BACKGROUND: Minimally invasive surgical interventions performed using computer-assisted surgery (CAS) systems require reliable registration methods for pre-operatively acquired patient anatomy representations that are compatible with the minimally invasive paradigm. The use of brightness-mode ultrasound seems to be promising, if associated devices work in a computationally efficient and fully automatic manner. METHODS: This paper presents a rapid and fully automatic segmentation approach for ultrasound B-mode images capable of detecting echoes from bony structures. The algorithm focuses on the precise and rapid detection of bone contours usable for minimally invasive registration. The article introduces the image-processing scheme and a set-up enabling a direct comparison between manually digitized reference points and the segmented bone contours. The segmentation accuracy was assessed using cadaveric material. RESULTS: The experimental evaluation revealed results in the same order of magnitude as a pointer-based surface digitization procedure. CONCLUSION: The suggested segmentation approach provides a reliable means of detecting bony surface patches in ultrasound images. (c) 2007 John Wiley & Sons, Ltd.
BACKGROUND: Minimally invasive surgical interventions performed using computer-assisted surgery (CAS) systems require reliable registration methods for pre-operatively acquired patient anatomy representations that are compatible with the minimally invasive paradigm. The use of brightness-mode ultrasound seems to be promising, if associated devices work in a computationally efficient and fully automatic manner. METHODS: This paper presents a rapid and fully automatic segmentation approach for ultrasound B-mode images capable of detecting echoes from bony structures. The algorithm focuses on the precise and rapid detection of bone contours usable for minimally invasive registration. The article introduces the image-processing scheme and a set-up enabling a direct comparison between manually digitized reference points and the segmented bone contours. The segmentation accuracy was assessed using cadaveric material. RESULTS: The experimental evaluation revealed results in the same order of magnitude as a pointer-based surface digitization procedure. CONCLUSION: The suggested segmentation approach provides a reliable means of detecting bony surface patches in ultrasound images. (c) 2007 John Wiley & Sons, Ltd.
Authors: Ilker Hacihaliloglu; David R Wilson; Michael Gilbart; Michael A Hunt; Purang Abolmaesumi Journal: Int J Comput Assist Radiol Surg Date: 2012-05-25 Impact factor: 2.924
Authors: Emran Mohammad Abu Anas; Alexander Seitel; Abtin Rasoulian; Paul St John; David Pichora; Kathryn Darras; David Wilson; Victoria A Lessoway; Ilker Hacihaliloglu; Parvin Mousavi; Robert Rohling; Purang Abolmaesumi Journal: Int J Comput Assist Radiol Surg Date: 2015-04-07 Impact factor: 2.924