Two‐dimensional UTE overview imaging for dental application

Purpose To investigate the applicability of a 2D‐UTE half‐pulse sequence for dental overview imaging and the detection of signal from mineralized dental tissue and caries lesions with ultra‐short T2∗ as an efficient alternative to 3D sequences. Methods A modified 2D‐UTE sequence using 240‐µs half‐pu...

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Bibliographic Details
Published in:Magnetic resonance in medicine 2020-11, Vol.84 (5), p.2616-2624
Main Authors: Stumpf, Kilian, Kaye, Elena, Paul, Jan, Wundrak, Stefan, Pauly, John M., Rasche, Volker
Format: Article
Language:English
Subjects:
2D UTE
caries
Dental caries
dental imaging
Dental materials
Excitation
half‐pulse
Image acquisition
Imaging, Three-Dimensional
Jaw
Lesions
Magnetic Resonance Imaging
Mandible
Maxilla
Mineralization
Phantoms, Imaging
Saturation
Signal detection
Teeth
Tissues
tune delay
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Summary:Purpose To investigate the applicability of a 2D‐UTE half‐pulse sequence for dental overview imaging and the detection of signal from mineralized dental tissue and caries lesions with ultra‐short T2∗ as an efficient alternative to 3D sequences. Methods A modified 2D‐UTE sequence using 240‐µs half‐pulses for excitation and a reduction of the coil tune delay from the manufacturer preset value allowed for the acquisition of in vivo dental images with a TE of 35 µs at 1.5T. The common occurrence of out‐of‐slice signal for half‐pulse sequences was avoided by applying a quadratic‐phase saturation pulse before each half‐RF excitation. A conventional 2D‐UTE sequence with a TE of 750 µs, using slice selection rephasing, was used for comparison. Results Quadratic phase saturation pulses adequately improve the slice profile of half‐pulse excitations for dental imaging with a surface coil. In vivo images and SNR measurements show a distinct increase in signal in ultrashort T2∗ tissues for the proposed 2D‐UTE half‐pulse sequence compared with a 2D‐UTE sequence using conventional slice selection, leading to an improved detection of caries lesions. Conclusion The proposed pulse sequence enables the acquisition of in vivo images of a comprehensive overview of bone structures and teeth of a single side of the upper and lower jaw and signal detection from mineralized dental tissues in clinically acceptable scan times.
ISSN:0740-3194
1522-2594
DOI:10.1002/mrm.28312