LETTER TO EDITOR Year : 2022  |  Volume : 32  |  Issue : 4  |  Page : 229

The color encoding system used in color-doppler echographic imaging is different from the original christian doppler's principles

Francesco Natale, Riccardo Molinari, Simona Covino, Paolo Golino, Giovanni Cimmino
Department of Cardiology, Hospital “AOU Monaldi”, University of Campania Luigi Vanvitelli, Naples; Department of Cardiology, University of Campania Luigi Vanvitelli, Caserta, Italy

Date of Submission14-May-2022Date of Acceptance02-Jun-2022Date of Web Publication23-Jan-2023

Correspondence Address:
Francesco Natale
Hospital “AOU Monaldi”, Naples; Department of Cardiology, University of Campania Luigi Vanvitelli, Caserta

Source of Support: None, Conflict of Interest: None

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DOI: 10.4103/jcecho.jcecho_33_22

How to cite this article:
Natale F, Molinari R, Covino S, Golino P, Cimmino G. The color encoding system used in color-doppler echographic imaging is different from the original christian doppler's principles. J Cardiovasc Echography 2022;32:229
How to cite this URL:
Natale F, Molinari R, Covino S, Golino P, Cimmino G. The color encoding system used in color-doppler echographic imaging is different from the original christian doppler's principles. J Cardiovasc Echography [serial online] 2022 [cited 2023 Jan 24];32:229. Available from: https://www.jcecho.org/text.asp?2022/32/4/229/368429

In 1842 Dr. Christian Andreas Doppler published his work “Über das farbige Licht der Doppelsterne und einiger anderer Gestirne des Himmels.” In his treatise Dr. Christian Doppler analyses the color of light emitted by binary star systems. A binary star system is composed of two stars orbiting around each other, bound by gravitational forces. A stationary star has a whitish-yellow color; conversely, in a Binary star system the star moving away from the observer emits a reddish hue light with a longer wavelength, shifting toward the infrared spectrum (redshift), while an approaching star emits a blue hue light, with a shortened wavelength, shifting toward the ultraviolet spectrum (blue-shift).[1]

With the experiments of Dr. Buys-Ballot in the early 1900s, the principles of “Doppler effect” were investigated in relation to soundwaves, leading to the development of sonar and radar equipment utilized in World War II.

During the late 1950s, Doppler principles began to be utilized for medical diagnostic purposes, to assess flow dynamics, giving way to the development of modern ultrasound medical devices. The initial color Doppler recordings used a “red-away, blue toward” color encoding system, but the first commercial application (by Aloka in 1985) adopted a “red toward” format. This choice was based on the concept that blod flow toward an observer was thought to represent a “warm” phenomenon, while flow directed away was seen as a “cold” phenomenon. One could also imagine this concept from the perspective of tissue perfusion, with arterial blood (red) flowing toward the tissue, and venous blood (blue) flowing away from it.[2],[3],[4],[5]

The “red toward-blue away” color Doppler encoding system has been used on echo instruments for more than 30 years. At present, changing the encoding system of color Doppler imaging would certainly be inconvenient. We think, however, that this little notion should be part of the cultural background of each instrumentalist: you can not build future without memory of the past.

Financial support and sponsorship

Nil.

Conflicts of interest

There are no conflicts of interest.

 

  References 
1.Doppler CJ. About the colored light of binary star systems 1842;11:465.  
    2.Franklin DL, Van Citters RL, Watson NW. Applications of telemetry to measurement of blood flow and pressure in unrestrained animals. Proc Natl Telemetry Conf 1965;15:233-4.  
    3.Baker DW, Watkins DW A phase coherent pulsed Doppler system for cardiovascular measurement. Proc 20th Ann Conf Eng Med Biol 1967 1967;27:2.  
    4.Rushmer RF, Baker DW, Johnson WL, Strandness DE. Clinical applications of a transcutaneous ultrasonic flow detector. JAMA 1967;199:326-8.  
    5.Martinoli C, Pretolesi F, Crespi G, Bianchi S, Gandolfo N, Valle M, Derchi LE. Power Doppler sonography: Clinical applications. Eur J Radiol 1998;27 Suppl 2:S133-40.