The OTIS 2.1 Optical Coherence Tomography System is indicated for use as an imag
The OTIS 2.1 Optical Coherence Tomography System is indicated for use as an imaging tool in the evaluation of excised human tissue microstructure by providing two-dimensional, cross-sectional, real-time depth visualization, with image review manipulation software for identifying and annotating regions of interest. Perimeter’s OTIS 2.1 cart assembly encloses an OCT-based imaging system and has a touchscreen monitor.
The OTIS 2.1 Optical Coherence Tomography System is indicated for use as an imag
The OTIS 2.1 Optical Coherence Tomography System is indicated for use as an imaging tool in the evaluation of excised human tissue microstructure by providing two-dimensional, cross-sectional, real-time depth visualization, with image review manipulation software for identifying and annotating regions of interest. Perimeter’s OTIS 2.1 cart assembly encloses an OCT-based imaging system and has a touchscreen monitor.
Gentuity OCT imaging console, including optical engine, PC, PIM with umbilical,
Gentuity OCT imaging console, including optical engine, PC, PIM with umbilical, 2 monitors (one with touch screen) and keyboard/mouse.
The Pantheris SV System is intended to remove plaque (atherectomy) from partiall
The Pantheris SV System is intended to remove plaque (atherectomy) from partially occluded vessels in the peripheral vasculature with a reference diameter of 2.0 mm to 4.0 mm, using OCT-assisted orientation and imaging. The system is an adjunct to fluoroscopy by providing images of vessel lumen, wall structures and vessel morphologies.
The Pantheris System is intended to remove plaque (atherectomy) from partially o
The Pantheris System is intended to remove plaque (atherectomy) from partially occluded vessels in the peripheral vasculature with a reference diameter of 3.0 mm to 7.0 mm, using OCT-assisted orientation and imaging. The system is an adjunct to fluoroscopy by providing images of vessel lumen, wall structures and vessel morphologies.
The Pantheris System is intended to remove plaque (atherectomy) from partially o
The Pantheris System is intended to remove plaque (atherectomy) from partially occluded vessels in the peripheral vasculature with a reference diameter of 3.0 mm to 7.0 mm, using OCT-assisted orientation and imaging. The system is an adjunct to fluoroscopy by providing images of vessel lumen, wall structures and vessel morphologies.
Lightbox Umbilical is intended for use in peripheral vascular procedures in conj
Lightbox Umbilical is intended for use in peripheral vascular procedures in conjunction with a compatible Avinger product.
The Ocelot System is intended to facilitate the intraluminal placement of conven
The Ocelot System is intended to facilitate the intraluminal placement of conventional guidewires beyond stenotic lesions (including sub and chronic total occlusions) in the peripheral vasculature prior to further percutaneous intervention using OCT-assisted orientation and imaging. The system is an adjunct to fluoroscopy by providing images of vessel lumen and wall structures. The Ocelot System is contraindicated for use in the iliac, coronary, cerebral, renal or carotid vasculature.
The OTIS 2.1 Optical Coherence Tomography System is indicated for use as an imag
The OTIS 2.1 Optical Coherence Tomography System is indicated for use as an imaging tool in the evaluation of excised human tissue microstructure by providing two-dimensional, cross-sectional, real-time depth visualization, with image review manipulation software for identifying and annotating regions of interest. Perimeter’s OTIS 2.1 cart assembly encloses an OCT-based imaging system and has a touchscreen monitor.
The OTIS 2.1 system includes a single-use specimen container, the Consumable Set
The OTIS 2.1 system includes a single-use specimen container, the Consumable Set, that facilitates tissue imaging. The consumable set consists of a Specimen Tray and Specimen Lid. The Specimen Tray engages with the device to initiate scanning and the Specimen Lid facilitates engaging vacuum to enable vacuum assisted specimen positioning during image acquisition.