Data Acquisition Service for NAVIS-EX (hereafter referred to as DAS) acquires da
Data Acquisition Service for NAVIS-EX (hereafter referred to as DAS) acquires data from measurement devices and transfers it to NAVIS-EX.In addition to acquisition of measurement data, DAS registers patients newly registered with the ALScan/CEM-530 to NAVIS-EX.
The AL-Scan Viewer for NAVIS-EX software (hereafter referred to as AL-Scan Viewe
The AL-Scan Viewer for NAVIS-EX software (hereafter referred to as AL-Scan Viewer) is used to handle the AL-Scan data within NAVIS-EX. This function is added to the computer as a plug-in for NAVISEX. The measured value data and waveform can be displayed, the IOL power can be calculated, andthe toric lens assist data can be created. The AL-Scan data is imported to NAVIS-EX using separate software, Data Acquisition Service.
It is used to deliver the laser beam from the main laser device into the eye. Th
It is used to deliver the laser beam from the main laser device into the eye. The sterilized endophoto probe comes already sterilized at the factory and is disposable. Sterilized endophoto probes are available in a variety of tip shapes and diameters.
It is used to deliver the laser beam from the main laser device into the eye. Th
It is used to deliver the laser beam from the main laser device into the eye. The sterilized endophoto probe comes already sterilized at the factory and is disposable. Sterilized endophoto probes are available in a variety of tip shapes and diameters.
It is used to deliver the laser beam from the main laser device into the eye. Th
It is used to deliver the laser beam from the main laser device into the eye. The sterilized endophoto probe comes already sterilized at the factory and is disposable. Sterilized endophoto probes are available in a variety of tip shapes and diameters.
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 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 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.
The NIDEK refractive power / corneal analyzer OPD-Scan III (hereafter referred t
The NIDEK refractive power / corneal analyzer OPD-Scan III (hereafter referred to as “the device”) measures objective refractive error, corneal curvature, shape of the anterior corneal surface (topography), and pupil size of the patient’s eye, and analyzes wavefront aberration. The measured refractive error can be used for reference when prescribing corrective lenses such as glasses or contact lenses.
The F-10 captures and records the confocal images of fundus by laser scanning us
The F-10 captures and records the confocal images of fundus by laser scanning using a selection of laser colors: IR (infrared), blue, green, and red. Indocyanine green (ICG) angiography and fluorescein angiography (FAG) are also possible.
The NAVIS-EX image filing software is software that acquires data from the follo
The NAVIS-EX image filing software is software that acquires data from the following NIDEK fundus photography devices and files it for easy transfer to external systems. NAVIS-EX is equipped with functions for image acquiring, image display, image drawing, image processing, image measurement, panorama image creation, stereo image observation, composite image creation, and Follow-Up. (According to the image, available functions are limited.) Image data can be transferred by network or e-mail. NAVIS-EX can construct a network among multiple terminals and refers to and edits data from the clientPC.
NIDEK EXCIMER LASER CORNEAL SURGERY SYSTEM, model EC-5000CXIII, is an ophthalmic
NIDEK EXCIMER LASER CORNEAL SURGERY SYSTEM, model EC-5000CXIII, is an ophthalmic laser system used for correction of corneal refraction and ablation of the corneal surface. The system is composed of a laser generator which produces an excimer laser radiation of wavelength193nm, a beam delivery unit, an optical system for observation, a gas system, and a computer for system control. The system is designed to be user friendly for easy and safe operation with NIDEK’s advanced optoelectronic technology.
The TS-310 is a space-saving automated refraction system that uses a combination
The TS-310 is a space-saving automated refraction system that uses a combination of the refractor head of the RT-3100 and a control box.• With the high precision LCD, visual acuity of 5 m as well as near visual acuity of 40 cm can be measured with the same accuracy as a standard refraction using actual distances.• The objective data measured by a NIDEK auto refractometer and the lensometry data measured by a NIDEK lensmeter can be imported and used in this device.
HKN,HOX
Refractor, Manual, Non-Powered, Including Phoropter,Chart, Visual Acuity
The Final Fit software receives the measured data from the Refractive Power/Corn
The Final Fit software receives the measured data from the Refractive Power/Corneal Analyzer OPD-Scan Model ARK-10000 via floppy disk etc. Then the Final Fit software performs a simulation of postoperative corneal shape and generates shot data using the imported data that was measured by the ARK-10000 and amounts of correction that are entered. The Final Fit software has two major functions: 1.Generating shot data to be used with the EC-5000 based on the measured data of the ARK-10000 2.Comparing postoperative data measured by ARK-10000 with the preoperative or target data (Simulated data just before generating shot data)
It is used to deliver the laser beam from the main laser device into the eye. Th
It is used to deliver the laser beam from the main laser device into the eye. The sterilized endophoto probe comes already sterilized at the factory and is disposable. Sterilized endophoto probes are available in a variety of tip shapes and diameters.
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.
This Endophotocoagulation Delivery Unit is used for endophotocoagulation. The de
This Endophotocoagulation Delivery Unit is used for endophotocoagulation. The delivery unit is comprised of an endophoto probe, a relay adapter, a protective filter unit, and a carrying case. The photocoagulation laser system can be easily formed by connecting the endophoto probe to theGREEN LASER PHOTOCOAGULATOR Model GYC-1000 main body and connecting the protective filter to the GYC-1000 main body and the surgical microscope. This photocoagulation laser system enables endophotocoagulation with the green laser (wavelength: 532 nm) while observing theaffected area through the surgical microscope. This delivery unit is intended to be used with the protective filter unit attached to surgical microscopes. NIDEK provides following four types of delivery units according to the types of protective filters and the surgical microscopes*1.Before use, check the type of your surgical microscope and delivery unit.
AUTO REF/KERATO/TONOMETER Model TONOREF II is designed to singly perform objecti
AUTO REF/KERATO/TONOMETER Model TONOREF II is designed to singly perform objective refraction, corneal shape measurement, and non-contact tonometry measurement by incorporating a standard auto ref/keratometer and non-contact tonometer into one unit. The objective refraction function measures spherical powers, cylindrical powers and cylinder axis. The corneal shape measurement function measures the radius of corneal curvature (corneal refractive powers), the direction of the steepest meridian, and the amount of corneal astigmatism. The non-contact tonometry function measures the intraocular pressure without contacting the eye.
The Final Fit software receives the measured data from the Refractive Power/Corn
The Final Fit software receives the measured data from the Refractive Power/Corneal Analyzer OPD-Scan Model ARK-10000 via floppy disk etc. Then the Final Fit software performs a simulation of postoperative corneal shape and generates shot data using the imported data that was measured by the ARK-10000 and amounts of correction that are entered. The Final Fit software has two major functions: 1.Generating shot data to be used with the EC-5000 based on the measured data of the ARK-10000 2.Comparing postoperative data measured by ARK-10000 with the preoperative or target data (Simulated data just before generating shot data)
The Final Fit software receives the measured data from the Refractive Power/Corn
The Final Fit software receives the measured data from the Refractive Power/Corneal Analyzer OPD-Scan Model ARK-10000 via floppy disk etc. Then the Final Fit software performs a simulation of postoperative corneal shape and generates shot data using the imported data that was measured by the ARK-10000 and amounts of correction that are entered. The Final Fit software has two major functions: 1.Generating shot data to be used with the EC-5000 based on the measured data of the ARK-10000 2.Comparing postoperative data measured by ARK-10000 with the preoperative or target data (Simulated data just before generating shot data)
The Nidek CHART PROJECTOR CP-9 is a chart presenting device that can achieve ref
The Nidek CHART PROJECTOR CP-9 is a chart presenting device that can achieve refraction at a distance of 2.9 m to 6.1 m (standard 5 m).The main unit is operated by a wireless remote control or the control box on a motorized refractor (RT).
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.
DS-10G is a digital hand-held camera used to record digital photographs and vide
DS-10G is a digital hand-held camera used to record digital photographs and video of the human body.
NIDEK DS-20 is a digital hand-held eye-fundus camera used to record digital phot
NIDEK DS-20 is a digital hand-held eye-fundus camera used to record digital photographs and video of fundus (including retina, macula and optic disc) of the human eye and surrounding area.
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 NIDEK SLIT LAMP SL-2000 is used to magnify the eyeball, eyelid, and eyelash
The NIDEK SLIT LAMP SL-2000 is used to magnify the eyeball, eyelid, and eyelash of patients for observation, using slit illumination light.
DS-10E is a digital hand-held otoscope used to record digital photographs and vi
DS-10E is a digital hand-held otoscope used to record digital photographs and video of the human ear’s canal and tympanic membrane.
NIDEK DS-10F is a digital hand-held eye-fundus camera used to record digital pho
NIDEK DS-10F is a digital hand-held eye-fundus camera used to record digital photographs and video of fundus (including retina, macula and optic disc) of the human eye and surrounding area.
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 assembly system (control unit & DS-10EA Adapter & existing endoscope in the
The assembly system (control unit & DS-10EA Adapter & existing endoscope in the market) can be used to record digital photographs and video ofthe body.
DS-10EA Adapter is designed to connect the control unit of DS-10 and the existin
DS-10EA Adapter is designed to connect the control unit of DS-10 and the existing endoscope in the market. The assembly system (control unit & DS-10EA Adapter & existing endoscope in the market) can be used to record digital photographs and video of the body.
DS-10D is a digital hand-held dermatoscope used to record digital photographs an
DS-10D is a digital hand-held dermatoscope used to record digital photographs and video of the human skin.
DS-10A is a digital hand-held anterior scope used to record digital photographs
DS-10A is a digital hand-held anterior scope used to record digital photographs and video of anterior area of the human eye and surrounding area.
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. 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 PD meter model PM-700 is a pupillary distance meter improved with a built-in
The PD meter model PM-700 is a pupillary distance meter improved with a built-in computer and LCD digital display.
The NON CONTACT TONOMETER Model NT-530 is designed for non-contact tonometry mea
The NON CONTACT TONOMETER Model NT-530 is designed for non-contact tonometry measurement. The non-contact tonometry function measures the intraocular pressure without contacting the eye. Tonometry is performed for screening of glaucoma, and for preoperative examination and postoperativecare in ophthalmology.
The NON CONTACT TONOMETER Model NT-510 is designed for non-contact tonometry mea
The NON CONTACT TONOMETER Model NT-510 is designed for non-contact tonometry measurement. The non-contact tonometry function measures the intraocular pressure without contacting the eye. Tonometry is performed for screening of glaucoma, and for preoperative examination and postoperativecare in ophthalmology.
This unit is connected to the NIDEK GREEN LASER PHOTOCOAGULATOR, Model GYC- 1000
This unit is connected to the NIDEK GREEN LASER PHOTOCOAGULATOR, Model GYC- 1000 (main body) to comprise the photocoagulation system and applied to the treatment of the affected area using the B.I.O. delivery unit (HEINE OMEGA 500). The comprised photocoagulation system makes it possible to switch between photocoagulation with the green laser beam (wavelength: 532 nm) and observation with the B.I.O.
This delivery unit is connected to the NIDEK GREEN LASER PHOTOCOAGULATOR, Model
This delivery unit is connected to the NIDEK GREEN LASER PHOTOCOAGULATOR, Model GYC-1000 (main body) to comprise the photocoagulation system and to treat affected areas using the slit lamp, NIDEK SL-1800. The integrated delivery unit which incorporates the SL-1800 comprises the photocoagulation system in connection with the GYC-1000 main body. The attachable delivery unit is mainly the photocoagulation unit and the protective filter unit. They are attached to your slit lamp (NIDEK SL-1800) to comprise the integrated delivery unit. The comprisedintegrated delivery is connected to the GYC-1000 to comprise the photocoagulation system. This photocoagulation system allows the operator to select between photocoagulation with the green laser beam (wavelength: 532 nm) 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 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.
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.
The NIDEK Chart Projector CP-770 is a test chart presenting device which can ach
The NIDEK Chart Projector CP-770 is a test chart presenting device which can achieve refraction distance from 2.9 m to 6.1 m. The device is controlled by a wireless remote control or a control box on the refractor (RT).The CP-770 features the following:• Equipped with 33 types of charts (27 types for Type UK) including various kinds of binocular charts• Program function that allows chart presentation with the touch of a button• Versatile masking function that can even offer the display of even a single character• Chart brightness adjustability to the installation conditions• Switchable function between display and non-display of visual acuity of the chart• A long-life LED for the illumination light source
It is used to deliver the laser beam from the main laser device into the eye. Th
It is used to deliver the laser beam from the main laser device into the eye. The sterilized endophoto probe comes already sterilized at the factory and is disposable. Sterilized endophoto probes are available in a variety of tip shapes and diameters.
NIDEK DS-20 is a digital hand-held eye-fundus camera used to record digital phot
NIDEK DS-20 is a digital hand-held eye-fundus camera used to record digital photographs and video of fundus (including retina, macula and optic disc) of the human eye and surrounding area. DS-20 consists of control unit and optical lens DS-20F (Digital Eye Fundus Camera).
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 NIDEK Optical Coherence Tomography RS-3000 Advance is an ophthalmic camera t
The NIDEK Optical Coherence Tomography RS-3000 Advance is an ophthalmic camera that allows non-invasive and non-contact observation of the shape of the fundus or retina. Fundus surface images (hereafter referred to as SLO image) are captured with the confocal laser scanning using a near-infrared light source with a wavelength of 785 nm. Cross-sectional images of the retina (hereafter referred to as OCT image) are captured with the optical interferometer using an infrared light source with a wavelength of 880 nm. With the images captured using the RS-3000 Advance, the shape and structure of the fundus or retina can be observed, and diseases can be observed. This system is comprised of the main body for capturing images, a computer (hereafter called PC) for storing and analyzing captured images, PC monitor, and an isolation transformer.In addition, the image filing software NAVIS-EX (hereafter referred to as NAVIS-EX) offers the following features:• Image analysis functions such as 3D/map color display or retinal thickness analysis• Networking for data review or analysis on PCs in separate locations
The GREEN LASER PHOTOCOAGULATOR SYSTEM GYC-1000 is an ophthalmological photocoag
The GREEN LASER PHOTOCOAGULATOR SYSTEM GYC-1000 is an ophthalmological photocoagulation system using a solid state laser (green laser beam) with a wavelength of 532nm. Like conventional laser photocoagulation systems, this system is used in ophthalmic surgical procedures, including retinal and macular photocoagulation, iridotomy and trabeculoplasty.Since the GYC-1000 uses a diode laser as its pumping light source, the efficient oscillation of the 532nm laser beam can be obtained. As the GYC-1000 can be used with various kinds of delivery units, the system can be applied to transpupillary photocoagulation using the slit lamp or indirect ophthalmoscope, and to intraocular photocoagulation using the endophotocoagulation probe.
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.
The Norlase LION Photocoagulator is intended to be used in ophthalmic laser proc
The Norlase LION Photocoagulator is intended to be used in ophthalmic laser procedures including retinal and macular photocoagulation, iridotomy, and trabeculoplasty
The Norlase Leaf Photocoagulator is intended to be used in ophthalmic laser proc
The Norlase Leaf Photocoagulator is intended to be used in ophthalmic laser procedures including retinal and macular photocoagulation, iridotomy, and trabeculoplasty
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.