Step-wise identification of ultrasound-visible anatomical landmarks for 3D visualization of scoliotic spine

Zachary Baum; Ben Church; Andras Lasso; Tamas Ungi; Christopher Schlenger; Daniel P. Borschneck; Parvin Mousavi; Gabor Fichtinger

doi:10.1117/12.2512648

8 March 2019 Step-wise identification of ultrasound-visible anatomical landmarks for 3D visualization of scoliotic spine

Zachary Baum, Ben Church, Andras Lasso, Tamas Ungi, Christopher Schlenger, Daniel P. Borschneck, Parvin Mousavi, Gabor Fichtinger

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Proceedings Volume 10951, Medical Imaging 2019: Image-Guided Procedures, Robotic Interventions, and Modeling; 1095129 (2019) https://doi.org/10.1117/12.2512648
Event: SPIE Medical Imaging, 2019, San Diego, California, United States

Abstract

PURPOSE: Identification of vertebral landmarks with ultrasound is a challenging task. We propose a step-wise computer-guided landmark identification method for developing 3D spine visualizations from tracked ultrasound images. METHODS: Transverse process bone patches were identified to generate an initial spine segmentation in real - time from live ultrasound images. A modified k-means algorithm was adapted to provide an initial estimate of landmark locations from the ultrasound image segmentation. The initial estimations using the modified k-means algorithm do not always provide a landmark on every segmented image patch. As such, further processing may improve the result captured from the sequences, owing to the spine’s symmetries. Five healthy subjects received thoracolumbar US scans. Their real- time ultrasound image segmentations were used to create 3D visualizations for initial validation of the method. RESULTS: The resulting visualizations conform to the parasagittal curvature of the ultrasound images. Our processing can correct the initial estimation to reveal the underlying structure and curvature of the spine from each subject. However, the visualizations are typically truncated and suffer from dilation or expansion near their superior and inferior-most points. CONCLUSION: Our methods encompass a step-wise approach to bridge the gap between ultrasound scans, and 3D visualization of the scoliotic spine, generated using vertebral landmarks. Though a lack of ground-truth imaging prevented complete validation of the workflow, patient-specific deformation is clearly captured in the anterior-posterior curvatures. The frequency of user-interaction required for completing the correction methods presents a challenge in moving towards full automation and requires further attention.

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Zachary Baum, Ben Church, Andras Lasso, Tamas Ungi, Christopher Schlenger, Daniel P. Borschneck, Parvin Mousavi, and Gabor Fichtinger "Step-wise identification of ultrasound-visible anatomical landmarks for 3D visualization of scoliotic spine", Proc. SPIE 10951, Medical Imaging 2019: Image-Guided Procedures, Robotic Interventions, and Modeling, 1095129 (8 March 2019); https://doi.org/10.1117/12.2512648

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KEYWORDS

Spine

Visualization

Ultrasonography

Image segmentation

3D visualizations

Bone

Computed tomography

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