Paweena U-Thainual scite author profile

Paweena U-Thainual

3Publications

87Citation Statements Received

35Citation Statements Given

How they've been cited

167

How they cite others

Affiliations

Queen's University, Johns Hopkins University, United States Food and Drug Administration

Publications

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The Effect of Augmented Reality Training on Percutaneous Needle Placement in Spinal Facet Joint Injections

Yeo

Ungi

U-Thainual

et al. 2011

IEEE Trans. Biomed. Eng.

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The purpose of this study was to determine if augmented reality image overlay and laser guidance systems can assist medical trainees in learning the correct placement of a needle for percutaneous facet joint injection. The Perk Station training suite was used to conduct and record the needle insertion procedures. A total of 40 volunteers were randomized into two groups of 20. 1) The Overlay group received a training session that consisted of four insertions with image and laser guidance, followed by two insertions with laser overlay only. 2) The Control group received a training session of six classical freehand insertions. Both groups then conducted two freehand insertions. The movement of the needle was tracked during the series of insertions. The final insertion procedure was assessed to determine if there was a benefit to the overlay method compared to the freehand insertions. The Overlay group had a better success rate (83.3% versus 68.4%, p=0.002), and potential for less tissue damage as measured by the amount of needle movement inside the phantom (3077.6 mm(2) versus 5607.9 mm(2) , p =0.01). These results suggest that an augmented reality overlay guidance system can assist medical trainees in acquiring technical competence in a percutaneous needle insertion procedure.

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Augmented Reality Visualization With Image Overlay for MRI-Guided Intervention: Accuracy for Lumbar Spinal Procedures With a 1.5-T MRI System

Fritz

U-Thainual

Ungi

et al. 2012

American Journal of Roentgenology

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Augmented reality visualisation using an image overlay system for MR-guided interventions: technical performance of spine injection procedures in human cadavers at 1.5 Tesla

et al. 2012

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