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iu22 probes

12 Sep

The iU22 Ultrasound examination Program is a medical reader that uses ultrasound surf to analyze the inner body system components, such as muscle, joint parts, muscle tissue, veins and areas. The reader has innovative quantification features and 3D opinions of looked at body system components. The iu22 probes  Ultrasound examination Program can be used in cerebrovascular, gynecological and bone and joint picture resolution.

Philips’ new xMatrix delivers real-time volumetric checking to radiology as part of the business’s newest edition of the iU22 ultrasound reader. First designed into Philips’ echocardiography systems five years ago, a souped-up edition designed into the business’s leading iU22 on the RSNA display floor quickly records amounts in the stomach that can be interrogated in 2D aircraft whenever after the affected person has left the examination room. Two aircraft can be considered at the same time using Live xPlane. Pictures attracted from the amount can then be sent to any PACS.
Integrated with PureWave technological innovation, xMatrix works with the new X6-1 transducer. The mixture allows providers of different abilities to achieve the same excellent picture resolution, according to Philips. The key is the xMatrix transducer with components organized along the X and Y aircraft. The 9000 digitally managed components substitute the technical 3D arrays of the past, taking amounts of data that can be easily interrogated.iu22 probes

Today this volumetric technological innovation is available only in a stomach sensor / probe, but soon enough it will become available on Philips’ solid-state transducers for endocavitary, general, and little areas programs. While there is no specific schedule for the migration of this technological innovation, Philips professionals say the company is definitely advancing in this route.

Pure WaveAmazingly Technology
• The PureWave Amazingly Technology can be found at the heart of the iU22 Ultrasound examination Program. It increases the qualities of the ultrasound transducer, leading to an enhanced system picture excellent.Pure Wavedeposits substitute a more than 40-year-old piezoelectric content, the PZT, or lead-zirconatetitanate, ceramics or PZT-composites. PureWave deposits are more consistent and more pure than the traditional PZT ceramics.
Volume Imaging
• Volume picture resolution allows the iU22 Ultrasound examination Program to present 3D and 4D opinions of the looked at cells. Volume picture resolution is obtained by Philips as a result of several enhancements, such as iSlice, a volumetric show that reveals the cells in several amounts, and Change, an amount show method enabling the immediate creation of components that don’t generate reflects, such as the major veins and the compartments of baby minds and hearts.

Tissue Aberration Correction
Tissue Aberration Modification allows the iU22 Ultrasound examination Program to generate more specific tests of the adipose cells, or fat. Typically, it was believed that sound journeys through the adipose cells at a rate of 1,540 measures per second. However, Philips scientists have found that the actual rate is nearer to 1,450 measures per second. Accordingly, they have made upgrades to the adipose cells checking of the U22 Ultrasound examination Program.
Numerous programs are available for the iU22 Ultrasound examination Program, such as checking of the general system, little areas, perinatology, maternity checking, OB-GYN, breasts checking and general radiology checking.


Types Of Ultrasound Probes

29 Aug

Ultrasound probes are also known as transducers. These are in fact medical diagnostic devices capable of emitting ultrasound waves in patients’ bodies in order to transmit computer data that are then turned into internal body images, called sonograms. The ultrasound waves are able to bounce off the bodies’ boundaries and masses in order for their echoes to be recorded by ultrasound probes and then interpreted on computers that create a sonogram. Usually, the ultrasound probe has to be placed on the body of the patient being examined and moved over that area which has to be viewed. Due to the fact that water is known to conduct sound waves, a gel based on water has to be placed on the skin of the patient for the ultrasound waves’ movement facilitation. Moreover, patients coming in for obstetric ultrasounds must have a full bladder.

The ultrasound probe’s crystals change their shape and also emit ultrasonic waves any time they get supplied with electrical current. The sound waves then bounce back until they hit quartz crystals. In turn, these produce electrical current which is sent through the probe in the computer. The current variations can really help when it comes for the computer to see masses and shapes in the human body. In fact, this type of electrical current represents the one used by computers in order to create sonograms.  Ultra Sound Probes

When it comes to ultrasound probes, these can come in various sizes and shapes, as they have to be used in different body areas. Nonetheless, probes are commonly used externally and have soap’s size, being flat or just a little bit curved on their transmitting end. In what concerns vaginal ultrasound probes, these are special, as they have to be used during pregnancy in order to locate the fetus. This kind of ultrasound probe is more slender and longer than outside probes, as is has to be inserted in the vagina in order to get an image of one’s uterus. Similar probes can be inserted into the esophagus or the rectum in order to visualize patient’s stomach, colon, prostate, and so on.

Ultrasound technology can be used in numerous ways nowadays. However, the most famous kind is the prenatal ultrasound test. Nonetheless, ultrasounds can be used as well for diagnosing heart conditions, circulation problems, blockages, tumors, and so on. In addition, ultrasound probes are known for also being able to treat kidney stones. Generally, they are safe and do not affect patients in any way. However, they still must be handled safely.