Litcius/Paper detail

Two‐dimensional UTE overview imaging for dental application

Kilian Stumpf, Elena Kaye, Jan Paul, Stefan Wundrak, John M. Pauly, Volker Rasche

2020Magnetic Resonance in Medicine18 citationsDOIOpen Access PDF

Abstract

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 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 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.

Topics & Concepts

Pulse (music)Pulse sequenceSIGNAL (programming language)ExcitationMaterials scienceSequence (biology)ScannerBiomedical engineeringComputer scienceOpticsNuclear magnetic resonancePhysicsMedicineChemistryBiochemistryQuantum mechanicsDetectorProgramming languageDental Radiography and ImagingAdvanced MRI Techniques and ApplicationsMedical Imaging Techniques and Applications