Phantom Developed for MRI Distortion Assessment in Stereotactic Radiosurgery Treatment Planning
By HospiMedica International staff writers Posted on 07 Oct 2014 |
Image: The CIRS model 603A MRI distortion phantom is designed for stereotactic radiosurgery (Photo courtesy of CIRS).
A phantom for evaluating MRI distortion in stereotactic radiosurgery (SRS) planning enables assessment of image distortion in treatment-planning systems.
Distortion in MRI is a major contributing factor to measurement errors during stereotactic localization. Because of the high doses administered through stereotactic radiosurgery (SRS), even small miscalculations can lead to damaging effects. CIRS (Norfolk, VA, USA) designed the MRI distortion phantom for SRS to evaluate this distortion and help users minimize its effects on treatment planning.
The CIRS MRI distortion phantom for SRS (model 603A) replaces the 3D skull phantom (model 603).
Because the phantom is suitable for use in X-ray, computed tomography (CT), and magnetic resonance imaging (MRI), it can also be used to verify image fusion and deformable image registration algorithms used in a range of treatment planning systems, according to the company.
CIRS is known for its tissue simulation technology and is a manufacturing of phantoms and simulators for quantitative densitometry, calibration, quality control, and research in the field of medical imaging and radiotherapy.
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CIRS
Distortion in MRI is a major contributing factor to measurement errors during stereotactic localization. Because of the high doses administered through stereotactic radiosurgery (SRS), even small miscalculations can lead to damaging effects. CIRS (Norfolk, VA, USA) designed the MRI distortion phantom for SRS to evaluate this distortion and help users minimize its effects on treatment planning.
The CIRS MRI distortion phantom for SRS (model 603A) replaces the 3D skull phantom (model 603).
Because the phantom is suitable for use in X-ray, computed tomography (CT), and magnetic resonance imaging (MRI), it can also be used to verify image fusion and deformable image registration algorithms used in a range of treatment planning systems, according to the company.
CIRS is known for its tissue simulation technology and is a manufacturing of phantoms and simulators for quantitative densitometry, calibration, quality control, and research in the field of medical imaging and radiotherapy.
Related Links:
CIRS
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