Web based camera navigation for virtual pancreatic cancer surgery: Whipple surgery simulator (VPanSS)

Demirel, Doga; Yu, Alexander; Halic, Tansel; Kockara, Sinan

doi:10.1109/innotek.2014.6877375

Cited by 4 publications

(2 citation statements)

References 15 publications

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“…We developed the GAML platform, as shown in Figure , using our Π‐SoFMIS framework . Π‐SoFMIS is designed to build real‐time interactive simulation and visualization applications on the web.…”

Section: Methodsmentioning

confidence: 99%

Generative Anatomy Modeling Language (GAML)

Demirel

Baer-Cooper

et al. 2017

Robotics Computer Surgery

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Background This paper presents the Generative Anatomy Modeling Language (GAML) for generating variation of 3D virtual human anatomy in real-time. This framework provides a set of operators for modification of a reference base 3D anatomy. The perturbation of the 3D models is satisfied with nonlinear geometry constraints to create an authentic human anatomy. Methods GAML was used to create 3D difficult anatomical scenarios for virtual simulation of airway management techniques such as Endotracheal Intubation (ETI) and Cricothyroidotomy (CCT). Difficult scenarios for each technique were defined and the model variations procedurally created with GAML. Conclusion This study presents details of the GAML design, set of operators, types of constraints. Cases of CCT and ETI difficulty were generated and confirmed by expert surgeons. Execution performance pertaining to an increasing complexity of constraints using nonlinear programming was in real-time execution.

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Section: Methodsmentioning

confidence: 99%

Generative Anatomy Modeling Language (GAML)

Demirel

Baer-Cooper

et al. 2017

Robotics Computer Surgery

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“…Very few papers deal with the constitutive modeling of pancreatic tissue, despite a few simulators exist, see for instance [29] for an example of a web-based navigation system. In [30] elastography is employed to determine the shear stiffness of the tissue, giving some 1.20 kPa at 40 Hz.…”

Section: Pancreas and Duodenummentioning

confidence: 99%

Towards a pancreatic surgery simulator based on model order reduction

Mena

Bel

Alfaro

et al. 2015

Adv. Model. and Simul. in Eng. Sci.

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In this work a pancreatic surgery simulator is developed that provides the user with haptic feedback. The simulator is based on the use of model order reduction techniques, particularly Proper Generalized Decomposition methods. The just developed simulator presents some notable advancements with respect to existing works in the literature, such as the consideration of non-linear hyperelasticity for the constitutive modeling of soft tissues, an accurate description of contact between organs and momentum and energy conserving time integration schemes. Pancreas, liver, gall bladder, and duodenum are modeled in the simulator, thus providing with a very realistic and immersive perception to the user.

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