of patients undergoing surgical resection has not been established. If found absent, glioma cells may be unable to intravasate through the blood brain barrier. If present, these tumor cells presumably can intravasate but may be recognized and eliminated by an immunological process, or they may escape detection yet not be able to take hold in the new microenvironment. The information provided will add to the knowledge of the biology of these highly malignant tumors.
Eligibility:
Study Type: Observational, Natural History
Minimum Age/Maximum Age: /
Genders: Both
Protocol Entry Criteria: INCLUSION CRITERIA: Patients must be diagnosed with biopsy-proven glioblastoma multiforme or anaplastic astrocytoma (WHO grade III and IV, WHO classification of glial tumors) and meet the following criteria: Consenting males and females between the ages of 18 and 75, inclusive. Provided written informed consent prior to participation in the trial. Karnofsky Performance Scale Score greater than or equal to 60. Patients of all races and sexes are eligible for this study. Children and adolescents only rarely are afflicted with gliomas that are amenable for surgical resection, and so are excluded from this study. Patients who have been accepted for glioma resection under existing NINDS protocols are also eligible for this study. If tumor tissue is available from biopsy prior to surgery, we will attempt to identify tumor-specific mutation(s) prior to enrolling the patient. EXCLUSION CRITERIA: Clinically unstable condition. Liver function impairment (total bilirubin greater than 2.0 mg/dl; AST or ALT greater than 3 times the upper limit of normal). Coagulopathy (prothrombin time [PT] or activated partial thromboplastin time [APTT] > 1.5 times control). Thrombocytopenia (platelet count less than 100,000/mm3). Granulocytopenia (absolute neutrophil count less than 1,000/mm3). Acute infection. Acute medical problems. Positive HIV test. Karnofsky Performance Scale Score less than 60. Allergy to CT contrast agents. Absence of tumor-specific gene mutation. Pregnant women. Women of child-bearing potential will undergo a urine and/or serum pregnancy test. Women who are pregnant will not be allowed to participate in this study.
Total Enrollment: 25
Location and Contact Information:
National Institute of Neurological Disorders and Stroke (NINDS) *Recruiting*
Bethesda, Maryland, 20892
United States
Recruiting Patient and Public Liaison Office 1-800-411-1222
Additional Information:
Study ID Numbers: 000009; 00-N-0009
Study Start Date: October 22, 1999
Record last reviewed: September 5, 2003
Additional information available at: clinicaltrials.gov
Clinicaltrials.gov Reference link: NCT00001148
Other Glioma Studies:
1. Safety and effectiveness study of G207, a tumor-killing virus, in patients with recurrent brain cancer
2. Genetic Analysis of Brain Tumors
3. Phase I Trial of Thalidomide Analog CC-5013 in Patients with Gliomas
4. The Role of Gene Changes in Brain Tumor Formation and Growth
5. STI571 to Treat Malignant Brain Tumors
Related Studies:
Other Glioma Clinical Trials
Other Maryland Clinical Trials
Other Bethesda Clinical Trials
Detecting Malignant Brain Tumor Cells in the Bloodstream During Surgery to Remove the Tumor
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