OBJECTIVE: To demonstrate imaging performance for cardiac MR imaging at 7 T using a coil array of 8 transmit/receive dipole antennas and 16 receive loops. MATERIALS AND METHODS: An 8-channel dipole array was extended by adding 16 receive-only loops. Average power constraints were determined by electromagnetic simulations. Cine imaging was performed on eight healthy subjects. Geometrical factor (g-factor) maps were calculated to assess acceleration performance. Signal-to-noise ratio (SNR)-scaled images were reconstructed for different combinations of receive channels, to demonstrate the SNR benefits of combining loops and dipoles. RESULTS: The overall image quality of the cardiac functional images was rated a 2.6 on a 4-point scale by two ex...
PURPOSE: To develop a 16-channel transceive body imaging array at 7.0 T with improved transmit, rece...
Purpose: To develop a 16-channel transceive body imaging array at 7.0 T with improved transmit, rece...
PURPOSE: To develop a 16-channel transceive body imaging array at 7.0 T with improved transmit, rece...
Objective: To demonstrate imaging performance for cardiac MR imaging at 7 T using a coil array of 8 ...
OBJECTIVE: To demonstrate imaging performance for cardiac MR imaging at 7 T using a coil array of 8 ...
\u3cp\u3eObjective: To demonstrate imaging performance for cardiac MR imaging at 7 T using a coil ar...
Objective: To demonstrate imaging performance for cardiac MR imaging at 7 T using a coil array of 8 ...
Objective: To demonstrate imaging performance for cardiac MR imaging at 7 T using a coil array of 8 ...
Objective: To demonstrate imaging performance for cardiac MR imaging at 7 T using a coil array of 8 ...
Objective: To demonstrate imaging performance for cardiac MR imaging at 7 T using a coil array of 8 ...
PURPOSE: To design, evaluate, and apply a 2D 16-channel transmit/receive (TX/RX) coil array tailored...
PURPOSE: To develop a 16-channel transceive body imaging array at 7.0 T with improved transmit, rece...
PURPOSE: To develop a 16-channel transceive body imaging array at 7.0 T with improved transmit, rece...
Purpose: To develop a 16-channel transceive body imaging array at 7.0 T with improved transmit, rece...
PURPOSE: To develop a 16-channel transceive body imaging array at 7.0 T with improved transmit, rece...
PURPOSE: To develop a 16-channel transceive body imaging array at 7.0 T with improved transmit, rece...
Purpose: To develop a 16-channel transceive body imaging array at 7.0 T with improved transmit, rece...
PURPOSE: To develop a 16-channel transceive body imaging array at 7.0 T with improved transmit, rece...
Objective: To demonstrate imaging performance for cardiac MR imaging at 7 T using a coil array of 8 ...
OBJECTIVE: To demonstrate imaging performance for cardiac MR imaging at 7 T using a coil array of 8 ...
\u3cp\u3eObjective: To demonstrate imaging performance for cardiac MR imaging at 7 T using a coil ar...
Objective: To demonstrate imaging performance for cardiac MR imaging at 7 T using a coil array of 8 ...
Objective: To demonstrate imaging performance for cardiac MR imaging at 7 T using a coil array of 8 ...
Objective: To demonstrate imaging performance for cardiac MR imaging at 7 T using a coil array of 8 ...
Objective: To demonstrate imaging performance for cardiac MR imaging at 7 T using a coil array of 8 ...
PURPOSE: To design, evaluate, and apply a 2D 16-channel transmit/receive (TX/RX) coil array tailored...
PURPOSE: To develop a 16-channel transceive body imaging array at 7.0 T with improved transmit, rece...
PURPOSE: To develop a 16-channel transceive body imaging array at 7.0 T with improved transmit, rece...
Purpose: To develop a 16-channel transceive body imaging array at 7.0 T with improved transmit, rece...
PURPOSE: To develop a 16-channel transceive body imaging array at 7.0 T with improved transmit, rece...
PURPOSE: To develop a 16-channel transceive body imaging array at 7.0 T with improved transmit, rece...
Purpose: To develop a 16-channel transceive body imaging array at 7.0 T with improved transmit, rece...
PURPOSE: To develop a 16-channel transceive body imaging array at 7.0 T with improved transmit, rece...