Wireless self-gated multiple-mouse cardiac cine MRI

## Abstract The need for ECG gating presents many difficulties in cardiac magnetic resonance imaging (CMRI). Real‐time imaging techniques eliminate the need for ECG gating in cine CMRI, but they cannot offer the spatial and temporal resolution provided by segmented acquisition techniques. Previous

## Abstract ## Purpose To determine whether improved self‐gating (SG) algorithms can provide superior synchronization accuracy for retrospectively gated cine MRI. ## Materials and Methods First difference, template matching, and polynomial fitting algorithms were implemented to improve the synch

## Abstract ECG‐gated cardiac MRI in the mouse is hindered by many technical difficulties in ECG signal recording inside static and variable high magnetic scanner fields. The present study proposes an alternative robust method of acquiring auto‐gated cardiac and respiratory cine images in mouse hea

## Abstract ECG‐based gating in cardiac MR imaging requires additional patient preparation time, is susceptible to RF and magnetic interference, and is ineffective in a significant percentage of patients. “Wireless” or “self‐gating” techniques have been described using either interleaved central __

## Abstract Cardiac MR imaging in small animals presents some difficulties due to shorter cardiac cycles and smaller dimensions than in human beings, but prospectively gated techniques have been successfully applied. As with human imaging, there may be certain applications in animal imaging for whi

## Abstract Two‐dimensional (2D) breath‐hold cine MRI is used to assess cardiac anatomy and function. However, this technique requires cooperation from the patient, and in some cases the scan planning is complicated. Isotropic nonangulated three‐dimensional (3D) cardiac MR can overcome some of thes