Medical Ultrasound Imaging
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Searchterm 'Sonogram' found in 21 articles
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Sonogram
The term 'sonogram' is often used interchangeably with 'ultrasound,' but it specifically refers to the resulting image or picture produced during a diagnostic ultrasound examination, also known as ultrasonography or sonography. It serves as a visual representation of the echoes detected by the transducer and provides detailed anatomical information about the area being examined. Sonograms are typically displayed on a monitor, printed on film, or stored digitally for further analysis and documentation by medical professionals such as sonographers and radiologists. They serve as invaluable diagnostic tools, aiding in the detection and evaluation of various medical conditions, as well as guiding interventions, ultrasound therapy, and treatment planning.
The term 'ultrasound' itself refers to the technology used during a sonogram, but it also finds several other applications beyond medical imaging. These include echolocation, crack detection, and cleaning, among others.
See also Ultrasound Imaging, Ultrasound Technology, Handheld Ultrasound, Ultrasound Accessories and Supplies, Environmental Protection and Ultrasound Elastography.
2D Ultrasound
2D ultrasound imaging is a widely used technique in medical imaging that provides two-dimensional visual representations of internal structures. A handheld device known as a probe or transducer contains piezoelectric crystals that emit and receive ultrasound waves which penetrate tissues and bounce back as echoes. The echoes are detected and converted into electrical signals. These signals are processed and displayed on a monitor, creating a real-time 2D grayscale image, with different shades of gray representing various tissue densities. The brighter areas on the image correspond to structures that reflect more ultrasound waves, while darker areas represent structures that reflect fewer waves or are attenuated by intervening tissues. The 2D-mode (or B-mode) provides cross-sectional views of the scanned area, showing a single plane or slice of the scanned area at a time.

Key Features and Uses of 2D Ultrasound:
One of the primary advantages of 2D ultrasonography is its ability to provide real-time imaging. This feature allows medical professionals to observe moving structures, such as the beating heart or fetal movements in real-time.
2D ultrasound is excellent for visualizing anatomical structures and detecting anomalies. It is widely used in obstetrics, gynecology, abdominal imaging and vascular examinations.
Due to its real-time capabilities, 2D ultrasound is utilized to guide various procedures, including biopsies, injections, and catheter insertions.
2D sonography can incorporate Doppler technology to assess blood flow in vessels, aiding in the diagnosis of vascular conditions and evaluating fetal circulation.

Comparison with 3D and 4D Ultrasound:
Unlike 2D ultrasound, which generates a series of 2D images, 3D ultrasound creates a three-dimensional volume of the scanned area. This allows for more detailed visualization of complex structures, such as fetal facial features or organ morphology.
4D ultrasound adds the dimension of time to 3D imaging, resulting in dynamic three-dimensional videos. It enables the visualization of fetal movements and provides a more immersive experience. However, a 4D sonogram is not typically used for diagnostic purposes and is often employed in baby ultrasound examinations for bonding and enjoyment purposes.

See also Ultrasound Technology, Sonographer, Ultrasound Elastography, Obstetric and Gynecologic Ultrasound.
4D Ultrasound
As far as ultrasound is concerned, 4D ultrasound (also referred to as live 3D ultrasound or 4B-mode) is the latest ultrasound technology - the fourth dimension means length, width, and depth over time. 4D Ultrasound takes 3D ultrasound images and adds the element of time to the progress so that a moving three-dimensional image is seen on the monitor. A 4D scan takes the same amounts of time as a 2D or 3D scan; the difference is the ultrasound equipment being used. One advantage of a 4D fetal ultrasound to a 2D-mode is that parents can see how their baby will generally look like. However, there are different opinions over the medical advantages.
To scan a 3D ultrasound image, the probe is swept over the maternal abdomen. A computer takes multiple images and renders the 3D picture. With 4D imaging, the computer takes the images as multiple pictures while the probe is hold still and a 3D image is simultaneously rendered in real time on a monitor.
In most cases, the standard 2D ultrasound is taken, and then the 3D/4D scan capability is added if an abnormality is detected or suspected. The 3D/4D sonogram is then focused on a specific area, to provide the details needed to assess and diagnose a suspected problem. A quick 4D scan of the face of the fetus may be performed at the end of a routine exam, providing the parents with a photo.
Abdominal Ultrasound
(AUS) Abdominal ultrasound, also known as abdominal sonography, is a medical imaging technique that focuses on the visualization and assessment of the abdominal organs. While 'abdominal ultrasound' is the commonly used term, there are alternative terms that can be used to refer to this imaging modality: (TAE) transabdominal echography, abdominal ultrasonography, sonogram, FAST (Focused Assessment with Sonography for Trauma).
Abdominal ultrasound imaging is an invaluable clinical tool for identifying the underlying cause of abdominal pain. An abdominal ultrasound examination encompasses a comprehensive evaluation of the liver, gallbladder, biliary tree, pancreas, spleen, kidneys, and abdominal blood vessels. It is a cost-effective, safe, and non-invasive medical imaging modality that is typically utilized as the initial diagnostic investigation.
Advanced ultrasound techniques, such as high-resolution ultrasound, endoscopic ultrasound, and contrast-enhanced Doppler, further enhance the detection of small lesions and provide detailed information for precise diagnosis.
To prepare for an abdominal ultrasound, it is recommended to have nothing to eat or drink for at least 8 hours, starting from midnight the night before the examination.

Indications:
Abdominal pain
Gallbladder or kidneys stones
Inflammation
Detection of cancer and metastasis

FAST (Focused Assessment with Sonography for Trauma) is a rapid diagnostic test used for trauma patients. It sequentially evaluates the presence of free fluid in the pericardium (hemopericardium) and in four specific views of the abdomen. These views include the right upper quadrant (RUQ), left upper quadrant (LUQ), subcostal, and suprapubic views. They aid in identifying hemoperitoneum in patients with potential truncal injuries. The space between the liver and the right kidney (RUQ), known as Morison's pouch, is a location where intraperitoneal fluid can accumulate.
Emergency abdominal ultrasonography is indicated in cases of suspected aortic aneurysm, appendicitis, biliary and renal colic, as well as blunt or penetrating abdominal trauma. It plays a crucial role in the timely assessment and management of these conditions, providing critical information to guide appropriate treatment decisions.

See also Handheld Ultrasound, Pelvic Ultrasound, Pregnancy Ultrasound, Prostate Ultrasound, Interventional Ultrasound and Pediatric Ultrasound.
B-Mode
Also called B-mode echography, B-mode sonography, 2D-mode, and sonogram.
B-mode ultrasound (Brightness-mode) is the display of a 2D-map of B-mode data, currently the most common form of ultrasound imaging.
The development from A-mode to B-mode is that the ultrasound signal is used to produce various points whose brightness depends on the amplitude instead of the spiking vertical movements in the A-mode. Sweeping a narrow ultrasound beam through the area being examined while transmitting pulses and detecting echoes along closely spaced scan lines produces B-scan images. The vertical position of each bright dot is determined by the time delay from pulse transmission to return of the echo, and the horizontal position by the location of the receiving transducer element.
To generate a rapid series of individual 2D images that show motion, the ultrasound beam is swept repeatedly. The returning sound pulses in B-mode have different shades of darkness depending on their intensities. The varying shades of gray reflect variations in the texture of internal organs. This form of display (solid areas appear white and fluid areas appear black) is also called gray scale.

Different types of displayed B-mode images are:
two-dimensional, 2D-mode;

The probe movement can be performed manual (compound and static B-scanner) or automatic (real-time scanner).
The image reconstruction can be parallel or sector type.

See also B-Scan, 4B-Mode, and Harmonic B-Mode Imaging.
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