63 Clinical Trials for Various Conditions
This clinical research study is to learn about the safety of the NovoTTF-200M and Novo TTF-200A Systems, when used either alone or in combination with standard therapy, in patients with tumors that did not respond to treatment.
This is a single-arm pilot study of proton stereotactic body radiotherapy (SBRT) for nonhematologic spinal metastasis in patients with complex lesions that are unable to be effectively treated with standard of care photon SBRT defined as inability to develop a photon SBRT plan that achieves adequate coverage (≥80% planning treatment volume (PTV) coverage)) with a prescription dose of 30 Gy in 5 fractions.
The goal of this study is to determine whether fractionated Stereotactic radiosurgery (SRS) for spine metastases is associated with improved local tumor control compared to single-fraction SRS. Patients will be randomized to treatment with spine SRS using either 22 Gy in 1 fraction or 28 Gy in 2 fractions.
The purpose of this study is to determine if quantitative magnetic resonance imaging (qMRI) can objectively measure changes in the tumor/vertebral body and adjacent spinal cord following stereotactic body radiation therapy (SBRT) for painful metastatic spine disease.
The investigators are prospectively validating a prognostic clinical tool that uses a patient's modified Bauer grade, ambulatory status, and pre-operative serum albumin to predict survival, post-treatment morbidity, and functional outcomes in patients with metastatic disease involving the spine.
The goal of this clinical research study is to learn whether delivering spine radiosurgery in a single large dose is better than delivering spine radiosurgery over 3 smaller doses. Researchers also want to learn about the effects of a single dose on participant's symptoms, pain, and quality-of-life.
This pilot clinical trial studies adaptive staged stereotactic body radiation therapy (SBRT) in treating patients with spinal metastases that cannot be removed by surgery. SBRT is a specialized radiation therapy that delivers a single, high dose of radiation directly to the tumor and may kill more tumor cells and cause less damage to normal tissue. Adaptive SBRT uses information gathered during treatment to inform, guide, and alter future radiation treatments. Staged SBRT uses multiple treatments separated by 2-3 weeks. Giving adaptive staged SBRT may work better in treating spinal metastases that cannot be removed by surgery.
The primary objective is to evaluate the tolerability (side effects) of the intraoperative radio therapy (IORT) (e.g., wound healing, infections, bone necrosis, nerve, spinal cord damage, and pathological fracture), and the secondary objective is to evaluate the effectiveness of IORT (i.e., pain relief, quality of life, narcotic use, and tumor response).
This randomized phase II trial studies how well cement augmentation works in preventing vertebral body compression fracture following spine stereotactic radiosurgery in patients with solid tumors that have spread to the spine. Spine stereotactic radiosurgery delivers a high dose of radiation to vertebral metastases and can sometimes lead to a vertebral compression fracture. Using body cement on the largest part of the vertebra (a procedure called vertebral body cement augmentation) may help prevent a fracture after stereotactic spinal radiosurgery. It may also lessen pain and improve quality of life in patients with solid tumors and spinal metastases undergoing this surgery.
Vertebral augmentation with radiotherapy to increase the functional status and quality of life for patients with vertebral body metastatic cancers.
The purpose of this study is to find out whether giving one higher dose of radiation is as good at treating the tumor in the patient's spine after surgery as giving three lower doses of radiation.
Metastatic malignant tumors comprise the vast majority of spinal tumors in adults. The most devastating complication of spinal metastatic disease (SMD) is invasion of the spinal canal and compression of the spinal cord or the nerve roots of the cauda equina, resulting in a clinical entity known as cord compression that manifests with progressive loss of motor function and sensation in the legs, as well as bladder and bowel incontinence. The treatment of spinal metastases is mostly palliative with the goals of improving or maintaining neurologic function, achieving local tumor control, and spinal stability. Most patients with spinal metastatic disease are currently treated effectively with radiation therapy and/or surgery with good results. There are however certain limitations in the current treatment of SMD. Radiation therapy has two important limitations: 1) if the targeted SMD is in close proximity the spinal cord, delivery of high radiation doses is contraindicated as it may cause radiation-induced damage to the spinal cord (myelopathy, and 2) there is limit on the cumulative amount of radiation dose, which means that recurrent tumors may not be amenable to repeat radiation therapy. As far spinal surgery is concerned, the main limitation is that some patients are not fit for surgery because of medical co-morbidities. This phase I clinical research trial will test the hypothesis that a new minimally invasive treatment called spinal intra-arterial chemotherapy (SIAC) can be safely applied in patients with SMD.
RATIONALE: Stereotactic body radiation therapy may be able to send x-rays directly to the tumor and cause less damage to normal tissue. Vertebroplasty may help prevent fractures and spinal cord compression caused by spinal metastasis. Giving stereotactic body radiation therapy together with vertebroplasty may help lessen pain and improve quality of life of patients with spinal metastasis. PURPOSE: This phase II trial is studying how well giving stereotactic body radiation therapy together with vertebroplasty works in treating patients with localized spinal metastasis.
RATIONALE: Stereotactic radiosurgery can send x-rays directly to the tumor and cause less damage to normal tissue. It may also help patients with spinal metastases live more comfortably. PURPOSE: This phase I trial is studying the side effects and best dose of stereotactic radiosurgery in treating patients with spinal metastases.
The objective of this clinical study is to evaluate the efficacy and safety of spinal laser interstitial therapy in the treatment of metastatic spinal tumors. The investigators hypothesize that rates of local tumor control are comparable between conventional open surgical techniques and spinal laser interstitial therapy.
To learn the usefulness of performing MRI scans in different positions and learn the best practice for spinal stereotactic body radiation therapy (spinal SBRT) planning and dose delivery.
Kypho-IORT is a novel approach to combine kyphoplasty, a minimally invasive procedure, with a single dose of intraoperative radiotherapy (IORT) for the treatment of unstable or potentially unstable spinal cord metastases. The primary objective is to evaluate the response rate of pain control when combining kyphoplasty, a minimally invasive procedure, with a single dose of intraoperative radio- therapy (IORT) for the treatment of spinal cord metastases. Secondary objectives are (i.) to determine feasibility for unstable or potential unstable spine metastases; (ii.) to determine tolerability/side effects of the IORT within 90 days post-procedure; (iii.) to determine which clinical factors are prognostic of vertebral compression fracture
This study will evaluate the local control rate as well as acute and late toxicity rates of stereotactic body radiotherapy (SBRT) for the treatment of spine metastases and benign spine tumors.
This study will evaluate the most effective radiation dose. Patients will be randomized (like flipping a coin) to receive either low dose stereotactic radiotherapy (defined as "14 Gy") or high dose stereotactic radiotherapy (defined as 18 Gy).
Tumors of the spine can be described as primary, meaning that the tumor originated from cells normally found in the spine, or metastatic, cells from another area of the body that have spread to the spine. Metastatic tumors are more common than primary tumors. Tumors of the spine can press against the spinal cord and interfere with information traveling down from the brain to the nerves of the spinal cord. As a result, patients with spinal tumors can suffer from loss of movement and sensation within areas of the body below the tumor. In addition, tumors of the spine are typically painful conditions. Presently, the treatment of choice for spinal tumors is radiation therapy. However, many tumors of the spine become resistant to radiation therapy. In addition, because the spinal cord is often so close to the tumor it can be damaged by the radiation. Absolute (100%) ethanol is commonly known as "alcohol". It is the same kind of alcohol found in alcoholic beverages. When pure alcohol is injected directly into a tumor it can destroy cells and blood vessels. Because of this feature, researchers would like to test the effectiveness of alcohol in treating patients with spinal tumors. Researchers believe that intratumoral ethanol injection is a treatment worth studying more closely because it is minimally invasive, has been proven to be an effective treatment for other types of metastatic tumors, can be used repeatedly, and does not interfere with other treatments such as surgery. In addition to testing the effectiveness of intratumoral ethanol injection, this study will attempt to determine the causes of pain associated with spinal tumors.
The purpose of this study is to assess imaging methods including Dynamic Contrast Enhanced Magnetic Resonance Imaging (DCE-MRI) and perfusion for the cancer that has spread to the spine. The study aims to see if using these methods will help better see response to treatment with radiation in patients with spine metastases from any solid cancer.
This pilot clinical trial studies beta-tricalcium phosphate bone graft in treating patients undergoing surgery for metastatic spine cancer. A bone graft may help healing and bone growth in patients undergoing surgery for spine cancer
This randomized clinical trial studies minimally invasive surgery in treating patients with spinal tumors. Posterior spinal tumor resection and anterior and posterior spinal tumor resection are less invasive types of surgery for spinal tumors and may have fewer side effects and improve recovery
RATIONALE: Specialized radiation therapy that delivers a high dose of radiation directly to the tumor may kill more tumor cells and cause less damage to normal tissue. PURPOSE: This randomized phase II/III trial is studying how well image-guided radiosurgery or stereotactic body radiation therapy works and compares it to external-beam radiation therapy in treating patients with localized spine metastasis.
To learn about the safety of a procedure called cord dose escalated spine stereotactic radiosurgery (CDE-SSRS) in patients with MESCC.
The primary aim of this randomized multi-center trial is to investigate the efficacy of the radiotherapy regimens 5 x 4 Gy and 10 x 3 Gy with respect to the effect on motor function in patients with metastatic epidural spinal cord compression.
The goal of this clinical study is to learn the feasibility of using a single session of radiation, known as spine stereotactic radiosurgery (SSRS), to treat metastatic epidural spinal cord compression.
The goal of this clinical study is to learn the feasibility of using a single session of radiation, known as spine stereotactic radiosurgery (SSRS), to treat metastatic epidural spinal cord compression.
The aim of this trial is to evaluate the differences in pain relief, neurological function, quality of life and survival in patients with metastatic epidural spinal cord compression (MESCC) who are managed with a combination of surgery and radiotherapy versus radiotherapy alone. Further we shall evaluate cost-effectiveness of the two treatment approaches.
The main purpose of this study is to see if treating cancer with the magnetic resonance imaging guided adaptive radiotherapy (MRIdian) can control patient's tumor and eliminate the need for surgery used to treat nerves in the spine flattened by pressure (compressed).