Product details
Oncentra Brachy Apr 9, 2009
Company details
Nucletron
8671 Robert Fulton Drive
Columbia
MD
21046
United States
Tel:
800.336.2249
Oncentra Brachy is the premiere brachytherapy treatment planning system designed to provide clinicians with powerful 3D volumetric and film based planning capabilities.
Request infoInnovative contouring tools, combined with excellent visualization and rapid optimization make Oncentra Brachy the first choice in brachytherapy planning.
The Nucletron name is synonymous with high quality brachytherapy solutions. The company has earned this reputation by providing excellent afterloaders, accurate planning systems, and dependable support for over 30 years to the global radiation therapy community.
Oncentra Brachy is a direct result of the vast brachytherapy knowledge and the collaborative relations that Nucletron enjoys with key brachytherapists worldwide.
Powerful, modern and intuitive are words used to describe Oncentra Brachy. Built on a modern PC platform, Oncentra Brachy provides clinics with modern networking capabilities to maximize clinical resource utilization. Contouring tools are easy to use and dramatically speed up the segmentation task. Innovations such as the “Pearl” tool make adjusting and modifying contours an almost effortless undertaking.
The system supports both 3D volumetric planning and film based planning. Image fusion capabilities support the use of CT, MR and PET images to identify targets and regions of interest. 3D volumetric images are quickly optimized using IPSA(inverse planning with simulated annealing) algorithms.
DVH’s can be created and plans can be easily reviewed and even summed using the plan evaluation module within Oncentra Brachy.
All of these features combine to make Oncentra Brachy the first choice in brachytherapy planning.
Categories
- Biomolecules: structure and physical properties
- Subcellular structure and processes
- Cellular structure and processes
- Properties of higher organisms
- Ionizing radiations (ultraviolet, X-rays,gamma-rays, ions, electrons, positrons, neutrons, and mesons, etc.)
- Optical radiation (near ultraviolet,visible, and infrared)
- Radio frequency and microwave radiation (power lines)
- Sound and ultrasound
- Magnetic fields
- Electric fields
- Radiation monitoring, control, and safety
- Photon dosimetry: theory and algorithms
- Photon dosimetry: measurements
- Electron and positron dosimetry: theory and algorithms
- Electron and positron dosimetry: measurements
- Brachytherapy
- Conformal radiation treatment
- Stereotactic radiosurgery
- Beam intensity modification: wedges, Na Radioimmunotherapycompensators
- Portal imaging in therapy
- Proton, neutron, and heavier particle dosimetry: theory and algorithms
- Proton, neutron, and heavier particle dosimetry: measurements
- Microdosimetry
- Record and verify systems and applications
- Treatment planning, optimization, tissue response factors, and dose-volume analysis
- Collimation
- Simulation
- Monte Carlo applications
- Quality assurance in radiotherapy
- Thermotherapy (hyperthermia and cryogenic therapy)
- Electrotherapy
- Photodynamic therapy
- Sound and ultrasound therapy/lithotripsy
- Radiation generators
- Ancillary equipment
- Quality assurance equipment
- Image quality: contrast, resolution, noise, etc.
- Image reconstruction and registration
- Image analysis
- Computer-aided diagnosis
- Single photon emission computed tomography (SPECT)
- Positron emission tomography (PET)
- Radiopharmaceuticals
- Digital imaging
- Scintillation cameras
- Dosimetry
- Quantitative measurements and scanning
- Bone densitometry
- X-ray radiography
- Fluoroscopy
- Angiography
- Mammography
- Computed tomography (CT)
- Digital radiography
- Transmission imaging
- Bone densitometry
- Pulse sequences for imaging
- Instrumentation
- Angiography and macroscopic flow estimation
- Clinical imaging studies
- Non-ionizing radiation equipment and techniques
- Ultrasonography
- Thermography
- Visible radiation: diaphanography, transillumination, laser imaging
- Electrical impedance tomography (EIT)
- Computer simulation
- Electron, neutron and X-ray diffraction and scattering
- Scattering of visible, uv, and infrared radiation
- Scanning tunneling and atomic force microscopy
- Electron microscopy
- EXAFS spectroscopy
- X-ray spectroscopy (see also 87.64.Fb EXAFS spectroscopy)
- EPR and NMR spectroscopy
- Infrared and Raman spectroscopy
- Electron and photoelectron spectroscopy
- Optical absorption, magnetic circular dichroism, and fluorescence spectroscopy
- Mossbauer spectroscopy
- Light microscopy: bright-field, dark-field, phase contrast, DIC
- Confocal microscopy
- Multiphoton microscopy
- Near-field scanning optical microscopy
- Aerospace bio and medical physics
- Films: silver bromide based, radiochromic, etc.
- Chemical dosimetry
- Ionization dosimetry
- Calorimetric dosimetry
- Solid state detectors
- Thermoluminescence, bioluminescence, etc.
- Magnetic resonance
- Phantoms
- Biomaterials and biological interfaces
- Optical trapping
- Micromanipulators
- Patch clamping
- Micromachining
- Morphometry and stereology
- Tissue and cellular engineering and biotechnology
- Biological signal processing and instrumentation
- Dynamical, regulatory, and integrative biology
- Neural engineering
- Biomedical engineering; instrumentation
- General equipment (e.g. Sensors)
- Biomedical applications of nanotechnology
More products from this company
- Oncentra MasterPlan Apr 9, 2009
- Add a new dimension to treatment planning Jun 23, 2008
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