Mechanical index explained

Mechanical index (MI) is a unitless ultrasound metric. It is defined as ^[1]

MI=

	P_r
	\sqrt{f_c

where

P_r is the peak rarefaction pressure of the ultrasound wave (MPa), derated by an attenuation factor to account for in-tissue acoustic attenuation

f_c is the center frequency of the ultrasound pulse (MHz).

MI is measured with a calibrated hydrophone in a tank of degassed water. The pulse pressure amplitudes are measured along the central axis of the ultrasound beam. The P_r is calculated by reducing it using an attenuation coefficient of 0.3 dB/cm/MHz.^[2]

MI is a unitless number that can be used as an index of cavitation bio-effects; a higher MI value indicates greater exposure. Levels below 0.3 are generally considered to have no detectable effects. Currently the FDA stipulates that diagnostic ultrasound scanners cannot exceed a mechanical index of 1.9.^[3]

Notes and References

Thomas Szabo (2004). Diagnostic Ultrasound Imaging: Inside Out (Biomedical Engineering).
Book: Postema M. Fundamentals of Medical Ultrasonics. 2011. CRC Press. London. 978-0-203-86350-3. 10.1201/9781482266641.
http://www.accessdata.fda.gov/cdrh_docs/pdf9/K091970.pdf (accessed July 2010)