Accuracy of a magnetic resonance imaging‐based 3D printed stereotactic brain biopsy device in dogs
S Gutmann, D Winkler, M Müller… - Journal of veterinary …, 2020 - Wiley Online Library
S Gutmann, D Winkler, M Müller, R Möbius, JP Fischer, P Böttcher, I Kiefer, R Grunert…
Journal of veterinary internal medicine, 2020•Wiley Online LibraryBackground Brain biopsy of intracranial lesions is often necessary to determine specific
therapy. The cost of the currently used stereotactic rigid frame and optical tracking systems
for brain biopsy in dogs is often prohibitive or accuracy is not sufficient for all types of lesion.
Objectives To evaluate the application accuracy of an inexpensive magnetic resonance
imaging‐based personalized, 3D printed brain biopsy device. Animals Twenty‐two dog
heads from cadavers were separated into 2 groups according to body weight (< 15 kg,> 20 …
therapy. The cost of the currently used stereotactic rigid frame and optical tracking systems
for brain biopsy in dogs is often prohibitive or accuracy is not sufficient for all types of lesion.
Objectives To evaluate the application accuracy of an inexpensive magnetic resonance
imaging‐based personalized, 3D printed brain biopsy device. Animals Twenty‐two dog
heads from cadavers were separated into 2 groups according to body weight (< 15 kg,> 20 …
Background
Brain biopsy of intracranial lesions is often necessary to determine specific therapy. The cost of the currently used stereotactic rigid frame and optical tracking systems for brain biopsy in dogs is often prohibitive or accuracy is not sufficient for all types of lesion.
Objectives
To evaluate the application accuracy of an inexpensive magnetic resonance imaging‐based personalized, 3D printed brain biopsy device.
Animals
Twenty‐two dog heads from cadavers were separated into 2 groups according to body weight (<15 kg, >20 kg).
Methods
Experimental study. Two target points in each cadaver head were used (target point 1: caudate nucleus, target point 2: piriform lobe). Comparison between groups was performed using the independent Student's t test or the nonparametric Mann‐Whitney U Test.
Results
The total median target point deviation was 0.83 mm (range 0.09‐2.76 mm). The separate median target point deviations for target points 1 and 2 in all dogs were 0.57 mm (range: 0.09‐1.25 mm) and 0.85 mm (range: 0.14‐2.76 mm), respectively.
Conclusion and Clinical Importance
This magnetic resonance imaging‐based 3D printed stereotactic brain biopsy device achieved an application accuracy that was better than the accuracy of most brain biopsy systems that are currently used in veterinary medicine. The device can be applied to every size and shape of skull and allows precise positioning of brain biopsy needles in dogs.