Sentence examples for spine matrix from inspiring English sources

MRI was performed on a 1.5-T MR imaging unit (Avanto, Siemens, Erlangen, Germany), with the 24-element design Spine Matrix coil integrated into the patient table.

A six-element body matrix and a six-element spine matrix coil were used for signal reception.

Cardiac magnetic resonance (CMR) imaging utilised a spine matrix and six-element body array matrix RF coils.

The body coil was used for radiofrequency transmission and the flexible matrix body coil in combination with the spine matrix was used for signal detection.

The body coil served as a transmitter and a six element spine matrix coil in combination with the body matrix as a receiver.

For whole body coverage, a combination of six RF coils including head matrix, neck matrix, spine matrix, two body matrix and peripheral angiography phased array RF surface coils were used.

The MRI of cardiac T2* was performed on a 1.5 T scanner (Siemens Magnetom Avanto) and liver R2 on two 1.5 T scanners (Siemens Magnetom Avanto and Siemens Magnetom Symphony, Siemens Medical Solutions, Erlangen, Germany) with the combination of body-matrix and spine-matrix surface coils.

Women attended after an overnight fast, were positioned in the magnet on their left lateral side, and data from abdomen, liver, quadriceps and paraspinal tissue was acquired using a combination of spine and body matrix coil elements.

Larger receiver coils, for instance, 9-element combination from spine and body matrix coils captured more EM noise from the optical device, yielding 5 to 7% higher noise SD in GRE-EPI-MRT data, as compared to the baseline situation without optical camera.

The noise measurements were performed for two different coil setups: (a) 11 cm diameter loop coil and (b) combination of 9 elements from the spine coil and body matrix coil used simultaneously.

Given a protein sequence, SPINE-X produces a L × 3 matrix (which will be referred to SPINE-M for the rest of this study) including the normalized probability of contribution of a given amino acid based on its position along the protein sequence to build one of the three secondary structure elements namely, α-helix, β-strands, and coils.