View clinical trials related to Elasticity Imaging Techniques.
Filter by:Knee osteoarthritis (OA) is a common problem in clinical settings. Knee OA is well known for its association with the wear and tear of the cartilage and osteophyte formation. Evidence has suggested the importance of the infrapatellar fat pad, known as Hoffa's fat pad, during the development of knee OA. Some studies have demonstrated the protective role of the infrapatellar fat pad, whereas others have suggested an inflammatory role such as increased fibrosis and proinflammatory cytokine levels. Ultrasound is exceptionally convenient in the assessment of the musculoskeletal system, and elastography is a tool to evaluate tissue texture. Therefore, in this study, we investigated the Hoffa's fat pad in knee OA patients by using elastography.
The diagnosis of rectal lesions is a challenging task, and the accuracy of the primary staging is important preoperatively. A relatively novel technology makes it possible to measure the tissue stiffness during endorectal ultrasonography. The purpose of this study is to evaluate the diagnostic value of Shear Wave Elastography (SWE). The hypothesis is that the tissue stiffness is higher in malignant tissue than in benign lesions.
This study aims a determine the responsiveness of sonoelastography in the tendinopathy-affected supraspinatus tendon.
This study aims at testing the discriminative validity of strain elastography in the normal and abnormal/pathological Supraspinatus tendon due to tendinopathy
In clinical practice, compression ultrasound (CUS) has become an easy and reliable noninvasive tool for the diagnosis of deep vein thrombosis (DVT). Currently there are not validated methods to assess the biological age of venous thrombus, and the date of onset of thrombosis. One potential technique to age DVT is ultrasound elastography (UE). UE is a noninvasive technique to measure tissue hardness, and it is well known that thrombi harden as they age. The aim of this study will be to assess the ability of UE to distinguish acute from chronic DVT. The investigators will evaluate prospectively all consecutive outpatients presenting with clinically suspected unprovoked DVT of the lower limbs, and those having a previous diagnosis of DVT for the scheduled 3 months visit of follow-up, for a period of about one year. All the enrolled patients will undergo to the CUS of the lower limbs, and at the same time to the ultrasound elastography by the physician expert in vascular ultrasound. The specialist performing both examinations will be unaware of the time of onset of DVT (acute or chronic). Then the patients will be divided into two groups (group A: patients with acute DVT; group B: patients with chronic DVT at the 3rd month of follow-up). Each examination (CUS and ultrasound elastography) will be repeated three times in the same patient at the same visit, to assess the reproducibility of the technique. The demographic data, medical history, physical examination and the results of CUS and ultrasound elastography will be collected in a case report form (CRF) by another investigator who does not perform the examinations. The blinded CRF will be submitted to a dedicated committee for statistical analysis.
Background: Non-alcoholic fatty liver disease (NAFLD) is the hepatic manifestation of the metabolic syndrome, which is one of the major risk factors of coronary heart disease (CHD). CHD is the most important manifestation of atherosclerosis, because of its immense morbidity and mortality. Transient elastography (TE, Fibroscan®) including the currently developed controlled attenuation parameter (CAP) is a non-invasive method for evaluation of liver fibrosis and steatosis, which is already implemented in routine care of patients with NAFLD. Hypothesis: The use of TE with CAP as screening for NAFLD might be an easy tool for risk assessment for CHD. Methods: Patients scheduled for routine coronary angiography will be screened for manifestation of NAFLD by TE including CAP, conventional ultrasound, clinical and laboratory parameters. Patients will be stratified for the presence of CHD based on the angiography results and correlation analysis with liver fat content will be performed. NFALD screening will be validated in a subgroup by MR-based measurements.