A quantity (considering for attenuation) that is measured in water using standard methods and then multiplied by a derating factor. This calculates the attenuation of the ultrasound area of the tissue between the probe and a particular location in the body along the axis of the sound beam.
The 'Guidelines for the Safe Use of Diagnostic Ultrasound' of the Government of Canada recommend a derating factor of 0.3 dB/cm-MHz.

See also Attenuation Coefficient.

Doppler ultrasound is a medical imaging technique for calculating the relative velocity between two points by measuring the frequency shift of a sound wave transmitted from one point to the other, based on the Doppler effect. Continuous or pulsed Doppler is frequently used to examine cardiovascular blood flow. The combination of routine 2D-mode and Doppler ultrasound allows a complete evaluation of the heart's anatomy and function (including the fetal heart). See also Doppler Fluximetry in Pregnancy.
Doppler ultrasound depends on the fact that if a moving object reflects the ultrasound waves, the echo frequencies are changed. A higher frequency is created if the object is moving toward the probe//transducer and a lower frequency if it is moving away from it. How much the frequency is changed depends upon how fast the object is moving. Doppler ultrasound shows the different rates of blood flow in different colors on a monitor in real time.
The major Doppler parameters are the peak systolic velocity and the end-diastolic velocity. The peak systolic velocity ratio compensates the variability between different patients and instrumentations.

Different Doppler and duplex techniques:

Echocardiography is the ultrasound examination of the heart. Depending on the used ultrasound system, echocardiograms can be two-dimensional slices or 3D real-time images of the heart. Based on the ultrasound principles the direction and speed of blood flow can be utilized e.g., to diagnose a leaking or stenosed valve or to identify intracardiac shunts.

Different types of echocardiography:
The transthoracic echocardiogram (images are taken through the chest wall) is a non-invasive, highly accurate and quick assessment of the overall health of the heart.
A more invasive method is to insert a specialized scope containing an echocardiography transducer (TEE probe) into the esophagus, and record images from there. The advantages are clearer images, since the transducer is closer to the heart.
Contrast echocardiogram (CE) is already a valuable tool to delineate endocardial borders, direct invasive procedures, detect intracardiac shunts, assess myocardial perfusion and viability, and quantify coronary flow reserve and blood volumes (see also hemoglobin). The mechanism of microbubble CE is based on the physical principles of rarefaction and compression, leading to volume pulsations of microbubbles, and it is this change that results in CE signal.
Stress echocardiograms are echocardiography exams used for detection of coronary artery disease.

See also Diastole, Bicycle Stress Echocardiography, Resistive Index, and M-Mode Echocardiography.

Environmental protection in ultrasound imaging involves adopting practices and technologies that minimize the environmental impact associated with the use of ultrasound equipment and disposables.

Here are some key considerations:

By focusing on energy efficiency, digitalization, waste management, equipment lifespan, and education, healthcare facilities can make significant strides towards reducing their carbon footprint and the environmental impact of ultrasound imaging practices.

See also Ultrasound System Performance, Equipment Preparation, Ultrasound Accessories and Supplies and Sonographer.

From ESAOTE S.p.A.;
'The 260 Corvus is perfectly suited for multiple applications in black & white ultrasound. The digital console system is standard equipped with three probe connectors for a choice of various linear, convex, annular and annular phased array transducers. The 260 Corvus can be fully integrated into a digital hospital network (PACS) using the optional DICOM® compatible ImageLab™ module.'