Ingwer C. Carlsen scite author profile

Fast proton magnetic resonance spectroscopic imaging (MRSI) using a multi-element head-coil array is examined with respect to three aspects: the coil design, the use of an appropriate signal combination method, and the design of the MRSI pulse sequence itself. An eight-element head-coil array has been developed to increase the signal-to-noise ratio (SNR) of MRSI in the human brain. The flexible wraparound design optimally fits different head sizes and thus provides high sensitivity. The signal combination of the individual coil elements is based on the approach proposed by Roemer et al. (Magn. Reson. Med. 16, 192 (1990)). An additional short prescan is performed to provide a good estimate of the complex coil sensitivity profiles, which are used in the signal combination procedure to correct the spectroscopic imaging data for the spatially varying intensity. The use of coil arrays in MRSI has some effect on the requirements for both water and lipid suppression. These techniques and a MRSI pulse sequence that provides a high spectroscopic resolution are described and discussed. Experimental results at 1.5 T show that metabolite maps of N-acetylaspartate (NAA), choline (Cho), phosphocreatine (PCr)/creatine (Cr) can be obtained within a 5-min acquisition time.

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Ingwer C. Carlsen

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Ingwer C. Carlsen

Multi-scale line segmentation with automatic estimation of width, contrast and tangential direction in 2D and 3D medical images

Simultaneous segmentation and tree reconstruction of the airways for virtual bronchoscopy

A multi-scale line filter with automatic scale selection based on the Hessian matrix for medical image segmentation

Motion compensated projection reconstruction

Fast 1H spectroscopic imaging using a multi‐element head‐coil array

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Fast ¹H spectroscopic imaging using a multi‐element head‐coil array