View clinical trials related to Stress Fracture Metatarsal.
Filter by:Stress fractures (fatigue or insufficiency fracture) are caused by the mismatch between bone strength and chronic stress applied to the bone. The vast majority of these fractures occur in the lower extremity. Early-stage diagnosis is crucial to optimize patient care. Appropriate imaging is relevant in confirming diagnosis after clinical suspicion of stress fractures. Radiographs have low sensitivity, so a relevant number of fractures go undetected. MRI has a high sensitivity, but its availability is limited, and its respective examination time is prolonged. This study investigates the diagnostic accuracy of PCCT in lower extremity stress fractures as a dose-saving technology, guaranteeing an examination according to the ALARA-principle (as low as reasonably achievable).
Fifth metatarsal stress fracture is a failure of a healthy metatarsal bone subject to repetitive microdamages. It has a high prevalence in soccer players and is classified as a high-risk stress fracture. Based on Torg classification, the treatment options may be conservative or surgical. The recent increase of evidences about Shock Wave Treatment in different bone pathologies, including stress fractures, suggests the possibility to use this conservative intervention option also in patients candidate for surgery. This randomized clinical trial included 18 soccer players diagnosed of proximal fifth metatarsal stress fracture, randomly matched in Surgery group and Shock Wave group. Patients of Surgery group were treated with intramedullary screw fixation; patients of Shock Wave group received 3 weekly sessions of Focused Shock Wave Treatment (F-ESWT), using an electrohydraulic device set to an energy flux density (EFD) of 0.21 mJ/mm2 and 2000 impulses. Patients of both groups were followed monthly until their return to play (RTP) using radiography, Visual Analogue Scale (VAS), Tegner Activity Level Scale and AOFAS score.