Ultrasound Whole Abdomen near me in Howrah
Understanding Ultrasound Whole Abdomen in Howrah
What is Ultrasound Whole Abdomen in Howrah?
The Ultrasound Whole Abdomen is a safe, non-invasive, and painless procedure that creates real-time images of the internal organs of the abdomen, including the liver, gallbladder, spleen, pancreas, and kidneys. It is available at an affordable price in Howrah with our partnered labs. This test is prescribed in case of symptoms like unexplained abdominal pain, swelling, or infection. It helps diagnose several conditions, such as enlarged organs, fluid in the abdominal cavity, gallstones, hernia, pancreatitis, kidney disease, liver cancer, and appendicitis.
Overnight fasting (8-12 hours) is needed for the Ultrasound Whole Abdomen test. Do not eat or drink anything except water before the test. You may also be asked to drink plenty of water before the USG procedure to ensure a full bladder. This test is considered a safer alternative to other imaging techniques as it uses no ionizing radiation.
What does Ultrasound Whole Abdomen measure?
USG (Ultrasound sonography) technology allows quick visualization of the internal organs and structures of the abdomen from outside the body. The Ultrasound Whole Abdomen test measures the size, shape, structure, and movement of the internal organs like the liver, kidneys, intestines, pancreas, gallbladder, spleen, and the blood vessels within the abdominal cavity. This test helps find abnormalities such as tumors, cysts, stones, fluid accumulation, and signs of inflammation or infection in these organs. By capturing real-time images, the Ultrasound Whole Abdomen test assesses the blood flow through the abdominal vessels, helping diagnose liver diseases, kidney dysfunction, and other gastrointestinal conditions.
The USG machine consists of a computer console, a video monitor, and an attached transducer (a small hand-held device that resembles a microphone). The transducer is placed on the skin, and the ultrasound waves move through the body to the organs and structures within. The sound waves bounce back through the organs like an echo and return to the transducer, which then processes these reflected waves and converts them into images of the organs or tissues. Doctors interpret these images to detect abnormalities and initiate appropriate treatment if required.