View clinical trials related to Spinal Metastases.
Filter by: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
The purpose of this study is to find out if SBRT is better than CRT at controlling pain in the spine 3 months after receiving treatment.
A randomized, multicentre, phase III study comparing conventional radiotherapy (1x8Gy) with stereotactic radiotherapy (1x20Gy) for pain reduction and quality of life in spinal metastases.
The purpose of the study is to investigate effectiveness of stereotactic body radiotherapy in patients with bone metastatic disease.
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.
The investigators wish to evaluate the effect of minimal access spinal surgery compared to traditional open surgery spinal surgery in patients with metastatic spinal cord compression. Minimal access surgery has been shown to bee less damaging for the tissue compared to traditional open surgery and also cause fewer wound complications, the investigators expect the above could have impact in a vulnerable patient group like patients with metastatic spinal cord compression.
Spinal metastases indicate for an incurable course of disease. Local tumor control after palliative radiotherapy of spinal metastases (10x3 Gy, 1x8Gy) is between 61 to 81%. In 30% of patients, therapy fails locally within two years associated with further symptoms that are difficult to treat, because a further radiation of already radiated vertebra leads to a higher rate of myelitis. This trial aims to improve local tumor control and control of pain by radiotherapy with increase in total and single dose. Dose elevation is realized by simultaneous, integrated boost mediated by image-guided stereotactic radiotherapy (IGRT & hfSRT) and by elevation of elective dose in vertebral body with 12x3 Gy (standard: 10x3 Gy). Primary endpoint is local tumor control (time up to progression). Secondary endpoints are pain control associated with quality of live, severity of acute and chronic adverse effects and overall survival. It is planned to recruit a total number of 155 patients.
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.
The main purpose of this study is to assess the efficacy of preoperative embolization in decreasing operative blood loss, decreasing the need for intraoperative transfusion and facilitate surgical resection in metastatic spine surgery. Furthermore the study aims at describing the vascularity in a series of spinal metastasis, and to correlate this with perioperative blood loss.
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.