View clinical trials related to Radiosurgery.
Filter by:This trial uses multi-parametric magnetic resonance imaging (MRI) to develop and validate imaging risk score to predict radiation necrosis in participants with brain metastasis treated with radiation therapy. Diagnostic procedures, such as multi-parametric magnetic resonance imaging (MRI), may improve the ability to diagnose radiation necrosis early and help establish treatment strategies.
Trigeminal neuralgia (TN) is the most common cause of facial pain. Medical treatment is the first therapeutic choice whereas surgery, including Gamma Knife radiosurgery (GKRS), is indicated in case of pharmacological therapy failure. However, about 20% of subjects lack adequate pain relief after surgery. Virtual reality (VR) technology has been explored as a novel tool for reducing pain perception and might be the breakthrough in treatment-resistant cases. The investigators will conduct a prospective randomized comparative study to detect the effectiveness of GKRS aided by VR-training vs GKRS alone in TN patients. In addition, using MRI and artificial intelligence (AI), the investigators will identify pre-treatment abnormalities of central nervous system circuits associated with pain to predict response to treatment. The investigators expect that brain-based biomarkers, with clinical features, will provide key information in the personalization of treatment options and bring a huge impact in the management and understanding of pain in TN.
This phase II clinical trial involves the use of hippocampal-sparing together with stereotactic radiosurgery (SRS) for the treatment of brain metastases. The standard of care in the treatment of brain metastases is cranial radiation, but this can be associated with significant neurocognitive sequelae, including reduced verbal memory, spatial memory, attention and problem solving. This can be minimized with the use of SRS, rather than whole brain radiotherapy (WBRT). Additionally, some of the neurotoxicity has been linked to damage in neural progenitor cells contained within the hippocampus. A recent phase III clinical trial has demonstrated reduced neurocognitive decline with use of hippocampal-sparing techniques in WBRT. This trial aims to see if this can be further improved by combining SRS and hippocampal-sparing.
This is a prospective, interventional pilot study to evaluate the feasibility of randomizing patients diagnosed with prostate cancer to different treatment schemes according to their risk. Patients with a diagnosis of prostate adenocarcinoma (confirmed by biopsy), without signs of metastasis outside the pelvis in the staging study and without prior radiotherapy (RT) to the pelvic region will be recruited. The definition of risk group from the international guide National Comprehensive Cancer Network will be used. - Low risk - Favorable intermediate risk - Unfavorable intermediate risk - High risk The use of hormonal blocking will be at the discretion of each treating physician. The radiotherapy simulation will be carried out according to the institutional protocol for the treatment of prostate cancer. According to the risk group of the patients, the following randomization will be carried out: - Low / intermediate favorable risk: Patients will be randomized to receive SBRT to prostate 36.25 Gy in 5 fractions, alternate days or weekly, with VMAT (technique and 6 Mega-voltage (MV) X-rays vs to SBRT to prostate 26 Gy in 2 fractions, 1 weekly fraction, with VMAT technique and 6 Mv X-rays. The volumes to be treated, ¨Clinical target volume¨ (CTV) will be defined as the prostate, according to the consensus of the Radiation Therapy Oncology Group (RTOG). - Intermediate unfavorable risk and high risk: Patients will be randomized to receive SBRT to the prostate and seminal vesicles, 36.25 Gy in 5 fractions, alternate days or weekly, with VMAT technique and 6 MV X-rays vs SBRT to pelvis scheme of 25 Gy in 5 fractions with simultaneous integrated boost up to 36.25 to the prostate and seminal vesicles, with the same technique. - Patients with positive pelvic node: Will be randomized to moderate hypofractionated RT , completing a dose of 44 Gy in 20 fractions to the pelvis with a simultaneous integrated boost up to 54-60 Gy in 20 fractions to metastatic lymphadenopathy and prostate with seminal vesicles, completing 60 Gy to prostate and seminal vesicles or to ultra hypofractionated RT to the prostate and macroscopic lymphadenopathy to 35 and 30-35 Gy respectively and 25 Gy in 5 fractions to the elective nodal areas.
The aim of this study is to assess pain response after combining stereotactic body radiotherapy (SBRT) and pedicle screw fixation in a 48-hour window for the treatment of painful unstable metastases of the thoracic and/or lumbar spine.
Data of 100 patients with spinal metastatic tumor who received stereotactic radiotherapy or conventionally-fractionated image-guided intensity-modulated radiotherapy in the multi-center of the research group from July 2019 to June 2021 will be collected, as well as their follow-up data.Previous treatment and follow-up data will be analyzed to evaluate the clinical efficacy comparison of stereotactic radiotherapy and conventionally-fractionated image-guided intensity-modulated radiotherapy for spinal metastatic tumors, local control rate and side effects, and to clarify the effectiveness and safety of different doses of radiotherapy.
Up to 50% of soft tissue sarcoma (STS) patients will develop metastases in the course of their disease. Cytotoxic therapy is a standard treatment in this setting but yields average tumor response rates of 25% at first line and ≤10% at later lines. It is also limited in the number of lines and courses by tolerance issues. Trials include poly/oligometastases indistinctively and suggest that consolidation ablation is used in ~20% of patients with residual oligometastases refractory to chemotherapy. Oligometastases represent a stage of disease between completely absent and widely metastatic, and which might be cured if the limited numbers of metastatic sites are eradicated. Ablative strategies to treat patients with oligometastases from sarcomas yield prolonged survival times and stereotactic body radiation therapy (SBRT) is associated with excellent tolerance. Surgery may be offered in selected metastatic cases. Alternatively and increasingly, SBRT yields high control rates at treated sites (≥ 80%). The so-called radioresistance of sarcomas is overcome by the high doses per fraction made possible owing to the high precision achieved with SBRT. SBRT is an accepted treatment strategy provided that tumor burden remains limited in the number and size of metastases. Systemic treatment can be combined with SBRT. SBRT may produce abscopal effects where tumors outside the irradiation area also demonstrate tumor shrinkage in some occurrences. SBRT produces systemic antitumoral immune response in certain conditions and enhances radiation-induced tumor cell death compared to conventional lower dose irradiation. Abscopal effects have been potentialized with SBRT/immunotherapy in several tumor models. Sarcomas are a privileged target tumor given their high metastatic propensity. Several potent immunomodulators that skew the tumor immune microenvironment toward a proimmunity context are being investigated in STS either alone or in combination with chemotherapy or targeted therapy. The PD-1 receptor is present within the tumor microenvironment, and limits the activity of infiltrating cytotoxic T lymphocytes, thus blocking effective immune responses. The action of PD-1 is triggered upon binding to its ligands. PD-1 can stimulate the immunosuppressive function of regulatory T cells. Moreover, blockade of PD-1 can stimulate anti-tumor immune responses. Significant responses have been obtained in several sarcomas with acceptable tolerance. Preliminary clinical experience suggests that immunotherapy can be efficient in refractory leiomyosarcomas. Several drugs targeting the PD-1/PD-L1/2 axis are ongoing either as single agents or in combination with ipilimumab, kinase inhibitors, or chemotherapy in STS subtypes. Combination of radiotherapy with immunotherapy is included as a means of increasing tumor antigen release in metastatic STS. Immunomodulated SBRT is a particularly attractive strategy, given the potential of radiation to induce cytotoxicity in tumors and induce abscopal effects. A phase II radiation trial showed increased apoptosis-, intra-tumoral dendritic cells and accumulation of intratumoral T cells in STS with correlation with tumor-specific immune responses. We here propose a randomized phase II study to prolong progression-free survival (PFS) with the combination of SBRT/immunotherapy in oligometastatic STS patients. SBRT is well-tolerated with hardly any severe toxicity (fewer than 5% acute and late grade 3 toxicities). It is performed in an ambulatory setting in only a few treatment fractions. Associations between irradiation and immunomodulatory agents appear to be synergistic and show favorable tolerance profiles. Immunomodulatory agents have a more favorable toxicity profile than cytotoxic agents with about 65% overall acute toxicities. Immunotherapy selectively binds to PD-L1 and competitively blocks its interaction with PD-1. Compared with anti-PD-1 antibodies that target T-cells, immunotherapy targets tumor cells, and is therefore may induce fewer side effects, including a lower risk of autoimmune-related safety issues, as blockade of PD-L1 leaves the PD-L2 - PD-1 pathway intact to promote peripheral self-tolerance. Stereotactic irradiation is associated with an excellent tolerance with rates of grade 3 or more toxicities below 5%. Preliminary data of toxicity with the association of stereotactic irradiation and immunotherapy show no cumulative toxicity in association with immunotherapy. However, their incidence and characteristics are no different from that observed with stereotactic irradiation alone. Moreover, intracranial metastases are exceptional in sarcomas. The toxicity of the association for extracranial stereotactic irradiation does not seem to be increased either.
The purpose of this study is to determine the changes in quality of life and degree of tremor for patients with essential tremor or Parkinsonian tremor who are treated by stereotactic radiosurgery (SRS). This is a questionnaire-based study. Please see Detailed Description below for more information.