C-arm is a device that is used in different surgical procedures in health centers. As the name suggests, c arm x ray machine has a C-shaped arm which is attached to it. The purpose of the arm is to join the x- ray source and the x-ray detector. Therefore, the generated x-rays usually travel to the arm detector through the C-shaped arm.
Apart from having lower efficiency level, the initial models of C-arms had a large size. However, with modern technology, these devices are now designed to occupy small spaces. They are also much more efficient. The advancement in the software applied in modern devices is the cause of high level of efficiency. Great advancement in detector technology has also been done. This has taken place in the last few decades.
In hybrid operating rooms, fixed systems are more preferable compared to mobile c-arms. This is because they have to be used for longer periods before being allowed to cool. To prevent problems related to overheating, fixed systems usually use liquid cooling systems. The advantage of liquid cooling is that the system can be put to use for longer periods before they need to cool down.
Flat-panel technology is also applied in the modern systems. This technology enables images free from distortion to be produced. Also, over 16, 000 different shades of gray come with the images. More than 1500 by 1500 pixels is achieved in the resolution. Magnetic field does not cause interference to the device, which makes the images not to experience distortion from magnetic fields. Therefore, one may position the device near magnetic resonance (MR) scanners and no problem will occur.
Another major advantage associated with flat-panel technology is that it creates images with a much larger field of view. Compared to conventional image intensifiers, flat-panel detectors are capable of producing images that have up to 60 percent more information. This gives surgeons and other physicians more details to work with. Thus, the accuracy of surgical procedures is improved a lot.
C-arms are manufactured in a way that they can work with patient tables which are designed for x-ray imaging. These tables are made to allow the imagining device to correctly fit around the body of a person. In other cases, some tables are made in way that they can be moved to allow the machine to fit better on the body of patients. This gives a chance for the images to be taken better.
One can take images from diverse angles using c-arms. With, that, more information can be recorded. As a result, more accuracy is achieved during the procedure. In other instances, tables are designed to be translucent. This is meant to avoid any form of interference with the imaging process. Besides being strong, carbon fiber is lightweight and therefore it is greatly used in this application.
In conclusion, accessibility to services provide by the c-arm X ray machine has become very easy nowadays. This has become the case because technology is improving which allows the cost of producing imaging machines to lower. They have also become easy to use and maintain at the same time.
Apart from having lower efficiency level, the initial models of C-arms had a large size. However, with modern technology, these devices are now designed to occupy small spaces. They are also much more efficient. The advancement in the software applied in modern devices is the cause of high level of efficiency. Great advancement in detector technology has also been done. This has taken place in the last few decades.
In hybrid operating rooms, fixed systems are more preferable compared to mobile c-arms. This is because they have to be used for longer periods before being allowed to cool. To prevent problems related to overheating, fixed systems usually use liquid cooling systems. The advantage of liquid cooling is that the system can be put to use for longer periods before they need to cool down.
Flat-panel technology is also applied in the modern systems. This technology enables images free from distortion to be produced. Also, over 16, 000 different shades of gray come with the images. More than 1500 by 1500 pixels is achieved in the resolution. Magnetic field does not cause interference to the device, which makes the images not to experience distortion from magnetic fields. Therefore, one may position the device near magnetic resonance (MR) scanners and no problem will occur.
Another major advantage associated with flat-panel technology is that it creates images with a much larger field of view. Compared to conventional image intensifiers, flat-panel detectors are capable of producing images that have up to 60 percent more information. This gives surgeons and other physicians more details to work with. Thus, the accuracy of surgical procedures is improved a lot.
C-arms are manufactured in a way that they can work with patient tables which are designed for x-ray imaging. These tables are made to allow the imagining device to correctly fit around the body of a person. In other cases, some tables are made in way that they can be moved to allow the machine to fit better on the body of patients. This gives a chance for the images to be taken better.
One can take images from diverse angles using c-arms. With, that, more information can be recorded. As a result, more accuracy is achieved during the procedure. In other instances, tables are designed to be translucent. This is meant to avoid any form of interference with the imaging process. Besides being strong, carbon fiber is lightweight and therefore it is greatly used in this application.
In conclusion, accessibility to services provide by the c-arm X ray machine has become very easy nowadays. This has become the case because technology is improving which allows the cost of producing imaging machines to lower. They have also become easy to use and maintain at the same time.
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