2018
DOI: 10.1002/mp.13210
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Electromagnetic tracking in image‐guided laparoscopic surgery: Comparison with optical tracking and feasibility study of a combined laparoscope and laparoscopic ultrasound system

Abstract: PurposeIn image‐guided laparoscopy, optical tracking is commonly employed, but electromagnetic (EM) systems have been proposed in the literature. In this paper, we provide a thorough comparison of EM and optical tracking systems for use in image‐guided laparoscopic surgery and a feasibility study of a combined, EM‐tracked laparoscope and laparoscopic ultrasound (LUS) image guidance system.MethodsWe first assess the tracking accuracy of a laparoscope with two optical trackers tracking retroreflective markers mo… Show more

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Cited by 23 publications
(11 citation statements)
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“…Electromagnetic tracking is widely used in different medical applications starting from image-guided interventional surgery (Xiao et al, 2018) (Cleary et al, 2005), more recently, to medical device navigation (Linte et al, 2012), (Aufdenblatten and Altermatt, 2008), thanks to their miniaturization, precision, easy to set up installation, and freedom from the line-of-sight. Consequently, electromagnetic tracking is a promising method for tracking and localizing the devices in clinical applications such as bronchoscopy (Leong et al, 2012), endoscopy (Fried et al, 1997), knee arthroplast (Lionberger et al, 2008).…”
Section: Electromagnetic Tracking-based Shape Reconstruction Processesmentioning
confidence: 99%
“…Electromagnetic tracking is widely used in different medical applications starting from image-guided interventional surgery (Xiao et al, 2018) (Cleary et al, 2005), more recently, to medical device navigation (Linte et al, 2012), (Aufdenblatten and Altermatt, 2008), thanks to their miniaturization, precision, easy to set up installation, and freedom from the line-of-sight. Consequently, electromagnetic tracking is a promising method for tracking and localizing the devices in clinical applications such as bronchoscopy (Leong et al, 2012), endoscopy (Fried et al, 1997), knee arthroplast (Lionberger et al, 2008).…”
Section: Electromagnetic Tracking-based Shape Reconstruction Processesmentioning
confidence: 99%
“…It combines the high resolution of optical imaging with the depth penetration of ultrasound (93,94). This technology has been used in the clinic for breast tumor margin assessment (93)(94)(95)(96), SLN mapping and assessment of the metastatic status in breast cancer (97), melanoma resection (98), and neurovascular bundle identification during prostate surgery (Supplemental Table 6) (99). Photoacoustic microscopy has also been used for label-free evaluation of breast tumor margins, with images that were comparable to processed histology slides (96).…”
Section: Photoacousticsmentioning
confidence: 99%
“…The nominal accuracy of fusionTrack 250 is 90 µm within 1.4 m [29], which covers our simulation workspace. The tool's velocity also affects accuracy [30]. The hexapod has 3 µm resolution and 0.5 µm repeatability.…”
Section: Tool Tracking Experimentsmentioning
confidence: 99%
“…The MAE and RMSE values were 0.1503 and 0.2089 respectively. Oscillations in the visual tip position (i in Figure 13) were mostly due to the typical jitter of the optical tracker [30] and partly due to the shaking of the user's hand. We designed a final experiment to evaluate the synchronization between visual and haptic rendering.…”
Section: Visual Rendering Experimentsmentioning
confidence: 99%