Pflugi, Silvio; Liu, Li; Ecker, Timo M; Schumann, Steffen; Cullmann, Jennifer; Siebenrock, Klaus; Zheng, Guoyan (2016). A cost-effective surgical navigation solution for periacetabular osteotomy (PAO) surgery. International Journal of Computer Assisted Radiology and Surgery, 11(2), pp. 271-280. Springer 10.1007/s11548-015-1267-1
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IJCARS_PAO_Sensors_rv_w_figures.pdf - Accepted Version Available under License Publisher holds Copyright. Download (882kB) | Preview |
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art3A10.10072Fs11548-015-1267-1.pdf - Published Version Available under License Publisher holds Copyright. Download (1MB) | Preview |
PURPOSE
To evaluate a low-cost, inertial sensor-based surgical navigation solution for periacetabular osteotomy (PAO) surgery without the line-of-sight impediment.
METHODS
Two commercial inertial measurement units (IMU, Xsens Technologies, The Netherlands), are attached to a patient's pelvis and to the acetabular fragment, respectively. Registration of the patient with a pre-operatively acquired computer model is done by recording the orientation of the patient's anterior pelvic plane (APP) using one IMU. A custom-designed device is used to record the orientation of the APP in the reference coordinate system of the IMU. After registration, the two sensors are mounted to the patient's pelvis and acetabular fragment, respectively. Once the initial position is recorded, the orientation is measured and displayed on a computer screen. A patient-specific computer model generated from a pre-operatively acquired computed tomography scan is used to visualize the updated orientation of the acetabular fragment.
RESULTS
Experiments with plastic bones (eight hip joints) performed in an operating room comparing a previously developed optical navigation system with our inertial-based navigation system showed no statistically significant difference on the measurement of acetabular component reorientation. In all eight hip joints the mean absolute difference was below four degrees.
CONCLUSION
Using two commercially available inertial measurement units we show that it is possible to accurately measure the orientation (inclination and anteversion) of the acetabular fragment during PAO surgery and therefore to successfully eliminate the line-of-sight impediment that optical navigation systems have.
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