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Femoral Shaft Fracture clinical trials

View clinical trials related to Femoral Shaft Fracture.

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NCT ID: NCT03251534 Completed - Clinical trials for Femoral Shaft Fracture

Contribution of Stereography (EOS Imaging System) in the Quantification of Femoral Shaft Fractures.

FEOS
Start date: September 2015
Phase:
Study type: Observational

This observational study is a collection of clinical and imaging data of patients with a femoral shaft fracture treated by nails. The aim of this research is the contribution of the EOS imaging system in the quantification of malunions.

NCT ID: NCT01190696 Completed - Clinical trials for Femoral Shaft Fracture

Titanium Elastic Nailing Versus Hip Spica Cast in Treatment of Femoral Fractures in Children

Start date: February 2009
Phase: Phase 2
Study type: Interventional

The purpose of this study is to determine which method is better for treatment of femoral fracture in children in outcomes.

NCT ID: NCT00471913 Completed - Clinical trials for Femoral Shaft Fracture

Functional Outcome and MRI of Muscle Damage Following Nailing Procedure in Femur (Thigh) Fractures Using Different Entry Points

Start date: April 2007
Phase: N/A
Study type: Interventional

Study focus is femoral shaft (thigh bone) fractures (break) that require surgical treatment under anaesthetic to stabilize the femur fracture. This is usually done by placing a metal nail and screws inside the femur (thigh) bone. This study has been designed to allow us to learn more about the effect of using a different starting point to insert the nail into the body in order to access the fracture and fix it. This question is important because to date, all entry points currently used do result in some muscle damage. In order to minimize this damage a lateral (side) entry nail has been developed and is currently in use at many centres. This nail is new but, the lateral entry technique for these types of fractures has been used extensively in the past, and this nail has been developed in order to better accommodate the technique. It is believed that entering laterally instead of going deeper into the tissue to access the bone to fix it is going to result in less muscle damage which in turn will improve functional outcome.