MR image overlay guidance: system evaluation for preclinical use

PurposeA clinical augmented reality guidance system was developed for MRI-guided musculoskeletal interventions Magnetic Resonance Image Overlay System (MR-IOS). The purpose of this study was to assess MRI compatibility, system accuracy, technical efficacy, and operator performance of the MR-IOS.Methods and materialsThe impact of the MR-IOS on the MR environment was assessed by measuring image quality with signal-to-noise ratio (SNR) and signal intensity uniformity with the system in various on/off states. The system accuracy was assessed with an in-room preclinical experiment by performing 62 needle insertions on a spine phantom by an expert operator measuring entry, depth, angle, and target errors. Technical efficacy and operator performance were tested in laboratory by running an experiment with 40 novice operators (20 using freehand technique versus 20 MR-IOS-guided) with each operator inserting 10 needles into a geometric phantom. Technical efficacy was measured by comparing the success rates of needle insertions between the two operator groups. Operator performance was assessed by comparing total procedure times, total needle path distance, presumed tissue damage, and speed of individual insertions between the two operator groups.ResultsThe MR-IOS maximally altered SNR by 2% with no perceptible change in image quality or uniformity. Accuracy assessment showed mean entry error of 1.6 ± 0.6 mm, depth error of 0.7 ± 0.5 mm, angle error of 1.5 ± 1.1°, and target error of 1.9 ± 0.8 mm. Technical efficacy showed a statistically significant difference (p = 0.031) between success rates (freehand 35.0% vs. MR-IOS 80.95%). Operator performance showed: mean total procedure time of 40.3 ± 4.4 (s) for freehand and 37.0 ± 3.7 (s) for MR-IOS (p = 0.584), needle path distances of 152.6 ± 15.0 mm for freehand and 116.9 ± 8.7 mm for MR-IOS (p = 0.074), presumed tissue damage of 7,417.2 ± 955.6 mm2 for freehand and 6062.2 ± 678.5 mm2 for MR-IOS (p = 0.347), and speed of insertion 5.9 ± 0.4 mm/s for freehand and 4.3 ± 0.3 mm/s for MR-IOS (p = 0.003).ConclusionThe MR-IOS is compatible within a clinical MR imaging environment, accurate for needle placement, technically efficacious, and improves operator performance over the unassisted insertion technique. The MR-IOS was found to be suitable for further testing in a clinical setting.

[1]  Gabor Fichtinger,et al.  The Perk Station: Systems design for percutaneous intervention training suite , 2009, 2008 IEEE International Conference on Robotics and Biomimetics.

[2]  Gabor Fichtinger,et al.  Augmented reality visualization with image overlay for MRI-guided intervention: accuracy for lumbar spinal procedures with a 1.5-T MRI system. , 2012, AJR. American journal of roentgenology.

[3]  Gabor Fichtinger,et al.  The Effect of Augmented Reality Training on Percutaneous Needle Placement in Spinal Facet Joint Injections , 2011, IEEE Transactions on Biomedical Engineering.

[4]  Gabor Fichtinger,et al.  Perk Station - Percutaneous surgery training and performance measurement platform , 2010, Comput. Medical Imaging Graph..

[5]  Gabor Fichtinger,et al.  Validation System of MR Image Overlay and Other Needle Insertion Techniques , 2007, MMVR.

[6]  Niels F. Otani Termination of Reentrant Cardiac Action Potential Propagation Using Far-Field Electrical Pacing , 2011, IEEE Transactions on Biomedical Engineering.

[7]  Gabor Fichtinger,et al.  MRI image overlay: Application to arthrography needle insertion , 2007, Computer aided surgery : official journal of the International Society for Computer Aided Surgery.

[8]  Gabor Fichtinger,et al.  Augmented reality visualization with use of image overlay technology for MR imaging-guided interventions: assessment of performance in cadaveric shoulder and hip arthrography at 1.5 T. , 2012, Radiology.

[9]  C. Csoma,et al.  Evaluation of MR Image Overlay for Spinal Interventions , 2006 .

[10]  D. C. Howell Statistical Methods for Psychology , 1987 .

[11]  K. Cleary,et al.  Navigation with electromagnetic tracking for interventional radiology procedures: a feasibility study. , 2005, Journal of vascular and interventional radiology : JVIR.