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Facial Fracture clinical trials

View clinical trials related to Facial Fracture.

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NCT ID: NCT04931056 Completed - Tumor Clinical Trials

A Post Market Clinical Follow-up Study on Biomet Microfixation HTR PEKK (Midface), Facial & Mandibular Plates.

Start date: October 1, 2021
Phase:
Study type: Observational

This study will address medical devices manufactured by Biomet Microfixation (d.b.a. Zimmer Biomet) designed for fixation and stabilization of the facial and mandibular skeleton.

NCT ID: NCT03292679 Withdrawn - Facial Fracture Clinical Trials

Craniofacial Applications of 3D Printing

Start date: June 2019
Phase:
Study type: Observational [Patient Registry]

3D printing is a technology that allows for physical creation of a 3D model (usually made of plastic) based on computer generated 3D images from CT scans. The 3D images of craniofacial skeleton using computer software are routinely generated and, in turn, these 3D images can be used to create a plastic 3D model using a 3D printer. Unstable or comminuted facial fractures need to be reduced and rigidly fixated using titanium plates and screws. Bending and shaping of the plates is usually performed by free-hand based on the surgeon's estimation of what best fits the fracture. Often, bending the titanium plates to the shape of pre-injury skeletal contour is difficult when the bone is fractured into many pieces or is unstable, or when the patient is edentulous (missing several teeth). The process can increase the time spent in surgery and the bent plates may not snugly fit the fracture. For these difficult cases, one option is to use commercially manufactured 3D printed patient-specific models. The patient-specific models provide the benefit of correct shape / form for increased surgical accuracy, and decreased intra-operative time. However these commercial models are manufactured at distant facilities and usually require more than 7 days before delivery. As such, they delay time to surgery and cannot be used for urgent surgery. Additionally, the commercially manufactured implants are expensive, significantly increasing the cost of treatment. The purpose of this study is to explore whether custom plastic models 3D printed at Shock Trauma Center and used for bending and shaping plates for facial fracture repair can improve results of facial fracture reconstruction. Our plastic surgery division will design and produce facial bone 3D model of patients (with facial fractures) using an in-house 3D printer, then use the 3D model to contour the hardware pre-op or intra-op at the time of fracture repair. We believe that we can achieve better repair, shorter surgery time, and save hardware cost.