Oncentra Brachy Apr 9, 2009

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