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Jun
28
MRI parallel imaging technology makes use of multifaceted software algorithms to recreate the signals from multiple channels in a way that can reduce imaging times or increase image resolution, without the corresponding increase in imaging times associated with standard MRI scanner imaging. Although MRI parallel imaging techniques have only recently been introduced into MRI scanners in hospitals and clinics, they have already attained broad quantifiable acceptance in many imaging applications throughout the world. The significant advantages in terms of better spatial and temporal resolution and superior image quality have made it possible to make even better use of existing MRI technologies, to be used in a wider range of diagnoses and treatment modalities.
Multi-channel technology and MRI parallel imaging support momentous improvements in many types of clinical MRI scanning assessments. There is no significant degradation in performance. Even when compared with standard or non-parallel imaging, there is very little image degradation. Faster MRI scanning means better results in many ways, as well as considerably improving patient comfort during MRI scanning.
The MRI parallel imaging technology could potentially contribute to the use of MRI scanning as an alternative to CT scanning, as well as play an important part decreasing radiation exposure, particularly in children and adolescent patients.
MRI scanning offers superb soft tissue contrast. However, high- resolution scans are often excluded, due to long scan times. MRI parallel imaging offers much shorter acquisition times, while retaining the high resolution necessary for early lesion and/or tumor detection.
Multi-channel coil and receiving systems and MRI parallel imaging technologies were first implemented in brain examinations. Recent developments in both hardware and software have allowed for broader clinical applications of these technologies, such as in cardiac, lung, abdomen, and limb studies. For example, MRI parallel imaging, in partnership with multi-channel radiofrequency systems allows for better visualization of small lesions and blood vessels that may allow for an earlier diagnosis of cancer and cardiovascular disease. Greater imaging coverage is possible with multi-channel radiofrequency system technology facilitating oncology screening and peripheral angiography. Scan times are also greatly reduced using MRI parallel imaging, allowing for tolerable breath holds when scanning patients. The latest MRI scanners at 1.5T and 3T all feature multi-channel radiofrequency system technology and MRI parallel imaging.
MedWOW, the global medical equipment platform, features professionally written information on all types of medical equipment, as well as expertly written tips on purchasing according to category. With nearly 13,000 medical equipment professionals entering the MedWOW portal on a daily basis, there is brisk trade in MRI equipment and MRI parts, as well as every other kind of medical equipment featured in MedWOW's international dealer's inventories.
Multi-channel technology and MRI parallel imaging support momentous improvements in many types of clinical MRI scanning assessments. There is no significant degradation in performance. Even when compared with standard or non-parallel imaging, there is very little image degradation. Faster MRI scanning means better results in many ways, as well as considerably improving patient comfort during MRI scanning.
The MRI parallel imaging technology could potentially contribute to the use of MRI scanning as an alternative to CT scanning, as well as play an important part decreasing radiation exposure, particularly in children and adolescent patients.
MRI scanning offers superb soft tissue contrast. However, high- resolution scans are often excluded, due to long scan times. MRI parallel imaging offers much shorter acquisition times, while retaining the high resolution necessary for early lesion and/or tumor detection.
Multi-channel coil and receiving systems and MRI parallel imaging technologies were first implemented in brain examinations. Recent developments in both hardware and software have allowed for broader clinical applications of these technologies, such as in cardiac, lung, abdomen, and limb studies. For example, MRI parallel imaging, in partnership with multi-channel radiofrequency systems allows for better visualization of small lesions and blood vessels that may allow for an earlier diagnosis of cancer and cardiovascular disease. Greater imaging coverage is possible with multi-channel radiofrequency system technology facilitating oncology screening and peripheral angiography. Scan times are also greatly reduced using MRI parallel imaging, allowing for tolerable breath holds when scanning patients. The latest MRI scanners at 1.5T and 3T all feature multi-channel radiofrequency system technology and MRI parallel imaging.
MedWOW, the global medical equipment platform, features professionally written information on all types of medical equipment, as well as expertly written tips on purchasing according to category. With nearly 13,000 medical equipment professionals entering the MedWOW portal on a daily basis, there is brisk trade in MRI equipment and MRI parts, as well as every other kind of medical equipment featured in MedWOW's international dealer's inventories.