The past decade has truly proven groundbreaking in the field of ultrasound technology. It’s true that the majority of the population seems to be familiar with the grainy, black and white images that soon-to-be parents proudly produce as representations of their future off-spring. However, developments in the field have made these small snapshots akin to the images produced by the original Polaroid point-and-shoot camera of the 1970s. The reality is that ultrasound technology has progressed rapidly, producing 2D images in the past few years, and multi-dimensional, live action views today. And in turn, the need for ongoing maintenance and ultrasound parts and repair has surged within the industry.
What is an ultrasound?
Ultrasounds are used across the medical industry, but are most commonly associated with pre-natal care. The ultrasound itself is a test that is completely painless to the patient. The scan uses sound waves that will produce images from within the body. Moreover, this test is widely known as incredibly safe, as radiation is not used. To the lay person, ultrasound technology works through the use of high-frequency sounds that are undetectable by the human ear—but are recognized and detected by certain types of machines, such as an ultrasound transducer and ultrasound probe.
How does an ultrasound work?
One of the best ways to describe how an ultrasound machine works is by comparing it to the same technology that is employed via Doppler radar. When a patient receives an ultrasound, the technician will place an ultrasound probe on the area of the body that is to be scanned. The sound waves will travel freely through both soft tissues and fluid, only reflecting back to the ultrasound transducer (a device that typically sends and receives signals) when a more solid or dense surface is encountered. These signals are what actually allows an image to be formed and presented on the monitor that is attached to the ultrasound transducer machine.
Improved Ultrasound Technology
As ultrasound technology has progressed, both patients and doctors have benefitted through the ability to see more comprehensive and detailed components present within the human body. After the development of 2D imaging occurred, 3D and 4D followed quickly, and General Electric is expected to take this one step further through the unveiling of its HDlive ultrasound device which will actually allow for a “flesh-like” look to be delivered to patients through the use of a moveable light source that combines both 3D and 4D imaging.
The Importance of Maintenance and Repair in Ultrasound Technology
Ultrasound machines are highly sensitive pieces of equipment, and proper handling and maintenance is always required. Medical institutions and private offices must regularly engage in ultrasound transducer & probe audit order to ensure the quality of their performance in a medical setting—otherwise these pieces of equipment could easily become ineffective and inaccurate. If there are any issues, they must replace the ultrasound parts and repair their ultrasound systems. They can often refer to manufacturer for warranty of if their systems or parts are out of warranty, they can look for reputable and reliable third party companies such as Summit Imaging that offer ultrasound transducer and probe repair services. The ultrasound service industry is rapidly an evolving industry so it is important to hire a certified, technical, and reliable firm. The ultrasound transducer and probe repair process involves physical inspection, electrical safety testing, scanning, computerized evaluation of the cables and array, and a clinical scan by a registered sonographer.