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.
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.
The RefleXion Medical Radiotherapy System (RMRS), a hybrid imaging-therapy syste
The RefleXion Medical Radiotherapy System (RMRS), a hybrid imaging-therapy system, is capable ofdelivering intensity-modulated radiation therapy (IMRT), stereotactic body radiation therapy (SBRT),stereotactic radiotherapy (SRT) and stereotactic radiosurgery (SRS) utilizing an on-board kilovoltage CT(kVCT) system for patient localization and field sizes based on jaws which are 40 cm wide, with slice widthchoices of 1.0 cm and 2.0 cm to optimize patient treatment. It is also equipped with a binary multileafcollimator (MLC) used to create intensity modulated radiation fields at a source-axis distance of 85 cm. Itcan achieve a nominal dose rate of 850 cGy/min.
ClearCalc is a software intended to assist radiation treatment planners in deter
ClearCalc is a software intended to assist radiation treatment planners in determining if their treatment planning calculations are accurate using an independent Monitor Unit (MU) and dose calculation algorithm.
EZFluence is intended to assist radiation treatment planning professionals in ge
EZFluence is intended to assist radiation treatment planning professionals in generating optimal fluences for producing a homogeneous dose distribution in external beam radiation therapy treatment plans consisting of photo treatment fields.
CORVUS 15 is intended for use as a planning tool for conformal radiation therapy
CORVUS 15 is intended for use as a planning tool for conformal radiation therapy. The CORVUS system is intended to be used as an integrated system with a delivery device for planning and delivery of conformal radiation therapy. . For IMRT, using operator-supplied input and patient scans, it creates a plan for treatment delivery systems and generates a set of beam weights that, when applied to a compatible system, facilitates delivery of an intensity-modulated 3D conformal radiation therapy treatment. For Forward Planning, CORVUS helps the user manually create a plan for treatment delivery based on user supplied inputs and patient scans including dose calculation. Forward Planning is supported only for Cobalt-60 based treatment planning.
CORVUS 14 is intended for use as a planning tool for conformal radiation therapy
CORVUS 14 is intended for use as a planning tool for conformal radiation therapy. The CORVUS system is intended to be used as an integrated system with a delivery device for planning and delivery of conformal radiation therapy. . For IMRT, using operator-supplied input and patient scans, it creates a plan for treatment delivery systems and generates a set of beam weights that, when applied to a compatible system, facilitates delivery of an intensity-modulated 3D conformal radiation therapy treatment. For Forward Planning, CORVUS helps the user manually create a plan for treatment delivery based on user supplied inputs and patient scans including dose calculation. Forward Planning is supported only for Cobalt-60 based treatment planning.
CORVUS 09 is intended for use as a planning tool for conformal radiation therapy
CORVUS 09 is intended for use as a planning tool for conformal radiation therapy. CORVUS 09 is designed to generate plans for treatment delivery systems that can create multiple radiation patterns composed of pencil beams on which the intensity can be individually controlled. CORVUS 09 system is intended to be used as an integrated system with a modulating device for planning and delivery of conformal radiation therapy.
CORVUS 09 is intended for use as a planning tool for conformal radiation therapy
CORVUS 09 is intended for use as a planning tool for conformal radiation therapy. CORVUS 09 is designed to generate plans for treatment delivery systems that can create multiple radiation patterns composed of pencil beams on which the intensity can be individually controlled. CORVUS 09 system is intended to be used as an integrated system with a modulating device for planning and delivery of conformal radiation therapy.
The Best TPS system is a computer based software system developed the use of ass
The Best TPS system is a computer based software system developed the use of assisting in the placement of anatomical localization and low dose rate isotope implants Best TPS uses multiple two-dimensional images including ultrasound and DICOM images which are outlined by a qualified medical staff member, then reconstructed to create three dimensional structures and matrices.
CORVUS 09 is intended for use as a planning tool for conformal radiation therapy
CORVUS 09 is intended for use as a planning tool for conformal radiation therapy. CORVUS 09 is designed to generate plans for treatment delivery systems that can create multiple radiation patterns composed of pencil beams on which the intensity can be individually controlled. CORVUS 09 system is intended to be used as an integrated system with a modulating device for planning and delivery of conformal radiation therapy.