Medical Ultrasound Imaging
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Equipment Preparation
Equipment Preparation is an essential step in ensuring optimal ultrasound imaging quality and maintaining a safe and hygienic scanning environment. The following considerations should be taken into account:
Ultrasound Machine Warm-Up:
The ultrasound scanner should be turned on and allowed to warm up for at least 5 minutes before initiating the examination. This allows the system to stabilize and ensures consistent performance.
Transducer Selection:
The appropriate pobe should be selected based on the type of examination required, as well as the patient's body size, weight, and habitus. Different transducer offer varying frequencies, field of view, and imaging capabilities, allowing for tailored imaging based on the specific clinical needs.
Power Settings and Techniques:
Prior to beginning the examination, it is crucial to verify and adjust the power settings and imaging techniques according to the examination protocol. This ensures that the ultrasound machine is optimized for the specific diagnostic requirements
Acoustic Couplant Application:
An adequate amount of acoustic couplant, such as warmed ultrasound gel, should be applied to the patient's skin or the transducer surface. This gel serves as a medium that promotes maximum transmission of the sound beam by eliminating air interfaces, leading to improved image quality.
Transducer Cleaning and Probe Covers:
All transducers should be cleaned and readily available for use with each patient. While endocavitary ultrasound probes are often protected by single-use disposable probe covers, it is important to maintain proper hygiene by performing a high-level disinfection of the probe between each use. Additionally, using a probe cover as an additional measure can help keep the probe clean and minimize the risk of cross-contamination.

By following these equipment preparation guidelines, healthcare professionals can ensure accurate and safe ultrasound examinations while promoting infection control measures and maintaining a hygienic environment for both patients and staff.
See also Environmental Protection, Portable Ultrasound Machine, Ultrasound Accessories and Supplies, and Ultrasound System Performance.
Side Effect
Diagnostic ultrasound imaging has no known risks or long-term side effects. Discomfort to the patient is very rare if the sonogram is accurately performed by using appropriate frequencies and intensity ranges. However, the application of the ALARA principle is always recommended.
There are reports of low birth weight of babies after applying more than the recommended ultrasound examinations during pregnancy. Women who think they might be pregnant should raise this issue with the doctor before undergoing an abdominal ultrasound, to avoid any harm to the fetus in the early stages of development.
Since ultrasound is energy, sensitive tissues like the reproductive organs could possibly sustain damage if vibrated to a high degree by too intense ultrasound waves. In diagnostic ultrasonic procedures, such damage would only result from improper use of the equipment.

Possible ultrasound bioeffects:
Ultrasonic heating of tissues can be created by absorption of the ultrasound energy.
Due to increasing of temperature, dissolved gases from microbubbles come out of the contrast solution.

The thermal effect is controlled by the displayed thermal index and the mechanical index indicates the risk of cavitation.
An ultrasound gel is applied to obtain better contact between the transducer and the skin. This has the consistency of thick mineral oil and is not associated with skin irritation or allergy.
Specific conditions for which ultrasound may be selected as a treatment may be attached with higher risks.

See also Ultrasound Imaging Procedures, Fetal Ultrasound and Obstetric and Gynecologic Ultrasound.
Ultrasound Couplant
An ultrasound couplant is a material that propagates acoustical waves. The couplant eliminates air from the interface and adapts the contours of the transducer to the skin. The used material is an ultrasound gel that mimics the acoustic characteristics of biological tissue.
Ultrasound Equipment
The ultrasound equipment includes the ultrasound machine, the coaxial cable, the transducer assembly, different modalities to print out and store the ultrasound pictures, ultrasound gel, and a couch for the patients.
Often, the ultrasound system is connected with the internal radiology information system which allows the takeover of patient data, and a picture archiving and communication system to store images.

See also Ultrasound System Performance.
Veterinary Ultrasound
Conventional, CT and MR imaging technologies are limited in their availability, to depict soft tissue, or to show dynamic activity, like cardiac muscle contractility and blood flow. Easy applicability, real-time sonography and biopsy facilitation are important advantages in veterinarian medicine. Veterinary ultrasound has a very high sensitivity to show the composition of soft tissues, but the low specificity is a disadvantage. High ultrasound system performance includes Doppler techniques, contrast enhanced ultrasound, 3D ultrasound, and tissue harmonic imaging to improve resolution.
Technical and physical requirements of veterinary ultrasound are the same as in human ultrasonography. The higher the sound frequency, the better the possible resolution, but the poorer the tissue penetration. Image quality is depended of the ultrasound equipment. For example, a 10 MHz transducer is excellent for imaging of superficial structures; a 3.5 or 5.0 megahertz transducer allows sufficient penetration to see inner structures like the liver or the heart. In addition, the preparation and performing of the examination is similar to that of humans. The sound beam penetrates soft tissue and fat well, but gas and bone impede the ultrasonic power. Fluid filled organs like the bladder are often used as an acoustic window, and an ultrasound gel is used to conduct the sound beam.
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