Injury
Volume 38, Issue 10 , Pages 1158-1162, October 2007

Rapid prototyping in the assessment, classification and preoperative planning of acetabular fractures

  • C. Hurson

      Affiliations

    • The Adelaide and Meath Hospital Incorporating the National Children's Hospital, Talaght, Dublin, Ireland
    • Corresponding Author InformationCorresponding author.
    • ,
  • A. Tansey

      Affiliations

    • The Tallaght Institute of Technology, Tallaght, Dublin, Ireland
    • ,
  • B. O’Donnchadha

      Affiliations

    • The Tallaght Institute of Technology, Tallaght, Dublin, Ireland
    • ,
  • P. Nicholson

      Affiliations

    • The Adelaide and Meath Hospital Incorporating the National Children's Hospital, Talaght, Dublin, Ireland
    • ,
  • J. Rice

      Affiliations

    • The Adelaide and Meath Hospital Incorporating the National Children's Hospital, Talaght, Dublin, Ireland
    • ,
  • J. McElwain

      Affiliations

    • The Adelaide and Meath Hospital Incorporating the National Children's Hospital, Talaght, Dublin, Ireland

Accepted 21 May 2007.

Summary 

Aim

To evaluate the use of rapid prototyping in the assessment, classification and preoperative planning of acetabular fractures.

Introduction

The complex three-dimensional anatomy of the pelvis and acetabulum make assessment, classification and treatment of fractures of these structures notoriously difficult. Conventional imaging only provides two-dimensional images of these fractures. While interpretation of traditional imaging techniques becomes better with experience, novel techniques may assist in the understanding of these complex injuries.

Methods

Twenty patients with acetabular fractures were studied. Life size three-dimensional models were manufactured from standardised CT scans, using the rapid prototyping process, selective laser sintering. Each model was presented to the operating surgeon prior to surgery. The surgeons found that the models greatly assisted in their understanding of the personality of the fracture. Three consultant orthopaedic surgeons and three senior trainees were asked to classify each fracture using conventional radiographs (AP pelvis, Judet views and CT scans) and then using the model. The kappa statistic was used to evaluate inter- and intraobserver agreement.

Results

Interobserver agreement was not absolute using either conventional radiographs or the models. For the consultants the kappa statistic using conventional radiographs was 0.61 while the kappa value using the model was 0.76 (p<0.05). For the trainees the kappa value was 0.42, using conventional radiographs and 0.71 using the model (p<0.01).

Conclusion

Full sized models of acetabular fractures greatly assisted surgeons understand the personality of complex fractures prior to surgery and have been shown in this study to significantly reduced the degree of interobserver variability in fracture classification. This effect is particularly evident for less experienced surgeons. This technique is available and relatively inexpensive. The use of these models should prove invaluable as a tool to aid clinical practice.

Keywords: Acetabular fracutres, Acetabulum, Rapid prototyping, Sintering, Fractures, Pelvis, Models

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PII: S0020-1383(07)00223-9

doi:10.1016/j.injury.2007.05.020

Injury
Volume 38, Issue 10 , Pages 1158-1162, October 2007

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