View clinical trials related to Central Nervous System.
Filter by:This phase II trial studies the best approach to combine chemotherapy and radiation therapy (RT) based on the patient's response to induction chemotherapy in patients with non-germinomatous germ cell tumors (NGGCT) that have not spread to other parts of the brain or body (localized). This study has 2 goals: 1) optimizing radiation for patients who respond well to induction chemotherapy to diminish spinal cord relapses, 2) utilizing higher dose chemotherapy followed by conventional RT in patients who did not respond to induction chemotherapy. Chemotherapy drugs, such as carboplatin, etoposide, ifosfamide, and thiotepa, work in different ways to stop the growth of tumor cells, either by killing the cells, by stopping them from dividing, or by stopping them from spreading. Radiation therapy uses high energy x-rays or high-energy protons to kill tumor cells and shrink tumors. Studies have shown that patients with newly-diagnosed localized NGGCT, whose disease responds well to chemotherapy before receiving radiation therapy, are more likely to be free of the disease for a longer time than are patients for whom the chemotherapy does not efficiently eliminate or reduce the size of the tumor. The purpose of this study is to see how well the tumors respond to induction chemotherapy to decide what treatment to give next. Some patients will be given RT to the spine and a portion of the brain. Others will be given high dose chemotherapy and a stem cell transplant before RT to the whole brain and spine. Giving treatment based on the response to induction chemotherapy may lower the side effects of radiation in some patients and adjust the therapy to a more efficient one for other patients with localized NGGCT.
The aim of this study will be to investigate the effect of a combination of intravenous infusions of lidocaine and magnesium versus a combination of intravenous infusions of lidocaine and ketamine versus an intravenous infusion of lidocaine alone on recovery profile, quality of recovery and postoperative pain after elective gynecological surgery
This study is to improve the first-line induction chemotherapy, by combining either Ibrutinib, or Lenalidomide, to a conventional immuno- chemotherapy of R-MPV type (Rituximab-Methotrexate-Procarbazine-Vincristine). This is a randomized Phase II trial, preceded by a dose escalation phase Ib. The objective of the phase Ib is to rule out any limiting toxicity of the new treatment associations, and to determine the recommended dose of Lenalidomide and Ibrutinib to be used in the phase II. In the phase II study, patients will receive 4 cycles of R-MPV + Lenalidomide or 4 cycles of R-MPV + Ibrutinib. The therapeutic response will be evaluated after the 2nd and the 4th cycle. Patients in good therapeutic response will proceed to the consolidation phase with Autologous Stem Cell Transplantation (ASCT).
Anesthesia is a drug induced, reversible, comatose state that facilitates surgery and it is widely assumed that cognition returns to baseline after anesthetics have been eliminated. However, many patients have persistent memory impairment for weeks to months after surgery. Cardiac surgery appears to carry the highest risk of postoperative cognitive dysfunction (POCD). These cognitive deficits are associated with increased mortality, prolonged hospital stay and loss of independence. The investigators propose to investigate the role of Dexmedetomidine (DEX) in preventing long-term POCD after cardiac surgery and enhancing early postoperative recovery. It is anticipated that DEX will be the first effective preventative therapy for POCD, improve patient outcomes, and reduce length of stay and healthcare costs.
Cranial USG is simple and easy method to assess preterm infant brain. Some studies showed that brain volumes of preterm infants could be calculated by measurement of 2D distances. Our aim in this study was to compare brain volume obtained by USG and MRI.
The study is a prospective clinical study which investigates the use of new diagnostic methods to localize aggressive lymphoma involving the central nervous system(CNS). By measuring cell-free tumor DNA and metabolomics in cerebrospinal fluid and blood in patients with systemic Diffuse Large B-cell Lymphoma the investigators aim to improve the diagnostic certainty of an impending relapse of lymphoma in CNS.
The Danish Study Group of Infections of the Brain is a collaboration between all departments of infectious diseases in Denmark. The investigators aim to monitor epidemiological trends in central nervous system (CNS) infections by a prospective registration of clinical characteristics and outcome of all adult (>17 years of age) patients with community-acquired CNS infections diagnosed and/or treated at departments of infectious diseases in Denmark since 1st of January 2015.
The purpose of this European, multicentric, prospective, non-interventional study is to document and evaluate the efficacy and safety of the treatment of severely infected patients with intravenously administered fosfomycin, including patients with osteomyelitis, complicated urinary tract infection, nosocomial lower respiratory tract infection, bacterial meningitis/central nervous system infection, bacteraemia/sepsis, skin and soft tissue infection, endocarditis or other infections, each as far as covered by the respective nationally relevant SmPC.
This study will explore neurocognitive performance in pediatric brain tumor patients receiving proton beam radiation therapy (PBRT). The investigators goal is to gather baseline neurocognitive testing prior to the completion of the first week of radiation therapy along with follow-up testing 6-12 months after the completion of radiation and serial annual testing thereafter. With these data the investigators plan to evaluate the effects of PBRT on neurocognitive performance as it relates to patients' age at diagnosis, tumor location, and radiation dose. Modeling studies have demonstrated that PBRT could improve neurocognitive outcomes, but there is a paucity of prospectively-collected patient data. The investigators are uniquely positioned to address this important question given the busy pediatric central nervous system (CNS) tumor service, the delivery of proton therapy at the S. Lee Kling Proton Therapy Center at Barnes-Jewish Hospital, and the multi-disciplinary research team with extensive experience into the late effects of therapy as it relates to neurocognition.
MicroRNAs are small molecules which have recently been discovered in cells. They are known to be responsible for the normal development of cells and when they are disrupted can contribute to the development of cancer. Many previous studies have been done evaluating the expression of microRNAs in normal tissues as well as a wide variety of cancers. Recently, microRNAs from tumor cells have been detected circulating in the blood of patients with cancer. This presents a novel opportunity to use microRNAs in the blood as an early predictor of cancer as well as a marker of response to therapy. No previous studies have been performed evaluating microRNAs in the blood or cerebrospinal fluid of patients with childhood cancers. We propose a feasibility study to evaluate the presence of microRNAs in the blood and cerebrospinal fluid of patients with central nervous system tumors, leukemia and lymphoma who are currently on chemotherapy and undergoing blood draws, lumbar punctures and/or reservoir taps for routine clinical care. If we're able to identify circulating microRNAs in this population of pediatric patients, we will build upon this data in proposing a future study.