Blood Flow Detection > by the Doppler principle > by Electromagnetic principles © D. J. McMahon 2014 rev 141114.

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Presentation transcript:

Blood Flow Detection > by the Doppler principle > by Electromagnetic principles © D. J. McMahon 2014 rev

Classic Doppler Shift example

If the signal source is approaching, the frequency detected by the observer continuously shifts higher: If the signal source is receding, the frequency detected by the observer continuously shifts lower.

Doppler Flow Detection: Signals in the range of 4 to 12 MHz are sent thru a vessel at an acute angle. Formed elements in the blood (red cells, etc) reflect most of the signal, and shift the frequency because of their motion (Doppler Shift). The reflected signal is detected, and the difference between the transmitted and reflected signals (which is in the audible frequency range) is filtered, amplified, and sent to a speaker. The greater the blood flow, the higher the Doppler shift and the audio frequency. (Human hearing range is ~20 Hz to ~20,000 Hz.)

F D = -2 V cos  ________ C FSFS F D = Doppler shift V = speed of blood flow C = speed of sound in blood F S = speed of transmitted signal

Typical portable Doppler flow detector:

The more peripheral (shallow) the vessel being studied, the higher the frequency of the Doppler. The deeper the vessel, the lower the frequency needed. 9 MHz – 10 MHz is usually used for arteries < 1cm deep. 5 MHz for vessels ~ 2 cm deep. 2 MHz – 4 MHz for larger, deeper vessels and fetal hearts. The size of the probe is inversely proportional to its frequency – A 10 MHz probe is < 1 cm in diameter. A 2 MHz probe is ~4 cm in diameter.

Transmit / receive crystals in a 10 MHz Doppler probe:

Multi-probe Doppler unit: Uses plug-in modules for several probe sizes. Single-probe unit for peripheral vessels only.

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Transonic vascular flow meters:

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