The Phoenix ICON GO is a portable, hand held, ophthalmic imaging device intended
The Phoenix ICON GO is a portable, hand held, ophthalmic imaging device intended for general opthalmic imaging of the retina, cornea, and external structures of the eye.
The ICON is a wide-field high-resolution retinal imaging system optimized for pe
The ICON is a wide-field high-resolution retinal imaging system optimized for pediatric patients to age 18. The image is captured using a hand-held corneal contact camera and is displayed in real-time. The camera contacts the cornea to image the retina and is connected to a cart with the power supplies, controls, computer and display unit. The light source for bright field imaging is a white-light LED located in the hand piece and the hand piece is connected to a mobile through a USB cable and cables for focus motor and LED light. Software in the computer performs library functions and can capture either still or video data. Data can be exported with or without patient information.
PanoCam™ SOLO Ophthalmic Imaging System is intended for general ophthalmic imagi
PanoCam™ SOLO Ophthalmic Imaging System is intended for general ophthalmic imaging and disease inspection. It utilizes the super-resolution imaging technology and provides True-color™ high-resolution images of the fundus, cornea and exterior of the eyes with a field of view of up to130 degrees. The SOLO system consists of the wireless Independent Remote Imaging Station (IRIS™), the workstation and the optional wireless footswitch. The IRIS™ is the handheld imaging unit with user interfaces which allow operators to login, edit patient information, control the image capture process, preview and review the captured images. With its own battery, it is light-weight and compact, highly portable and easy to use. It allows operators to image patients at multiple locations within health care facilities. The workstation includes a computer with removable storage media and database, HDMI, USB and network ports, and optional large screen monitor/keyboard/mouse, as well as a built-in battery recharging station. It allows users to recharge the IRIS™ hand piece, review acquired images, edit patient information, generate reports, and print the images with an external printer. The footswitch provides an alternative means for controlling image acquisition. The software for the SOLO system is DICOM compliant, allowing data and images to be transferred easily and securely via internet.
PanoCam™ LT Wide-field Digital Imaging System is developed using the state-of-th
PanoCam™ LT Wide-field Digital Imaging System is developed using the state-of-the art and proprietary technologies for imaging the fundus, cornea and exterior of the eyes. It provides True-color™ high-resolution images of the eyes of the patients regardless of the retinal pigment color and with a field of view of up to 130 degrees. PanoCam™ LT is a fully integrated system consisting of the Image Capturing Unit™, Computer Console, and Integrated Color Printer. It is highly mobile, allowing convenient image capture by the untethered Image Capturing Unit™ hand piece in multiple hospital rooms and exam lanes. The software is DICOM compliant, allowing data and images to be transferred easily and securely using wireless connections. PanoCam™ LT is ideally suited as a mobile device for general ophthalmic imaging and eye disease inspection.
PanoCam™ PRO Ophthalmic Digital Imaging System is developed using the state-of-t
PanoCam™ PRO Ophthalmic Digital Imaging System is developed using the state-of-the art and proprietary technologies for imaging the fundus, cornea and exterior of the eyes. The system consists of the standard lens and the optional high magnification lens which capture True-color™ high-resolution images of the eyes regardless of the retinal pigment color and with a field of view of up to 130 degrees and approximately 80 degrees, respectively. PanoCam™ PRO is a fully integrated system consisting of the wireless IRIS™ (Independent Remote Imaging Station) and the Imaging System Console on a cart. It is highly mobile, as the cart can be easily move around within hospital facilities and the untethered and light weight IRIS™ hand piece allows convenient image capture in multiple locations away from the console. The software is DICOM compliant, allowing data and images to be transferred easily and securely using wireless connections. PanoCam™ PRO is user friendly and can be operated by a single individual with proper training. The system is ideally suited as a diagnostic and observation instrument for ophthalmologists in clinics and surgical rooms. It can be used for general ophthalmic imaging and eye disease inspection.
PanoCam™ PRO Ophthalmic Digital Imaging System is developed using the state-of-t
PanoCam™ PRO Ophthalmic Digital Imaging System is developed using the state-of-the art and proprietary technologies for imaging the fundus, cornea and exterior of the eyes. The system consists of the standard lens and the optional high magnification lens which capture True-color™ high-resolution images of the eyes regardless of the retinal pigment color and with a field of view of up to 130 degrees and approximately 80 degrees, respectively. PanoCam™ PRO is a fully integrated system consisting of the wireless IRIS™ (Independent Remote Imaging Station) and the Imaging System Console on a cart. It is highly mobile, as the cart can be easily move around within hospital facilities and the untethered and light weight IRIS™ hand piece allows convenient image capture in multiple locations away from the console. The software is DICOM compliant, allowing data and images to be transferred easily and securely using wireless connections. PanoCam™ PRO is user friendly and can be operated by a single individual with proper training. The system is ideally suited as a diagnostic and observation instrument for ophthalmologists in clinics and surgical rooms. It can be used for general ophthalmic imaging and eye disease inspection.
PanoCam™ LT Wide-field Digital Imaging System is developed using the state-of-th
PanoCam™ LT Wide-field Digital Imaging System is developed using the state-of-the art and proprietary technologies for imaging the fundus, cornea and exterior of the eyes. It provides True-color™ high-resolution images of the eyes of the patients regardless of the retinal pigment color and with a field of view of up to 130 degrees. PanoCam™ LT is a fully integrated system consisting of the Image Capturing Unit™, Computer Console, and Integrated Color Printer. It is highly mobile, allowing convenient image capture by the untethered Image Capturing Unit™ hand piece in multiple hospital rooms and exam lanes. The software is DICOM compliant, allowing data and images to be transferred easily and securely using wireless connections. PanoCam™ LT is ideally suited as a mobile device for general ophthalmic imaging and eye disease inspection.
Welch Allyn Power Supply Set for RetinaVue 700 Imager; 100-240 V, 50-60 Hz AC, I
Welch Allyn Power Supply Set for RetinaVue 700 Imager; 100-240 V, 50-60 Hz AC, IEC Plug Type-B, -C, -G, and -I
Welch Allyn 7.2 V Lithium-Ion Battery for RetinaVue 700 Imager, 3200 mAh (Standa
Welch Allyn 7.2 V Lithium-Ion Battery for RetinaVue 700 Imager, 3200 mAh (Standard Capacity)
Welch Allyn Handheld RetinaVue 100 Imager with Charging Dock, Reusable Eye Cup,
Welch Allyn Handheld RetinaVue 100 Imager with Charging Dock, Reusable Eye Cup, USB Cable, and 1 Year Partners in Care Comprehensive Program; Lithium-Ion 3.6V Battery. Note: Diagnostic interpretation services are a necessary component of the RetinaVue solution and are contracted directly with RetinaVue P.C.
Topcon TRC-NW400 Non-Mydriatic Retinal Desktop Camera, use with RetinaVue Netwo
Topcon TRC-NW400 Non-Mydriatic Retinal Desktop Camera, use with RetinaVue Network. Note: Diagnostic interpretation services are a necessary component of the RetinaVue solution and are contracted directly with RetinaVue P.C.
The device WRI-1 is an ophthalmic imaging device and intended to be used by heal
The device WRI-1 is an ophthalmic imaging device and intended to be used by health care professionals to capture, display, and store color and monochrome images of the retina without contact to the patient eye.
3nethra classic 6.4 is a non-mydriatic device for imaging the posterior and ante
3nethra classic 6.4 is a non-mydriatic device for imaging the posterior and anterior surfaces of human eye. It assists clinicians in the evaluation and documentation of visual health.
3nethra classic is a compact, portable and easy-to-use ophthalmic camera that su
3nethra classic is a compact, portable and easy-to-use ophthalmic camera that supports non-mydriatic imaging mode. It is designed to acquire, display and store images of the posterior and anterior surfaces of the human eye
3nethra classic is a compact, portable and easy-to-use ophthalmic camera that su
3nethra classic is a compact, portable and easy-to-use ophthalmic camera that supports non-mydriatic imaging mode. It is designed to acquire, display and store images of the posterior and anterior surfaces of the human eye
3nethra classic HD is an ophthalmic camera intended to capture and document digi
3nethra classic HD is an ophthalmic camera intended to capture and document digital images of the human eye.
3nethra classic HD is an ophthalmic camera intended to capture and document digi
3nethra classic HD is an ophthalmic camera intended to capture and document digital images of the human eye.
The 3nethra neo P1000 is a mydriatic digital imaging camera used for capturing a
The 3nethra neo P1000 is a mydriatic digital imaging camera used for capturing and storing images of the human retina. The device acquires only digital photographs of the eye and does not provide any analysis or diagnosis. The 3nethra neo has a hand-held probe, a control unit, and a foot pedal. Components such as warm white LEDs, lenses, aperture, sensitive photodetector arrays (CMOS sensor array) are housed in the probe. The light emitted is within the safe limits of group 1 radiant exposure specifications for ultraviolet, visible, and infrared radiation under all light energy conditions, as defined in the 15004-2 (and ANSI Z80.36-2016) Light Hazard Protection standards for Ophthalmic Instruments. 3nethra neo includes an application software that facilitates the capture, storage, and retrieval of images. Illumination and focus are adjusted using a foot pedal.
The 3nethra neo P1000 is a mydriatic digital imaging camera used for capturing a
The 3nethra neo P1000 is a mydriatic digital imaging camera used for capturing and storing images of the human retina. The device acquires only digital photographs of the eye and does not provide any analysis or diagnosis. The 3nethra neo has a hand-held probe, a control unit, and a foot pedal. Components such as warm white LEDs, lenses, aperture, sensitive photodetector arrays (CMOS sensor array) are housed in the probe. The light emitted is within the safe limits of group 1 radiant exposure specifications for ultraviolet, visible, and infrared radiation under all light energy conditions, as defined in the 15004-2 (and ANSI Z80.36-2016) Light Hazard Protection standards for Ophthalmic Instruments. 3nethra neo includes an application software that facilitates the capture, storage, and retrieval of images. Illumination and focus are adjusted using a foot pedal.
3nethra neo is a contact device to capture digital color images of the retina of
3nethra neo is a contact device to capture digital color images of the retina of infants having less than 55 weeks of Post Menstrual Age (PMA), while their eyes are dilated using mydriatic drops under clinical control.
3nethra neo is a contact device to capture digital color images of the retina of
3nethra neo is a contact device to capture digital color images of the retina of infants having less than 55 weeks of Post Menstrual Age (PMA), while their eyes are dilated using mydriatic drops under clinical control.
3nethra classic camera is a non-mydriatic digital imaging device. It is designed
3nethra classic camera is a non-mydriatic digital imaging device. It is designed to acquire, display, store and transmit images of the posterior and anterior surfaces of the human eye.
Remidio FOP application along with FOP NM-10 hardware is intended for use in cap
Remidio FOP application along with FOP NM-10 hardware is intended for use in capturing & storing images of the retina and surrounding area of eye, with or without the use of Mydriatic agent and presenting the data to clinicians for evaluation or diagnosis. Light from the device is shown into the patient eye & the camera of a smartphone is used to capture images of the eye.
Anterior Imaging Module (AIM) is intended for screening, capture and storage of
Anterior Imaging Module (AIM) is intended for screening, capture and storage of images of the Anterior part of eye and surrounding area, AIM camera is designed to be attached to any existing 3 step or 5 step slit lamps for true colour and monochrome imaging in visible spectrum of light. The camera of a smart phone is used to capture images of the eye. The device can be used at any time & over & over again by a trained user.
FOP NM-10 is indicated for screening, capture and storage of images of the eye a
FOP NM-10 is indicated for screening, capture and storage of images of the eye and surrounding area, FOP NM 10 camera is been designed for true colour and monochrome imaging in visible spectrum of light and consists of an incoherent light source. Light from the device is shown into the patient eye & the camera of a smart phone is used to capture images of the eye.