Citation, DOI & article data
Absorption of sound waves may cause heating in tissue.
The thermal index depends on:
- a measure of time-averaged acoustic power
- assumptions of the properties of the tissue being heated
- assumptions about the path of the ultrasound beam
If beam focusing is unchanged, then the thermal index is directly related to the output power of the system:
thermal index = Wp / Wdeg
- Wp: relevant (attenuated) acoustic power at the depth of interest
- Wdeg: estimated power necessary to raise the tissue equilibrium temperature by one degree Celsius
So, if the acoustic power of the ultrasound beam is enough to raise the tissue temperature by 1.0°C, then the thermal index = 1.0. It should be noted that this is a relative risk of heating, not an absolute scale of tissue heating.
The thermal index at the skin surface, and in other special circumstances, is calculated differently 2.
The clinical relevance of the thermal index most often comes into play with imaging of the embryo. Color and spectral Doppler imaging calls for increased levels of ultrasound output power, and this in turn increases the thermal index. The use of color and spectral Doppler is discouraged when imaging an embryo to avoid crossing a theoretical thermal index threshold.
The thermal index (and mechanical index) have been widely adopted in the radiology community as proxies for ultrasound bioeffects, but some recent discussion in ultrasound societies suggest that both indices may need revision to more accurately represent potential bioeffects 2.
The thermal index may be displayed in some ultrasound systems as:
- TIS: thermal index in soft tissue
- TIB: thermal index for bone at the focus
- TIC: thermal index for cranial bone
In 2009 the British Medical Ultrasound Society (BMUS) released guidelines for the safe use of diagnostic ultrasound equipment 4. The guidelines also detail recommended exposure time and index values for obstetric and neonatal ultrasound.
For obstetric and neonatal scanning there is no known reason to restrict scanning times with a TI value between 0-0.7. TI values between 0.7-3.0 are time restricted depending on the age of the fetus and tissue being scanned.
The International Society of Ultrasound in Obstetrics and Gynecology (ISUOG) recommends a TI <1.0 for first trimester screening (11 weeks to 13 weeks, 6 days), limiting exposure time to Doppler imaging for as little as possible, preferably less than 5-10 minutes.
Scanning of an embryo or fetus with a thermal index >3.0 is not recommended, however briefly 4.
- 1. Pellerito J, MPH JFPMD. Introduction to Vascular Ultrasonography: Expert Consult - Online and Print, 6e. Saunders. ISBN:143771417X. Read it at Google Books - Find it at Amazon
- 2. Bigelow TA, Church CC, Sandstrom K et-al. The thermal index: its strengths, weaknesses, and proposed improvements. J Ultrasound Med. 2011;30 (5): 714-34. Pubmed citation
- 3. Salvesen K, Lees C, Abramowicz J, Brezinka C, Ter Haar G, Maršál K. ISUOG statement on the safe use of Doppler in the 11 to 13 +6-week fetal ultrasound examination. (2011) Ultrasound in obstetrics & gynecology : the official journal of the International Society of Ultrasound in Obstetrics and Gynecology. 37 (6): 628. doi:10.1002/uog.9026 - Pubmed
- 4. Guidelines for the safe use of diagnostic ultrasound equipment. The British Medical Ultrasound Society (2009). Accessed January 2022. https://www.bmus.org/static/uploads/resources/BMUS-Safety-Guidelines-2009-revision-FINAL-Nov-2009.pdf