Acoustic Noise Transfer Function in Clinical MRI: A Multicenter Analysis

Rationale and Objectives Acoustic noise both in terms of its magnitude and frequency during magnetic resonance imaging (MRI) scan is influenced by imaging parameters and pulse sequences. It varies because of many different factors such as structure, materials, and magnetic field strength. The purpose of our study is to evaluate the characteristics of acoustic noise independent of MRI scan protocol by measuring a gradient-pulse-to-acoustic-noise transfer function (GPAN-TF) at various MRI scanners. Materials and Methods We measured sound pressure levels in the frequency domain in a 0.4-T, seven 1.5-T, and three 3.0-T clinical MRI systems when applying a simple narrower trapezoidal gradient pulse. We calculated a GPAN-TF [μPa/(mT/m)] in each gradient coil (ie, X, Y, and Z-axis) by the deconvolution process. Results GPAN-TF at a high-frequency range (1000–10,000 Hz) was larger than that at low frequency for all MRI ( P 1000 Hz), the 3.0-T MRI scanner had a larger GPAN-TF than that of 0.4-T and 1.5-T ( P P Conclusion GPAN-TF analysis makes it possible to obtain more detailed information on acoustic noise properties among MRI scanners.