J. Gooding
RWTH Aachen University
5 Papers
16 Citations
J. Gooding is an academic researcher from RWTH Aachen University. The author has contributed to research in topics: Gait analysis & Stylet. The author has an hindex of 2, co-authored 5 publications.
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Papers
Electromagnetically Navigated In Situ Fenestration of Aortic Stent Grafts: Pilot Animal Study of a Novel Fenestrated EVAR Approach
Tobias Penzkofer,Tobias Penzkofer,Hong-Sik Na,Peter Isfort,Christoph Wilkmann,S. Osterhues,Andreas Besting,Christoph Hänisch,S. Bisplinghoff,J. Jansing,Sylvie Charlotte Frieda Anneliese von Werder,J. Gooding,Mathias de la Fuente,Andreas H. Mahnken,Andreas H. Mahnken,Catherine Disselhorst-Klug,Thomas Schmitz-Rode,Christiane K. Kuhl,Philipp Bruners +18 more
TL;DR: Electromagnetically navigated in situ aortic fenestration for juxtarenal aorti stent grafts was feasible in a healthy animal model and identified remaining challenges were: shortening the procedure to avoid long warm ischemia times, using an aortIC aneurysm animal model, and improving the stability of theStent graft material.
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Technical concepts for vascular electromagnetic navigated interventions: aortic in situ fenestration and transjugular intrahepatic porto-systemic shunts.
Tobias Penzkofer,Peter Isfort,Hong-Sik Na,Christoph Wilkmann,S. Osterhues,Andreas Besting,Christoph Hänisch,S. Bisplinghoff,J. Jansing,Sylvie Charlotte Frieda Anneliese von Werder,J. Gooding,Mathias de la Fuente,Andreas H. Mahnken,Catherine Disselhorst-Klug,Thomas Schmitz-Rode,Christiane K. Kuhl,Philipp Bruners +16 more
TL;DR: Once established, these systems could aid in performing these challenging interventional radiology procedures, exploiting the unique characteristics of electromagnetic navigation and solving multiple of the problems associated with these interventions being performed under X-ray fluoroscopy, such as lacking real-time 3D information or extensive exposure to ionizing radiation.
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Feasibility of electromagnetically guided transjugular intrahepatic portosystemic shunt procedure.
Peter Isfort,Tobias Penzkofer,Christoph Wilkmann,Hong Sik Na,Christian Kotzlowski,Nobutake Ito,Joachim Georg Pfeffer,S. Bisplinghoff,S. Osterhues,Andreas Besting,J. Gooding,Thomas Schmitz-Rode,Christiane K. Kuhl,Andreas H. Mahnken,Philipp Bruners +14 more
TL;DR: TIPS creation with the use of electromagnetic tracking technology proved to be feasible in-vitro as well as in- vivo and may be useful to facilitate challenging TIPSS procedures.
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Respiratory Motion Compensation in Image-Guided Therapies
TL;DR: Navigation to target structures during interventional procedures is based on pre-intervention imaging data sets, but respiration causes a spatial displacement of internal organs, providing two challenges for which compensation strategies are needed.
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A Novel Portable System for Gait Analysis and Rehabilitation.
TL;DR: A portable system was developed which, based on the information from wireless wearable sensors, monitors the quality of the gait in real time and classifies the gact as normal or pathological, and provides an objective assessment to the patient who is able to autonomously correct their gait pattern and progressively achieve a complete rehabilitation.
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