CyberKnife® M6™ Series (including configurations: M6 Neuro, M6 FI, M6 FIM, & M6
CyberKnife® M6™ Series (including configurations: M6 Neuro, M6 FI, M6 FIM, & M6 FM)The CyberKnife M6 Systems are computer-controlled medical systems for planning and performing minimally invasive stereotactic radiosurgery and precision radiotherapy. They use a 6 MV linear accelerator mounted on a manipulator (robot) and a target locating subsystem to accurately deliver high-energy radiation (1000 MU/minute dose rate) to the treatment target. The target locating subsystem provides X-rays of the treatment area that lets the user know the position of the target.The CyberKnife M6 Systems use skull tracking, fiducial tracking (tracking of implanted radiographic markers), skeletal structure tracking, lung tumor tracking, Lung Optimized Treatment, and Synchrony Respiratory Tracking for dynamic positioning and pointing of the linear accelerator. The fixed, variable aperture and multileaf collimators are available as various beam-limiting secondary collimators.
CyberKnife® M6™ Series (including configurations: M6 Neuro, M6 FI, M6 FIM, & M6
CyberKnife® M6™ Series (including configurations: M6 Neuro, M6 FI, M6 FIM, & M6 FM)The CyberKnife M6 Systems are computer-controlled medical systems for planning and performing minimally invasive stereotactic radiosurgery and precision radiotherapy. They use a 6 MV linear accelerator mounted on a manipulator (robot) and a target locating subsystem to accurately deliver high-energy radiation (1000 MU/minute dose rate) to the treatment target. The target locating subsystem provides X-rays of the treatment area that lets the user know the position of the target.The CyberKnife M6 Systems use skull tracking, fiducial tracking (tracking of implanted radiographic markers), skeletal structure tracking, lung tumor tracking, Lung Optimized Treatment, and Synchrony Respiratory Tracking for dynamic positioning and pointing of the linear accelerator. The fixed, variable aperture and multileaf collimators are available as various beam-limiting secondary collimators.
CyberKnife® M6™ Series (including configurations: M6 Neuro, M6 FI, M6 FIM, & M6
CyberKnife® M6™ Series (including configurations: M6 Neuro, M6 FI, M6 FIM, & M6 FM)The CyberKnife M6 Systems are computer-controlled medical systems for planning and performing minimally invasive stereotactic radiosurgery and precision radiotherapy. They use a 6 MV linear accelerator mounted on a manipulator (robot) and a target locating subsystem to accurately deliver high-energy radiation (1000 MU/minute dose rate) to the treatment target. The target locating subsystem provides X-rays of the treatment area that lets the user know the position of the target.The CyberKnife M6 Systems use skull tracking, fiducial tracking (tracking of implanted radiographic markers), skeletal structure tracking, lung tumor tracking, Lung Optimized Treatment, and Synchrony Respiratory Tracking for dynamic positioning and pointing of the linear accelerator. The fixed, variable aperture and multileaf collimators are available as various beam-limiting secondary collimators.
CyberKnife® M6™ Series (including configurations: M6 Neuro, M6 FI, M6 FIM, & M6
CyberKnife® M6™ Series (including configurations: M6 Neuro, M6 FI, M6 FIM, & M6 FM)The CyberKnife M6 Systems are computer-controlled medical systems for planning and performing minimally invasive stereotactic radiosurgery and precision radiotherapy. They use a 6 MV linear accelerator mounted on a manipulator (robot) and a target locating subsystem to accurately deliver high-energy radiation (1000 MU/minute dose rate) to the treatment target. The target locating subsystem provides X-rays of the treatment area that lets the user know the position of the target.The CyberKnife M6 Systems use skull tracking, fiducial tracking (tracking of implanted radiographic markers), skeletal structure tracking, lung tumor tracking, Lung Optimized Treatment, and Synchrony Respiratory Tracking for dynamic positioning and pointing of the linear accelerator. The fixed, variable aperture and multileaf collimators are available as various beam-limiting secondary collimators.
CyberKnife® M6™ Series (including configurations: M6 Neuro, M6 FI, M6 FIM, & M6
CyberKnife® M6™ Series (including configurations: M6 Neuro, M6 FI, M6 FIM, & M6 FM)The CyberKnife M6 Systems are computer-controlled medical systems for planning and performing minimally invasive stereotactic radiosurgery and precision radiotherapy. They use a 6 MV linear accelerator mounted on a manipulator (robot) and a target locating subsystem to accurately deliver high-energy radiation (1000 MU/minute dose rate) to the treatment target. The target locating subsystem provides X-rays of the treatment area that lets the user know the position of the target.The CyberKnife M6 Systems use skull tracking, fiducial tracking (tracking of implanted radiographic markers), skeletal structure tracking, lung tumor tracking, Lung Optimized Treatment, and Synchrony Respiratory Tracking for dynamic positioning and pointing of the linear accelerator. The fixed, variable aperture and multileaf collimators are available as various beam-limiting secondary collimators.
The CyberKnife® Treatment Delivery System (CKTDS) is a computer-controlled radia
The CyberKnife® Treatment Delivery System (CKTDS) is a computer-controlled radiation treatment delivery system for performing minimally invasive stereotactic radiosurgery and precision radiotherapy. The CyberKnife Treatment Delivery System is intended to work with Accuray Precision® Treatment Planning System and iDMS™ Data Management System.
IYE
Accelerator, Linear, Medical
2
CyberKnife® VSI™ Robotic Radiosurgery System Japan
CyberKnife® M6™ Series (including configurations: M6 Neuro, M6 FI, M6 FIM, & M6
CyberKnife® M6™ Series (including configurations: M6 Neuro, M6 FI, M6 FIM, & M6 FM)The CyberKnife M6 Systems are computer-controlled medical systems for planning and performing minimally invasive stereotactic radiosurgery and precision radiotherapy. They use a 6 MV linear accelerator mounted on a manipulator (robot) and a target locating subsystem to accurately deliver high-energy radiation (1000 MU/minute dose rate) to the treatment target. The target locating subsystem provides X-rays of the treatment area that lets the user know the position of the target.The CyberKnife M6 Systems use skull tracking, fiducial tracking (tracking of implanted radiographic markers), skeletal structure tracking, lung tumor tracking, Lung Optimized Treatment, and Synchrony Respiratory Tracking for dynamic positioning and pointing of the linear accelerator. The fixed, variable aperture and multileaf collimators are available as various beam-limiting secondary collimators.
CyberKnife® M6™ Series (including configurations: M6 Neuro, M6 FI, M6 FIM, & M6
CyberKnife® M6™ Series (including configurations: M6 Neuro, M6 FI, M6 FIM, & M6 FM)The CyberKnife M6 Systems are computer-controlled medical systems for planning and performing minimally invasive stereotactic radiosurgery and precision radiotherapy. They use a 6 MV linear accelerator mounted on a manipulator (robot) and a target locating subsystem to accurately deliver high-energy radiation (1000 MU/minute dose rate) to the treatment target. The target locating subsystem provides X-rays of the treatment area that lets the user know the position of the target.The CyberKnife M6 Systems use skull tracking, fiducial tracking (tracking of implanted radiographic markers), skeletal structure tracking, lung tumor tracking, Lung Optimized Treatment, and Synchrony Respiratory Tracking for dynamic positioning and pointing of the linear accelerator. The fixed, variable aperture and multileaf collimators are available as various beam-limiting secondary collimators.
CyberKnife® M6™ Series (including configurations: M6 Neuro, M6 FI, M6 FIM, & M6
CyberKnife® M6™ Series (including configurations: M6 Neuro, M6 FI, M6 FIM, & M6 FM)The CyberKnife M6 Systems are computer-controlled medical systems for planning and performing minimally invasive stereotactic radiosurgery and precision radiotherapy. They use a 6 MV linear accelerator mounted on a manipulator (robot) and a target locating subsystem to accurately deliver high-energy radiation (1000 MU/minute dose rate) to the treatment target. The target locating subsystem provides X-rays of the treatment area that lets the user know the position of the target.The CyberKnife M6 Systems use skull tracking, fiducial tracking (tracking of implanted radiographic markers), skeletal structure tracking, lung tumor tracking, Lung Optimized Treatment, and Synchrony Respiratory Tracking for dynamic positioning and pointing of the linear accelerator. The fixed, variable aperture and multileaf collimators are available as various beam-limiting secondary collimators.
CyberKnife® M6™ Series (including configurations: M6 Neuro, M6 FI, M6 FIM, & M6
CyberKnife® M6™ Series (including configurations: M6 Neuro, M6 FI, M6 FIM, & M6 FM)The CyberKnife M6 Systems are computer-controlled medical systems for planning and performing minimally invasive stereotactic radiosurgery and precision radiotherapy. They use a 6 MV linear accelerator mounted on a manipulator (robot) and a target locating subsystem to accurately deliver high-energy radiation (1000 MU/minute dose rate) to the treatment target. The target locating subsystem provides X-rays of the treatment area that lets the user know the position of the target.The CyberKnife M6 Systems use skull tracking, fiducial tracking (tracking of implanted radiographic markers), skeletal structure tracking, lung tumor tracking, Lung Optimized Treatment, and Synchrony Respiratory Tracking for dynamic positioning and pointing of the linear accelerator. The fixed, variable aperture and multileaf collimators are available as various beam-limiting secondary collimators.
The CyberKnife® Treatment Delivery System (CKTDS) is a computer-controlled radia
The CyberKnife® Treatment Delivery System (CKTDS) is a computer-controlled radiation treatment delivery system for performing minimally invasive stereotactic radiosurgery and precision radiotherapy. The CyberKnife Treatment Delivery System is intended to work with Accuray Precision® Treatment Planning System and iDMS™ Data Management System.
The TomoTherapy Treatment Delivery System with iDMS is indicated for the deliver
The TomoTherapy Treatment Delivery System with iDMS is indicated for the delivery of radiation therapy, stereotactic radiotherapy or stereotactic radiosurgery to tumors or other targeted tissues anywhere in the body under the direction of a licensed medical practitioner.
The TomoTherapy Treatment Delivery System with iDMS is indicated for the deliver
The TomoTherapy Treatment Delivery System with iDMS is indicated for the delivery of radiation therapy, stereotactic radiotherapy or stereotactic radiosurgery to tumors or other targeted tissues anywhere in the body under the direction of a licensed medical practitioner.
The TomoTherapy Treatment Delivery System with iDMS is indicated for the deliver
The TomoTherapy Treatment Delivery System with iDMS is indicated for the delivery of radiation therapy, stereotactic radiotherapy or stereotactic radiosurgery to tumors or other targeted tissues anywhere in the body under the direction of a licensed medical practitioner.
The CyberKnife® Treatment Delivery System (CKTDS) is a computer-controlled radia
The CyberKnife® Treatment Delivery System (CKTDS) is a computer-controlled radiation treatment delivery system for performing minimally invasive stereotactic radiosurgery and precision radiotherapy. The CyberKnife Treatment Delivery System is intended to work with Accuray Precision® Treatment Planning System and iDMS™ Data Management System.
MR-RT is an add-on to the existing Ingenia 1.5T and 3.0T MR systems that makes t
MR-RT is an add-on to the existing Ingenia 1.5T and 3.0T MR systems that makes the system suitable for MR imaging for radiation therapy planning purposes. MR-RT consists of RTGo SW and MR CouchTop accessory. RTgo is a software that provides MR-RT functionality including MRCAT (MRCAT Prostate, MRCAT Pelvis, MRCAT Brain, MRCAT Head &Neck)
MR-RT is an add-on to the existing Ingenia 1.5T and 3.0T MR systems that makes t
MR-RT is an add-on to the existing Ingenia 1.5T and 3.0T MR systems that makes the system suitable for MR imaging for radiation therapy planning purposes. MR-RT consists of RTGo SW and MR CouchTop accessory. RTgo is a softwar
MR-RT is an add-on to the existing Ingenia 1.5T and 3.0T MR systems that makes t
MR-RT is an add-on to the existing Ingenia 1.5T and 3.0T MR systems that makes the system suitable for MR imaging for radiation therapy planning purposes. MR-RT consists of RTGo SW and MR CouchTop accessory. RTgo is a software that provides MR-RT functionality including MRCAT (MRCAT Prostate, MRCAT Pelvis, MRCAT Brain)
MR-RT is an add-on to the existing Ingenia 1.5T and 3.0T MR systems that makes t
MR-RT is an add-on to the existing Ingenia 1.5T and 3.0T MR systems that makes the system suitable for MR imaging for radiation therapy planning purposes. MR-RT consists of RTGo SW and MR CouchTop accessory. RTgo is a software that provides MR-RT functionality including MRCAT (MRCAT Prostate, MRCAT Pelvis, MRCAT Brain)
The purpose of Prowess Panther TPS is to provide a complete program for radiatio
The purpose of Prowess Panther TPS is to provide a complete program for radiation therapy treatment planning. This includes computation, display, evaluation, and output documentation of radiation dose estimations to be submitted for independent clinical review and judgment prior to use. The device provides data in the form of display, hardcopy prints and/or plots to guide a physician in selecting the optimum patient treatment plan. Panther treatment planning system allows radiation physicians, physicists, and dosimetrists to optimize the delivery of radiation in treating cancer and related diseases.
Standard Imaging LinacView Software is a stand alone software medical device use
Standard Imaging LinacView Software is a stand alone software medical device used for logfile analysis of radiation therapy systems.
Standard Imaging Adaptivo Software is a stand alone software medical device used
Standard Imaging Adaptivo Software is a stand alone software medical device used for QA checks of comparative and cumulative dose received during radiation treatment from radiation therapy systems.
Standard Imaging PIPSpro Software is a stand alone software medical device used
Standard Imaging PIPSpro Software is a stand alone software medical device used for QA checks of imaging systems used with radiation therapy systems.
Standard Imaging IMSure QA Software is a stand alone software medical device use
Standard Imaging IMSure QA Software is a stand alone software medical device used for monitor unit secondary checks and IMRT treatment plan secondary checks of radiation treatment plans from radiation therapy systems.
Standard Imaging DoseView 3D is a medical device intended for performing water p
Standard Imaging DoseView 3D is a medical device intended for performing water phantom based commissioning and QA measurements on radiation therapy systems.
SciMoCa is a standalone software product that allows clinicians to perform quali
SciMoCa is a standalone software product that allows clinicians to perform quality assurance of a radiotherapy treatment dose generated by a treatment planning system via recalculation of the dose with an independent Monte Carlo dose calculation algorithm. SciMoCa is implemented in a service-oriented client-server architecture that allows one or more clients to communicate calculation requests to a central dose calculation server. SciMoCa is not a treatment planning system or a radiation delivery device. It is to be used only by trained radiation oncology personnel for quality assurance purposes.
The CNMC Model 206 is a medical dosimeter or medical electrometer that is capabl
The CNMC Model 206 is a medical dosimeter or medical electrometer that is capable of performing measurements of diagnostic and therapeutic amounts of ionizing radiation when an appropriate ionization chamber or diode dosimeter is connected.
Proton Systems Radiation Therapy Beam Shaping Range Compensator is custom manufa
Proton Systems Radiation Therapy Beam Shaping Range Compensator is custom manufactured and designed by the customer for intensity modulation of external beam proton radiation therapy. Each Compensator is patient specific and for single use.
Proton Systems Radiation Therapy Beam-Shaping Aperture is designed by the custom
Proton Systems Radiation Therapy Beam-Shaping Aperture is designed by the customer to block and shape a beam of radiation. Each aperture is patient specific and for single use.
Proton Systems Radiation Therapy Beam Shaping Range Compensator is custom manufa
Proton Systems Radiation Therapy Beam Shaping Range Compensator is custom manufactured and designed by the customer for intensity modulation of external beam proton radiation therapy. Each Compensator is patient specific and for single use
Proton Systems Radiation Therapy Beam-Shaping Aperture is designed by the custom
Proton Systems Radiation Therapy Beam-Shaping Aperture is designed by the customer to block and shape a beam of radiation. Each aperture is patient specific and for single use.
Proton Systems Radiation Therapy Beam Shaping Range Compensator is custom manufa
Proton Systems Radiation Therapy Beam Shaping Range Compensator is custom manufactured and designed by the customer for intensity modulation of external beam proton radiation therapy. Each Compensator is patient specific and for single use.
Proton Systems Radiation Therapy Beam-Shaping Aperture is designed by the custom
Proton Systems Radiation Therapy Beam-Shaping Aperture is designed by the customer to block and shape a beam of radiation. Each aperture is patient specific and for single use.
The Zap-X MV Imager is designed for use with the Zap-X Radiosurgery System (“Zap
The Zap-X MV Imager is designed for use with the Zap-X Radiosurgery System (“Zap-X System”) which is a computer-controlled system for performing non-invasive stereotactic radiosurgery that is self-shielded for ionizing radiation.
The Zap-X Treatment Planning Software is designed for use with the Zap-X Radiosu
The Zap-X Treatment Planning Software is designed for use with the Zap-X Radiosurgery System (“Zap-X System”) which is a computer-controlled system for performing non-invasive stereotactic radiosurgery that is self-shielded for ionizing radiation.
The Zap-X Treatment Delivery Software is designed for use with the Zap-X Radiosu
The Zap-X Treatment Delivery Software is designed for use with the Zap-X Radiosurgery System (“Zap-X System”) which is a computer-controlled system for performing non-invasive stereotactic radiosurgery that is self-shielded for ionizing radiation.
The Zap-X Radiosurgery System (“Zap-X System”) is a computer-controlled system f
The Zap-X Radiosurgery System (“Zap-X System”) is a computer-controlled system for performing non-invasive stereotactic radiosurgery that is self-shielded for ionizing radiation.
Adaptiiv’s 3D printed patient-matched radiation therapy accessory is a customiza
Adaptiiv’s 3D printed patient-matched radiation therapy accessory is a customizable accessory that expands the application of external beam radiation therapy, allowing to overcome the skin-sparing effects inherent to high energy photons and electrons. The desired external beam radiation therapy accessories will be printed using HP Jet Fusion 5200 Series 3D Printing Solution and Ultrasint® Thermoplastic polyurethane (TPU01) powder.
Patient-Matched 3D Printed radiation Therapy Accessory (Ultrasint TPU)
3D Brachy Software application is indicated for and intended for use as an acces
3D Brachy Software application is indicated for and intended for use as an accessory to a radiation therapy treatment planning system (TPS) to design patient-matched 3D printable accessories intended for use during surface brachytherapy. The use of 3D Brachy application is by prescription only.
3D Bolus Software application is indicated for and intended for use as an access
3D Bolus Software application is indicated for and intended for use as an accessory to a radiation therapy treatment planning system (TPS) to design patient-matched 3D printable accessories intended for use during external beam (photon or electron) radiation therapy. The use of 3D Bolus application is by prescription only.
3D Bolus Software is indicated for, and intended for use as an accessory to a ra
3D Bolus Software is indicated for, and intended for use as an accessory to a radiation therapy treatment planning system (TPS) to design patient-specific 3D-printable objects intended for use during external beam photon or electron radiation therapy, or brachytherapy.