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Open Fracture clinical trials

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NCT ID: NCT04418882 Completed - Clinical trials for Bone and Joint Infection

Septic Management and Outcome of Open Fracture

Start date: May 15, 2020
Phase:
Study type: Observational

The aim is the study of the management and outcome of the open fractures. Some open fractures will become pseudarthrosis. Thoses pseudarthrosis may be septic or not. The management and evolution of all the open fractures will be described in order to identify the presence or not of a sepsis and then a development of a pseudarthrosis (septic or non septic).

NCT ID: NCT01496014 Completed - Open Fracture Clinical Trials

Assessment of Severe Extremity Wound Bioburden at the Time of Definitive Wound Closure or Coverage

Bioburden
Start date: September 2011
Phase:
Study type: Observational

The purpose of this study is to characterize the bacteria in the wound "bioburden" at the time of definitive wound coverage/closure of severe tibia fractures in both the military and civilian populations.

NCT ID: NCT00299052 Completed - Open Fracture Clinical Trials

Efficacy of DBM on Fractures of the Shinbone (Tibia)

Start date: March 2006
Phase: Phase 4
Study type: Interventional

The Tibia bone (shinbone) is located in the leg, itis the most frequently fractured bone in the body and has very poor blood supply because it is surrounded by skin and fat instead of muscle like the thighbone causing healing problems. Problems frequently found during the healing process are malunion (bone heals in the wrong place), nonunion (the bone never heals), and compartment syndrome (a big inflammation of muscle that causes compression of nerves and blood vessels) with necrosis (death) of tissue. Surgeons have tried to decrease these problems by using different surgical techniques and substances to accelerate healing. Substances frequently used in fractures are bone grafts. Bone grafts are normally obtained from the wrist or the hip bone, and sometimes can cause other complications varying from pain to infection. To avoid complications, investigators have used alternatives such as obtaining bone from donors. The donor bone grafts are carefully analyzed and cleaned to ensure they will not cause problems for the receiver. Bone obtained from donors is called Demineralized Bone Matrix (DBM). DBM has proved to be very effective in helping fractures to heal faster and we want to use it in patients with tibia fractures. This study is important because DBM can improve the way tibia fractures are treated and could have the potential to decrease the time patients must stay in the hospital. DBM could improve healing time and diminish overall costs. Also, with the use of DBM plus reamings, patients will have fewer complications like pain and infection.