14 December 2017 Characterization and correction of intraoperative soft tissue deformation in image-guided laparoscopic liver surgery
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J. of Medical Imaging, 5(2), 021203 (2017). doi:10.1117/1.JMI.5.2.021203
Abstract
Laparoscopic liver surgery is challenging to perform due to a compromised ability of the surgeon to localize subsurface anatomy in the constrained environment. While image guidance has the potential to address this barrier, intraoperative factors, such as insufflation and variable degrees of organ mobilization from supporting ligaments, may generate substantial deformation. The severity of laparoscopic deformation in humans has not been characterized, and current laparoscopic correction methods do not account for the mechanics of how intraoperative deformation is applied to the liver. We first measure the degree of laparoscopic deformation at two insufflation pressures over the course of laparoscopic-to-open conversion in 25 patients. With this clinical data alongside a mock laparoscopic phantom setup, we report a biomechanical correction approach that leverages anatomically load-bearing support surfaces from ligament attachments to iteratively reconstruct and account for intraoperative deformations. Laparoscopic deformations were significantly larger than deformations associated with open surgery, and our correction approach yielded subsurface target error of 6.7±1.3  mm and surface error of 0.8±0.4  mm using only sparse surface data with realistic surgical extent. Laparoscopic surface data extents were examined and found to impact registration accuracy. Finally, we demonstrate viability of the correction method with clinical data.
© 2017 Society of Photo-Optical Instrumentation Engineers (SPIE)
Jon S. Heiselman, Logan W. Clements, Jarrod A. Collins, Jared A. Weis, Amber L. Simpson, Sunil K. Geevarghese, T. Peter Kingham, William R. Jarnagin, Michael I. Miga, "Characterization and correction of intraoperative soft tissue deformation in image-guided laparoscopic liver surgery," Journal of Medical Imaging 5(2), 021203 (14 December 2017). https://doi.org/10.1117/1.JMI.5.2.021203 Submission: Received 7 September 2017; Accepted 21 November 2017
Submission: Received 7 September 2017; Accepted 21 November 2017
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