A C-arm is a medical piece of equipment that is used in various surgical procedures in clinics and hospitals. The c arm x ray device has an arm that is shaped like a letter C from which its name derives. The C shaped armed is used to connect the x-ray detector and the x-ray source to one another. Thus, the x-rays are generated in one place and then they travel through the arm to the detector where they are detected.
The original models of these devices were large in size and had a lower level of efficiency. That has however changed in modern devices that occupy less space and are much more efficient. The high level of efficiency comes from improvement in the software used in modern products. Also, there has been a lot of advancement in detector technology, which has occurred within the last few decades.
Fixed systems are more liked than mobile c-arms in hybrid operating rooms. The reason is that they do not need time for cooling and one can use them for longer periods. Normally, fixed systems use liquid cooling systems to avoid issues to do with overheating. Liquid cooling has the advantage. The benefit is that the system can be used for longer periods before they are allowed 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.
Flat-panel technology helps the machine to produce images of a larger field of view. Images created by the flat-panel detector usually have up to 60 percent more information compared to conventional image intensifiers. For this reason, surgeons and other physicians are able to get work with more details, improving the accuracy of the surgical procedures.
C-arms are designed to work with patient tables that are designed for x-ray imaging. Tables are designed so that the imagine device can fit correctly around the body of the patient. In some cases, some tables are designed to allow some movement to allow for better positioning of the machine around the patient. This allows for better images to be taken.
Images can be taken from a wide range of angles by c-arms. This allows for more details to be recorded, which in turn allows for more accuracy during procedure. Tables may be made translucent in some cases to prevent any kind of interference with the process of imaging. The use of carbon fiber has also grown a lot in this application because the material is lightweight and strong at the same time.
Finally, access to the services provided using c-arm x ray imaging machines are more accessible these days. This is because of improvements in technology that now allow for production of imaging equipment at lower prices. They are also easy to maintain and use.
The original models of these devices were large in size and had a lower level of efficiency. That has however changed in modern devices that occupy less space and are much more efficient. The high level of efficiency comes from improvement in the software used in modern products. Also, there has been a lot of advancement in detector technology, which has occurred within the last few decades.
Fixed systems are more liked than mobile c-arms in hybrid operating rooms. The reason is that they do not need time for cooling and one can use them for longer periods. Normally, fixed systems use liquid cooling systems to avoid issues to do with overheating. Liquid cooling has the advantage. The benefit is that the system can be used for longer periods before they are allowed 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.
Flat-panel technology helps the machine to produce images of a larger field of view. Images created by the flat-panel detector usually have up to 60 percent more information compared to conventional image intensifiers. For this reason, surgeons and other physicians are able to get work with more details, improving the accuracy of the surgical procedures.
C-arms are designed to work with patient tables that are designed for x-ray imaging. Tables are designed so that the imagine device can fit correctly around the body of the patient. In some cases, some tables are designed to allow some movement to allow for better positioning of the machine around the patient. This allows for better images to be taken.
Images can be taken from a wide range of angles by c-arms. This allows for more details to be recorded, which in turn allows for more accuracy during procedure. Tables may be made translucent in some cases to prevent any kind of interference with the process of imaging. The use of carbon fiber has also grown a lot in this application because the material is lightweight and strong at the same time.
Finally, access to the services provided using c-arm x ray imaging machines are more accessible these days. This is because of improvements in technology that now allow for production of imaging equipment at lower prices. They are also easy to maintain and use.
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