Model dOCTor -Optical Coherence Tomography (OCT) systems
NOVACAMTM dOCTor systems offer very high quality non-invasive tissue imaging in 2D and 3D. They are ideal for: In-vivo imaging, Small animal imaging, Tissue engineering and visualization, Developmental biology. The dOCTor systems are available in swept-source (SS) OCT and time-domain (TD) OCT configurations to satisfy different application imaging needs.
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Notes on the system models:
- dOCTorTM-SS scans at the fastest acquisition rate, with very high sensitivity
- dOCTorTM-TD offers the greatest imaging depth of up to 8 mm and lower entry price
- Custom solutions and OEM components are also available.
Standard system configuration
A standard configuration of the dOCTor system includes:
- dOCTor-SS (swept source) detector with 4 mm depth range
- 1 swept-source laser
- 2-axes inspection station with manual elevator and 2-axes motion controller
- 1 standard probe
- PC with NOVACAM acquisition software
- 1 year warranty
Instrument safety
- dOCTor OCT systems feature an in-probe red laser pointer (650 nm wavelength) for alignment purposes.
- dOCTor OCT systems are Class 1M Laser products, with < 20 mW of infrared and < 5 mW of in-probe laser pointer.
Imaging
- Highest quality and in real time
- 2D cross-sections
- 3D volumetric imaging
- Surface profiling
- Large imaging depth of up to 8 mm
Features
- High speed: 2 to 100 kHz and higher
- PC with user-friendly scan control interface
- In-probe laser pointer for alignment
- Rotational scanning with pull-back probes available
- Custom small-diameter endoscopic probes can be designed
Benefits
- User friendly PC-based interface helps operator to quickly adjust system parameters according to specific imaging requirements
- Output exportable to DICOM
- USB connection for easy data transfer from interferometer to PC or laptop
dOCTor OCT systems can be used for research in:
- Dental and periodontal applications
- Dermatology
- Developmental biology
- Dopper imaging
- Ear canal measurements for customization of hearing aids
- Flow measurement in engineered tissue (Doppler OCT)
- Guided surgery
- Molecular imaging protein-based molecular contrast OCT
- Monitoring the concentration of photosensitizers in photodynamic therapy (PDT)
- Oncology
- Ophthalmology – retinal imaging
- Pharmaceutical research
- Small animal imaging
- Tissue engineering and in bioreactors
- Visualizing of artificially grown tissues (skin, cornea) and artificial vascular grafts