Nearly every Ultrasound system has a freeze screen button. Due to the intricate detail in Ultrasound images and the constant movement, it is crucial to be able to freeze the screen and be able to take a prolonged look at the picture being projected.
Phillips, one of the world’s leading manufacturers of Ultrasound systems, have, over the last few decades, produced some of the most popular ultrasound systems in the country. Manufacturing and producing various series of systems, the Philips HD series is widespread due to its economical pricing and reliability. Each systems has its own characteristics and unique advantages.
In order to utilize an ultrasound system to maximum capacity, there are several features diagnosticians and doctors must become familiar with. Ultrasound modes, or options when it comes to ultrasound imaging, once elaborated upon and clarified, can open a new world of efficiency and productivity.
Ultrasound machines have come a long way. The first ultrasound machine was a 2D scanner debuted in 1958 by Ian Donald and Tom brown. They called it the Diasonograph, but it was known in more informal and unkind circles as the Dinosaurograph.
When looking to purchase a new ultrasound probe or transducer, there are a variety of ways to go about acquiring your new probe. Do you want to buy one new? Perhaps used or refurbished transducers is more practical. Do I make my purchase through a big brand name like GE or Philips, or is it safe to go through a distributor or salesman?
Ultrasound doppler imaging is the ability to estimate and measure blood flow through various veins, arteries and vessels. Generally portrayed as a moving picture on an ultrasound system screen, one can usually recognize a doppler test from the color flow that is visible on the ultrasound image.
Just like most abdominal and cardiac probes generally have certain lenses that are shaped very specifically (curved and square shaped, respectively), most vascular probes have their tell-tale shape as well. Vascular transducers have a long, thin rectangular shape, and subsequently are known as “linear array” probes.
The abdominal application on ultrasound machines is employed to help diagnose patients that are having ailments in the abdomen area – which includes but is not limited to the kidneys, liver, stomach, developing fetuses, gallbladder, pancreas and spleen.
Cardiac transducers are employed in order to project images of the hearts of various patients. As ultrasound technology has improved and advanced, diagnosticians and sonographers have been capable of examining more patients at different phases in development.