OBJECTIVE: The aim of this study was to assess the feasibility of ultrashort echo time (UTE) imaging in the visualization of middle ear ossicles in normal subjects. METHODS: 12 young adult volunteers (males/females = 6/6, age 25-44 years, mean 30.3 years) with normal hearing levels underwent MRI studies using a 3.0 T clinical unit with an eight-channel SENSE head coil. For each subject, the whole head was imaged using a three-dimensional dual-echo UTE imaging sequence with radial trajectory and the following parameters: field of view, 240 × 240 × 240 mm; matrix, 320 × 320; flip angle, 7°; repetition time/echo time (TE)1/TE2, 8.0 ms/0.14 ms/1.8 ms; acquisition voxel size, 0.75 × 0.75 × 0.75 mm; number of signals averaged, 1; imaging time, 27 min 20 s. Subsequently, subtraction images were obtained by subtracting long TE (1.8 ms) images from short TE (0.14 ms) images. By using these three images, the visibility of the bilateral middle ear ossicles was evaluated. Moreover, as a reference for the UTE findings, CT images of the temporal bone were obtained in one volunteer. RESULTS: In all subjects, the middle ear ossicles were clearly visualized as a high signal intensity spot surrounded by a signal void of air on short TE images bilaterally, while they were not visible in long TE images in any of the subjects. The subtraction images provided better contrast of the ossicles. CONCLUSION: We demonstrated the feasibility of UTE imaging of the middle ear ossicle in normal subjects.
OBJECTIVE: The aim of this study was to assess the feasibility of ultrashort echo time (UTE) imaging in the visualization of middle ear ossicles in normal subjects. METHODS: 12 young adult volunteers (males/females = 6/6, age 25-44 years, mean 30.3 years) with normal hearing levels underwent MRI studies using a 3.0 T clinical unit with an eight-channel SENSE head coil. For each subject, the whole head was imaged using a three-dimensional dual-echo UTE imaging sequence with radial trajectory and the following parameters: field of view, 240 × 240 × 240 mm; matrix, 320 × 320; flip angle, 7°; repetition time/echo time (TE)1/TE2, 8.0 ms/0.14 ms/1.8 ms; acquisition voxel size, 0.75 × 0.75 × 0.75 mm; number of signals averaged, 1; imaging time, 27 min 20 s. Subsequently, subtraction images were obtained by subtracting long TE (1.8 ms) images from short TE (0.14 ms) images. By using these three images, the visibility of the bilateral middle ear ossicles was evaluated. Moreover, as a reference for the UTE findings, CT images of the temporal bone were obtained in one volunteer. RESULTS: In all subjects, the middle ear ossicles were clearly visualized as a high signal intensity spot surrounded by a signal void of air on short TE images bilaterally, while they were not visible in long TE images in any of the subjects. The subtraction images provided better contrast of the ossicles. CONCLUSION: We demonstrated the feasibility of UTE imaging of the middle ear ossicle in normal subjects.
Authors: Bert De Foer; Jean-Philippe Vercruysse; Anja Bernaerts; Joke Meersschaert; Christoph Kenis; Marc Pouillon; Luc De Beuckeleer; Johan Michiels; Kris Bogaerts; Filip Deckers; Thomas Somers; Robert Hermans; Erwin Offeciers; Jan W Casselman Journal: Radiology Date: 2010-06 Impact factor: 11.105
Authors: Lorenz Jäger; Harald Bonell; Martin Liebl; Sudesh Srivastav; Viktor Arbusow; Martin Hempel; Maximilian Reiser Journal: Radiology Date: 2005-02-09 Impact factor: 11.105
Authors: Damian J Tyler; Matthew D Robson; R Mark Henkelman; Ian R Young; Graeme M Bydder Journal: J Magn Reson Imaging Date: 2007-02 Impact factor: 4.813