View clinical trials related to Bone Lesion.
Filter by:This study aimed to determine whether the whole-body bone Single Photon Emission Computed Tomography (SPECT) recording times of around 10 minutes, routinely provided by a high-sensitivity 360 degrees cadmium and zinc telluride (CZT) camera, can be further reduced by a deep learning noise reduction (DLNR) algorithm.
The purpose of this study is to demonstrate the effect of bioceramic implants on the repair of human bone defects, and to explore the application of bioceramic materials in bone defects, bone implantation, and bone fusion. The surface microstructure of β-tricalcium phosphate bioceramic implants can be effectively controlled to guide the regeneration of bones, promote the restoration of bones, accelerate the speed of recovery, and improve bone quality, which is of great clinical and social significance.
Evaluation of the effect of hyaluronic acid with hydroxyapatite versus hydroxyapatite alone on bone regeneration following enucleation of mandibular odontogenic cyst.
The hypothesis of the study is that non-invasive Single photon emission computed tomography (SPECT-CT) bone scintigraphy makes it possible to better characterize solitary bone lesions, in particular the exclusion of their malignancy in order to avoid unnecessary biopsy and possible complications for the patient.
To explore the capability of the interventional radiology techniques in management of the painful bony lesions .
The goal of this clinical study is to evaluate the duration of the procedure, the precision (distance between the needle tip and the centre of the target), and the safety of endosight system in the guidance for bone biopsies.
Tibial pseudarthrosis in 83 year old patient suffering from pathologic fractures
The aim of this research study is to assess the effectiveness of combined ablation and cementoplasty in the treatment of spinal, pelvic, and extraspinal lesions causing pain resistant to conventional treatment at our centre. In particular, the investigator seek to verify the safety and efficacy for multiple primary tumor types and benign lesions as well as encompass multiple measurements of outcome, including visual analog scale (VAS) for pain, opioid and analgesic use, and overall performance scales, combined with cross-sectional imaging follow-up to assess tumor burden, to ascertain a comprehensive Canadian single-centre experience that has been lacking in previous studies.
The PRE-FURTHER study aims to evaluate the feasibility of the combined treatment with radiotherapy and focussed ultrasound for pain palliation in patients with painful bone metastases, and to optimize the combined treatment logistics. Six to ten patients will be included according to in- and exclusion criteria.
The FURTHER study aims to evaluate the effectiveness and cost-effectiveness of MR-HIFU (alone or in combination with EBRT) compared to EBRT alone, the standard-of-care, as a palliative treatment option to relieve CIBP. The FURTHER study consists of a multicenter, three-armed randomized controlled trial (FURTHER RCT) and a patient registry arm (FURTHER Registry), which will be performed in six hospitals in four European countries.