The laser (577 nm Fiber Techology Laser SingleSpot, MultiSpot and Subliminal mod
The laser (577 nm Fiber Techology Laser SingleSpot, MultiSpot and Subliminal mode and Slit Lamp Zeiss mode) is a photocoagulator device intended for the treatment of retinal diseases.
15 MHz Probe for eye and orbit examination. Automatic biometry readings obtained
15 MHz Probe for eye and orbit examination. Automatic biometry readings obtained from a B mode image allowing axial length measurements for difficult to mesure long eyes or posterior staphyloma.
The laser (577 nm Fiber Techology Laser SingleSpot, MultiSpot and Subliminal mod
The laser (577 nm Fiber Techology Laser SingleSpot, MultiSpot and Subliminal mode and Slit Lamp Haag Streit mode) is a photocoagulator device intended for the treatment of retinal diseases.
The VITRA 2 is a laser system which emits a treatment beam at 532 nm and is inte
The VITRA 2 is a laser system which emits a treatment beam at 532 nm and is intended for use in photocoagulation of ocular tissues in the treatment of diseases of the eye.
Axial length measurement probe with an integrated laser pointer for biometry:- E
Axial length measurement probe with an integrated laser pointer for biometry:- Ensuring the acquisition in the visual axis- Increasing the patient cooperation- Accelerating the speed of acquisition of A scans
50 MHz probe reveals what you can not see with OCT alone, enabling the operator
50 MHz probe reveals what you can not see with OCT alone, enabling the operator to visualize the structures located behind the iris such as ciliary bodies, the processes and lens zonules.Linear scanning offers the greatest signal intensity, providing superior anterior chamber image quality as the probe is always perpendicular with the tissue interface of interest.
Ophthalmic Ultrasound BiomicroscopeUBM and automatic STS measurement for ICL siz
Ophthalmic Ultrasound BiomicroscopeUBM and automatic STS measurement for ICL sizingThe QUANTEL MEDICAL Compact Touch STS UBMTM Ophthalmic Ultrasound System (and its associated Linear 50 MHz probe) is intended to be used for diagnostic imaging and measurement of the eye including:• Visualization of the interior of the eye by B scans.• Make measurements inside the eye (Sulcus to Sulcus, Irido Cornea Angle Left, Irido Cornea Angle Right, Lens curvature and Anterior Chamber depth).
Ophthalmic Ultrasound Biometer: Biometry and IOL CalculationThe QUANTEL MEDICAL
Ophthalmic Ultrasound Biometer: Biometry and IOL CalculationThe QUANTEL MEDICAL AXIS NANO Ophthalmic Ultrasound System and the probes that are used with it are indicated for the biometric measurement of the eye including:• Axial Length measurement of the eye by ultrasonic means.• Implanted IOL power calculation, using the Axial Length measurement.
Digitally programmed S-shaped amplifier characteristics and comprehensive design
Digitally programmed S-shaped amplifier characteristics and comprehensive design criteria for standardized echography and tissue differentiation according to Karl C. Ossoinig MD
The AXIALIS Ophthalmic Ultrasound System and the probes that are used with it ar
The AXIALIS Ophthalmic Ultrasound System and the probes that are used with it are indicated for diagnostic imaging and biometric measurement of the eye including:• Axial Length measurement of the eye by ultrasonic means.• Implanted IOL power calculation, using the Axial Length measurement.• Measurement of corneal thickness by ultrasonic means.
10 MHz Probe for eye and orbit examination. Automatic biometry readings obtained
10 MHz Probe for eye and orbit examination. Automatic biometry readings obtained from a B mode image allowing axial length measurements for difficult to mesure long eyes or posterior staphyloma.
10 MHz Probe for eye and orbit examination. Automatic biometry readings obtained
10 MHz Probe for eye and orbit examination. Automatic biometry readings obtained from a B mode image allowing axial length measurements for difficult to mesure long eyes or posterior staphyloma.
AVISO (S) Ophthalmic A (A-Std), B Scan and UBM Ultrasound SystemThe QUANTEL MEDI
AVISO (S) Ophthalmic A (A-Std), B Scan and UBM Ultrasound SystemThe QUANTEL MEDICAL AVISO modular platform is an ultrasound system intended to be used for:• Axial Length measurement of the eye by ultrasonic means• Implanted IOL power calculation, using the Axial Length measurement• Visualization of the interior of the eye and the orbit by A and B scans(• Advanced diagnostic: standardized echography provides detailed information about the internal reflectivity of tissues and allows optimal tissues differentiation, localization and measurement of structures in the eye and orbit.)
The Vitra 810 is a laser system which emits a treatment beam at 810 nm and is in
The Vitra 810 is a laser system which emits a treatment beam at 810 nm and is intended for use in photocoagulation of ocular tissues in the treatment of diseases of the eye. The laser is used to treat the retinal diseases and glaucoma.
Ophthalmic Ultrasound System: A/B Scan and Pachymetry The QUANTEL MEDICAL COMPAC
Ophthalmic Ultrasound System: A/B Scan and Pachymetry The QUANTEL MEDICAL COMPACT TOUCH Ophthalmic Ultrasound System and the probes that are used with it are indicated for diagnostic imaging and biometric measurement of the eye including: • Visualization of the interior of the eye and the orbit by A and B scans. • Axial Length measurement of the eye by ultrasonic means. • Implanted IOL power calculation, using the Axial Length measurement. • Measurement of corneal thickness by ultrasonic means.
Ophthalmic Ultrasound System: A/B Scan and PachymetryThe QUANTEL MEDICAL COMPACT
Ophthalmic Ultrasound System: A/B Scan and PachymetryThe QUANTEL MEDICAL COMPACT TOUCH Ophthalmic Ultrasound System and the probes that are used with it are indicated for diagnostic imaging and biometric measurement of the eye including:• Visualization of the interior of the eye and the orbit by A and B scans.• Axial Length measurement of the eye by ultrasonic means.• Implanted IOL power calculation, using the Axial Length measurement.• Measurement of corneal thickness by ultrasonic means.
delivery unit is connected to the laser photocoagulator and YAG laser system to
delivery unit is connected to the laser photocoagulator and YAG laser system to comprise the photocoagulation system and to treat affected areas using a slit lamp.The photocoagulation system enables photocoagulation using a green laser beam (532 nm) or photodisruption using a Nd:YAG laser beam (1064 nm, hereafter referred to as “YAG laser beam”) or SLT laser (532 nm, for YC-200 S plus only) while observing the patient’s eye with the slit lamp.
The OPHTHALMIC YAG LASER SYSTEM YC-200 is an ophthalmic pulsed-laser system cons
The OPHTHALMIC YAG LASER SYSTEM YC-200 is an ophthalmic pulsed-laser system consisting of a main body containing the laser, a head rest, a control box, and a connector box. The device uses a 1,064 nm pulsed Nd: YAG laser as the treatment beam source. Laser pulses are generated using a method called passive Q-switching. With this method, short high-power pulses can be emitted. At the target, the emitted pulses cause photodisruption, which is fragmentation of tissue using light energy.
The delivery unit is connected to the YELLOW LASER PHOTOCOAGULATOR YLC-500 to co
The delivery unit is connected to the YELLOW LASER PHOTOCOAGULATOR YLC-500 to comprise the photocoagulation system and to treat affected areas using a slit lamp. The photocoagulation system enables photocoagulation using a yellow laser beam (577 nm) while observing the patient’s eye with the slit lamp. In order to reduce damages to the ocular media, the optical system (SOLIC *1) that ensures low laser power density on the anterior segment is incorporated. The ZEISS SL130 type is available.A delivery unit to be attached to an existing slit lamp mounted on an existing motorized optical table. The delivery unit is then connected to the main laser device to comprise the photocoagulation system (with the scan function). The HAAG BQ900 type type is available: *1 Safety Optics with Low Impact on Cornea
The delivery unit is connected to the YELLOW LASER PHOTOCOAGULATOR YLC-500 to co
The delivery unit is connected to the YELLOW LASER PHOTOCOAGULATOR YLC-500 to comprise the photocoagulation system and to treat affected areas using a slit lamp. The photocoagulation system enables photocoagulation using a yellow laser beam (577 nm) while observing the patient’s eye with the slit lamp. In order to reduce damages to the ocular media, the optical system (SOLIC *1) that ensures low laser power density on the anterior segment is incorporated.*1 Safety Optics with Low Impact on Cornea
The delivery unit is connected to the YELLOW LASER PHOTOCOAGULATOR YLC-500 to co
The delivery unit is connected to the YELLOW LASER PHOTOCOAGULATOR YLC-500 to comprise the photocoagulation system and to treat affected areas using a slit lamp. The photocoagulation system enables photocoagulation using a yellow laser beam (577 nm) while observing the patient’s eye with the slit lamp. In order to reduce damages to the ocular media, the optical system (SOLIC *1) that ensures low laser power density on the anterior segment is incorporated. The ZEISS SL130 type is available.A delivery unit to be attached to an existing slit lamp mounted on an existing motorized optical table. The delivery unit is then connected to the main laser device to comprise the photocoagulation system (with the scan function). The ZEISS SL130 type is available: *1 Safety Optics with Low Impact on Cornea
The delivery unit is connected to the Yellow Laser Photocoagulator YLC-500 to co
The delivery unit is connected to the Yellow Laser Photocoagulator YLC-500 to comprise the photocoagulation system and to treat affected areas using a binocular indirect ophthalmoscope. The photocoagulation system enables photocoagulation using a yellow laser beam (577 nm) while observing the patient’s eye with the binocular indirect ophthalmoscope.
The delivery unit is connected to the YELLOW LASER PHOTOCOAGULATOR YLC-500 to co
The delivery unit is connected to the YELLOW LASER PHOTOCOAGULATOR YLC-500 to comprise the photocoagulation system and to treat affected areas using a slit lamp. The photocoagulation system enables photocoagulation using a yellow laser beam (577 nm) while observing the patient’s eye with the slit lamp. In order to reduce damages to the ocular media, the optical system (SOLIC *1) that ensures low laser power density on the anterior segment is incorporated.*1 Safety Optics with Low Impact on Cornea
The delivery unit is connected to the YELLOW LASER PHOTOCOAGULATOR YLC-500 to co
The delivery unit is connected to the YELLOW LASER PHOTOCOAGULATOR YLC-500 to comprise the photocoagulation system and to treat affected areas using a slit lamp. The photocoagulation system enables photocoagulation using a yellow laser beam (577 nm) while observing the patient’s eye with the slit lamp. In order to reduce damages to the ocular media, the optical system (SOLIC *1) that ensures low laser power density on the anterior segment is incorporated. The ZEISS SL130 type is available.*1 Safety Optics with Low Impact on Cornea
The NIDEK YELLOW LASER PHOTOCOAGULATOR YLC-500 is an ophthalmic laser photocoagu
The NIDEK YELLOW LASER PHOTOCOAGULATOR YLC-500 is an ophthalmic laser photocoagulator consisting of a main laser device, a control box, and a power supply. With various types of laser delivery units, it comprises a photocoagulation system. The YLC-500 uses a 577 nm optically pumped semiconductor laser (yellow laser beam) as the treatment beam source. The pumped yellow laser beam (treatment beam) and the aiming beam (635 nm, red laser beam) are fed coaxially into the fiber optic cable. The output terminal of the fiber optic cable is connected to a delivery unit. The laser beam is formed into the desired spot size by the optical system, then the laser beam is emitted to the target area. The delivery units are equipped with a protective filter that protects the physician’s eyes from exposure to the treatment beam reflected from the patient’s eye or contact lens.
The delivery unit is used for endophotocoagulation. The photocoagulation system
The delivery unit is used for endophotocoagulation. The photocoagulation system can be easily comprised by connecting the optional sterilized endophotoprobe or optional sterilized coaxial illumination probe to the Multicolor Laser Photocoagulator System MC-500, and attaching the protective filter to the main laser device as well as the surgical microscope. This photocoagulation system enables laser endophotocoagulation while observing the affected area through the surgical microscope.
The delivery unit is used for endophotocoagulation. The photocoagulation system
The delivery unit is used for endophotocoagulation. The photocoagulation system can be easily comprised by connecting the optional sterilized endophotoprobe or optional sterilized coaxial illumination probe to the Green Laser Photocoagulator GYC-1000 and GYC-500, and attaching the protective filter to the main laser device as well as the surgical microscope. This photocoagulation system enables laser endophotocoagulation while observing the affected area through the surgical microscope.
Expansion box is the optional accessory that is used to connect a scan delivery
Expansion box is the optional accessory that is used to connect a scan delivery unit and the external devices (LAN cable, barcode scanner, or magnetic card reader) to the GYC-500.
The delivery unit is connected to the Green Laser Photocoagulator GYC-500 to com
The delivery unit is connected to the Green Laser Photocoagulator GYC-500 to comprise the photocoagulation system and to treat affected areas using a slit lamp. The photocoagulation system enables photocoagulation using a green laser beam (532 nm) while observing the patient’s eye with the slit lamp. In order to reduce damages to the ocular media, the optical system that ensures low laser power density on the anterior segment is incorporated.configuration in which the delivery unit comes together with a slit lamp mounted on a motorized optical table so that the photocoagulation system (with the scan function) can be comprised by simply connecting to the main laser device. NIDEK SL-1800 type is available.
The delivery unit is connected to the Green Laser Photocoagulator GYC-500 to com
The delivery unit is connected to the Green Laser Photocoagulator GYC-500 to comprise the photocoagulation system and to treat affected areas using a slit lamp. The photocoagulation system enables photocoagulation using a green laser beam (532 nm) while observing the patient’s eye with the slit lamp. In order to reduce damages to the ocular media, the optical system that ensures low laser power density on the anterior segment is incorporated. A delivery unit to be attached to an existing slit lamp mounted on an existing motorized optical table. The delivery unit is then connected to the main laser device to comprise the photocoagulation system (with the scan function). HAAG 900 BQ type is available.
The delivery unit is connected to the Green Laser Photocoagulator GYC-500 to com
The delivery unit is connected to the Green Laser Photocoagulator GYC-500 to comprise the photocoagulation system and to treat affected areas using a slit lamp. The photocoagulation system enables photocoagulation using a green laser beam (532 nm) while observing the patient’s eye with the slit lamp. In order to reduce damages to the ocular media, the optical system that ensures low laser power density on the anterior segment is incorporated. A delivery unit to be attached to an existing slit lamp mounted on an existing motorized optical table. The delivery unit is then connected to the main laser device to comprise the photocoagulation system (with the scan function). ZEISS SL130 type is available.
The delivery unit is connected to the Green Laser Photocoagulator GYC-500 to com
The delivery unit is connected to the Green Laser Photocoagulator GYC-500 to comprise the photocoagulation system and to treat affected areas using a slit lamp. The photocoagulation system enables photocoagulation using a green laser beam (532 nm) while observing the patient’s eye with the slit lamp. In order to reduce damages to the ocular media, the optical system that ensures low laser power density on the anterior segment is incorporated. A delivery unit to be attached to an existing slit lamp mounted on an existing motorized optical table. The delivery unit is then connected to the main laser device to comprise the photocoagulation system (with the scan function). NIDEK SL-1800 type is available.
The delivery unit is connected to the Green Laser Photocoagulator GYC-500 to com
The delivery unit is connected to the Green Laser Photocoagulator GYC-500 to comprise the photocoagulation system and to treat affected areas using a slit lamp. The photocoagulation system enables photocoagulation using a green laser beam (532 nm) while observing the patient’s eye with the slit lamp. In order to reduce damages to the ocular media, the optical system that ensures low laser power density on the anterior segment is incorporated. A delivery unit to be attached to an existing slit lamp mounted on an existing motorized optical table. The delivery unit is then connected to the main laser device to comprise the photocoagulation system (with the scan function). ZEISS 30 SL type is available.
The delivery unit is connected to the Green Laser Photocoagulator GYC-500 to com
The delivery unit is connected to the Green Laser Photocoagulator GYC-500 to comprise the photocoagulation system and to treat affected areas using a slit lamp. The photocoagulation system enables photocoagulation using a green laser beam (532 nm) while observing the patient’s eye with the slit lamp. In order to reduce damages to the ocular media, the optical system that ensures low laser power density on the anterior segment is incorporated.A delivery unit to be attached to an existing slit lamp mounted on an existing motorized optical table. The delivery unit is then connected to the main laser device to comprise the photocoagulation system. HAAG 900 series type is available.
The delivery unit is connected to the Green Laser Photocoagulator GYC-500 to com
The delivery unit is connected to the Green Laser Photocoagulator GYC-500 to comprise the photocoagulation system and to treat affected areas using a slit lamp. The photocoagulation system enables photocoagulation using a green laser beam (532 nm) while observing the patient’s eye with the slit lamp. In order to reduce damages to the ocular media, the optical system that ensures low laser power density on the anterior segment is incorporated.A delivery unit to be attached to an existing slit lamp mounted on an existing motorized optical table. The delivery unit is then connected to the main laser device to comprise the photocoagulation system.ZEISS SL130 type is available.
The delivery unit is connected to the Green Laser Photocoagulator GYC-500 to com
The delivery unit is connected to the Green Laser Photocoagulator GYC-500 to comprise the photocoagulation system and to treat affected areas using a slit lamp. The photocoagulation system enables photocoagulation using a green laser beam (532 nm) while observing the patient’s eye with the slit lamp. In order to reduce damages to the ocular media, the optical system that ensures low laser power density on the anterior segment is incorporated.A delivery unit to be attached to an existing slit lamp mounted on an existing motorized optical table. The delivery unit is then connected to the main laser device to comprise the photocoagulation system. NIDEK SL-1800 type is available.
The delivery unit is connected to the Green Laser Photocoagulator GYC-500 to com
The delivery unit is connected to the Green Laser Photocoagulator GYC-500 to comprise the photocoagulation system and to treat affected areas using a slit lamp. The photocoagulation system enables photocoagulation using a green laser beam (532 nm) while observing the patient’s eye with the slit lamp. In order to reduce damages to the ocular media, the optical system that ensures low laser power density on the anterior segment is incorporated.A delivery unit to be attached to an existing slit lamp mounted on an existing motorized optical table. The delivery unit is then connected to the main laser device to comprise the photocoagulation system. The ZEISS 30 SL type is availabe.
The delivery unit is connected to the Green Laser Photocoagulator GYC-500 to com
The delivery unit is connected to the Green Laser Photocoagulator GYC-500 to comprise the photocoagulation system and to treat affected areas using the SLIT LAMP SL-1800. The photocoagulation system enables photocoagulation using a green laser beam (532 nm) while observing the patient’s eye with the slit lamp. In order to reduce damages to the ocular media, the optical system that ensures low laser power density on the anterior segment is incorporated.A configuration in which the delivery unit comes together with a slit lamp mounted on a motorized optical table so that the photocoagulation system can be comprised by simply connecting to the main laser device.
The NIDEK Green Laser Photocoagulator GYC-500 is a laser photocoagulator for oph
The NIDEK Green Laser Photocoagulator GYC-500 is a laser photocoagulator for ophthalmology using a 532 nm diode-pumped solid-state laser (green laser beam) as the treatment beam source. The device incorporates a diode-pumped laser that enables efficient laser beam emission at 532 nm. For the laser beam delivery, various types of delivery units may be employed. This allows performance of transpupillary photocoagulation using a slit lamp or binocular indirect ophthalmoscope.
This delivery unit is connected to the NIDEK Multicolor Laser Photocoagulator, M
This delivery unit is connected to the NIDEK Multicolor Laser Photocoagulator, Model MC-500 main body to comprise the photocoagulation system and to treat affected areas using the slit lamp, NIDEK SL-1800/SL-1600. A scan slit lamp delivery unit that includes the SL-1800 comprises a photocoagulation system in connection with the MC-500 main body. A scan attachable delivery unit is mainly comprised of a photocoagulation unit and a protective filter unit. They are attached to the NIDEK SL-1800/SL-1600 slit lamp for lasers to comprise a scan slit lamp delivery unit. The comprised scan slit lamp delivery unit is connected to the MC-500 to comprise a photocoagulation system. A photocoagulation system allows the operator to select among photocoagulation with the red (647 nm), yellow (577 nm), or green (532 nm) laser beam and observation of the affected area with the slit lamp.
The scan attachable delivery unit is mainly comprised of a photocoagulation unit
The scan attachable delivery unit is mainly comprised of a photocoagulation unit and a protective filter unit. They are attached to the HAAG 900BQ slit lamp to comprise a scan slit lamp delivery unit. The comprised scan slit lamp delivery unit is connected to the NIDEK Multicolor Laser Photocoagulator,Model MC-500 main body to comprise the photocoagulation system. A photocoagulation system allows the operator to select among photocoagulation with the red (647 nm), yellow (577 nm), or green (532 nm) laser beam and observation of the affected area with the slit lamp.
The scan attachable delivery unit is mainly comprised of a photocoagulation unit
The scan attachable delivery unit is mainly comprised of a photocoagulation unit and a protective filter unit. They are attached to the Carl Zeiss Meditec SL 130 (Zeiss SL 130) to comprise a scan slit lamp delivery unit. The comprised scan slit lamp delivery unit is connected to the NIDEK Multicolor Laser Photocoagulator, Model MC-500 to comprise a photocoagulation system. The photocoagulation system allows the operator to select among photocoagulation with the red (647 nm), yellow (577 nm), or green (532 nm) laser beam and observation of the affected area with the slit lamp.
This delivery unit is connected to the NIDEK Multicolor Laser Photocoagulator, M
This delivery unit is connected to the NIDEK Multicolor Laser Photocoagulator, Model MC-500 main body to comprise the photocoagulation system and to treat affected areas using the slit lamp, NIDEK SL-1800/SL-1600. A scan attachable delivery unit is mainly comprised of a photocoagulation unit and a protective filter unit. They are attached to the NIDEK SL-1800/SL-1600 slit lamp for lasers to comprise a scan slit lamp delivery unit. The comprised scan slit lamp delivery unit is connected to the MC-500 to comprise a photocoagulation system. A photocoagulation system allows the operator to select among photocoagulation with the red (647 nm), yellow (577 nm), or green (532 nm) laser beam and observation of the affected area with the slit lamp.
The attachable delivery unit is attached to the Carl Zeiss 30SL/M (hereafter cal
The attachable delivery unit is attached to the Carl Zeiss 30SL/M (hereafter called Zeiss 30SL/M) to comprise a slit lamp delivery unit. The comprised scan slit lamp delivery unit is connected to the MC-500 to comprise a photocoagulation system. The photocoagulation system allows the operator to select among photocoagulation with the red (647 nm), yellow (577 nm), or green (532 nm) laser beam and observation of the affected area with the slit lamp. The attachable delivery unit is mainly comprised of a photocoagulation unit, a protective filter unit, and a split mirror illumination unit.
The attachable delivery unit is attached to the Carl Zeiss Meditec SL 130 (herea
The attachable delivery unit is attached to the Carl Zeiss Meditec SL 130 (hereafter called Zeiss SL 130) to comprise a slit lamp delivery unit. The comprised slit lamp delivery unit is connected to the NIDEK Multicolor Laser Photocoagulator, Model MC-500 to comprise a photocoagulation system.The photocoagulation system allows the operator to select among photocoagulation with the red (647 nm), yellow (577 nm), or green (532 nm) laser beam and observation of the affected area with the slit lamp. The attachable delivery unit is mainly comprised of a photocoagulation unit, a protective filter unit, and a split mirror illumination unit.
This delivery unit is connected to the NIDEK Multicolor Laser Photocoagulator, M
This delivery unit is connected to the NIDEK Multicolor Laser Photocoagulator, Model MC-500 main body to comprise the photocoagulation system and to treat affected areas using the slit lamp, NIDEK SL-1800/SL-1600. A slit lamp delivery unit that includes the SL-1800 comprises a photocoagulation system in connection with the MC-500 main body. A attachable delivery unit is mainly comprised of a photocoagulation unit and a protective filter unit.They are attached to the NIDEK SL-1800/SL-1600 slit lamp for lasers to comprise a slit lamp delivery unit. The comprised slit lamp delivery unit is connected to the MC-500 to comprise a photocoagulation system. A photocoagulation system allows the operator to select among photocoagulation with the red (647 nm), yellow (577 nm), or green (532 nm) laser beam and observation of the affected area with the slit lamp.
This delivery unit is connected to the NIDEK Multicolor Laser Photocoagulator, M
This delivery unit is connected to the NIDEK Multicolor Laser Photocoagulator, Model MC-500 main body, to comprise the photocoagulation system and to treat affected areas using the slit lamp, Carl Zeiss Meditec 30 SL/M. This delivery unit is mainly comprised of the delivery unit, protective filter unit, and the split illumination mirror unit. This photocoagulation system allows the operator to select among photocoagulation with the red (647 nm), yellow (577 nm), or green (532 nm) laser beam and observation of the affected area with the slit lamp. This delivery unit can be attached only to the Carl Zeiss Meditec 30 SL/M.
The Binocular Indirect Ophthalmoscope (hereafter called BIO) delivery unit is co
The Binocular Indirect Ophthalmoscope (hereafter called BIO) delivery unit is connected to the NIDEK Multicolor Laser Photocoagulator, Model MC-500 (main body), to comprise the photocoagulation system and applied to the treatment of the affected area using the BIO delivery unit (HEINE OMEGA 500). The comprised photocoagulation system allows the operator to select between thermal photocoagulation with the multicolor laser beam (treatment beam) (wavelength: green (532 nm), yellow (577 nm), and red (647nm)) and observation with the BIO.
This combination delivery unit is need to comprise the combination system which
This combination delivery unit is need to comprise the combination system which enables radiation of the red, yellow, or green laser beam or YAG laser beam while performing the observation with the slit lamp of the YAG laser system. This delivery unit is mounted on the slit lamp of the YAG laser system and connected to the NIDEK Multicolor Laser Photocoagulator MC-500 using the MC connecting cable and fiber optic cable. The combination system allows selection between photocoagulation with the red (647 nm), yellow (577 nm), or green (532 nm) laser beam and YAG laser beam (wavelength: 1064 nm (pulse laser)). In addition, they are selected easily by changing the optical path of the laser beam with the laser selectlever, and various kinds of safety devices are integrated into the system to make sure that only the selected laser beam is radiated. This combination delivery unit is the only delivery unit that can be connected both to the NIDEK Multicolor Laser Photocoagulator MC-500 and the NIDEK Ophthalmic YAG Laser System YC-1800.
This delivery unit is connected to the NIDEK Multicolor Laser Photocoagulator, M
This delivery unit is connected to the NIDEK Multicolor Laser Photocoagulator, Model MC-500 main body to comprise the photocoagulation system and to treat affected areas using the slit lamp, NIDEK SL-1800. A slit lamp delivery unit that includes the SL-1800 comprises a photocoagulation system in connection with the MC-500 main body.
The NIDEK Multicolor Laser Photocoagulator MC-500 is a laser photocoagulator for
The NIDEK Multicolor Laser Photocoagulator MC-500 is a laser photocoagulator for ophthalmology with the light source of wavelengths 647, 577, and 532 nm. As the conventional laser photocoagulators, the MC-500 can be used for retinal photocoagulation for treatment of ocular fundus diseases like diabetic retinopathy, age-related macular degeneration, retinopathy of prematurity, and retinal detachment, or for laser iridotomy and laser trabeculoplasty for treatment of glaucoma. The device incorporates two types of lasers (diode-pumped solid state laser and laser diode) which enable efficient obtainment of laser beam oscillation of each wavelength. As the conventional device, various types of laser delivery units can be used. Therefore, transpupillary photocoagulation can be performed using various delivery units such as slit lamps and binocular indirect ophthalmoscope.