Frey Automated Kinetic and Static Perimeter with Embedded PC with Mount, without Monitor Open Box - AP-300
AP-300 visual sensitivity testing is a modern and innovative automated perimetry that meets global standards for excellence in the testing, diagnosis and management of eye and neurological disease. It reliably delivers visual field testing for your clinical practice and excellence in patient care. It is an essential part of the diagnostic toolbox in glaucoma, retina and neuro-ophthalmic practice. The AP-300 is an advanced platform with patient-centered functionality. This single platform combines the latest in Kinetic and Static Perimetry, including white perimetry, SWAP and Flicker perimetry for early glaucoma detection, plus real Goldman kinetic perimetry. This spectrum of functionality offers tailored personalized testing for the patient and the clinician.
* The monitor is not included
*SOLD AS IS
₦19,545,570.80
₦13,375,162.50
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Patient focused – improved patient comfort Visual field testing is a joint enterprise between clinician and patient. Visual field testing, otherwise known as perimetry, is a team effort. A patient who is well supported, and where every effort is made to maximize comfort, improves reliability in visual field testing. This increased reliability in visual field testing translates to greater accuracy and efficacy in diagnosis and management for the clinician. In turn, this improves patient outcomes and satisfaction throughout the patient journey, which may be decades long. Frey has delivered improved patient comfort with a chinrest design focused on comfort and stability. The patient’s head is supported throughout the examination. The AP-300 has improved ventilation for the patient, which reduces stress and improves patient comfort. |
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Accurate Results The stimulator bowl provides a high density of concentric points. The enhanced stimulus control combines with the automated eye tracking, providing repeatable accurate examination of the patient’s visual field loss. |
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Rapid Testing Times Efficient testing is reliably delivered with screening and fast threshold strategies and enhanced fixation methods. Patients with advanced visual field loss are supported with the use of pattern calibration and neurological test methods. Modes of Operation Static Test Mode The AP-300 emits motionless stimuli of variable luminance in order to determine a patient's threshold. There is a dim light in a specific location, and if the patient cannot see it, the intensity of the stimulus increases. The patient’s responses are then compared to those from an individual in a control group who is of an equivalent age. The exam is defined by Test and Strategy, all stimulus colors and sizes are available for the static tests, and the results are more reliable and of a higher quality. Kinetic Test Mode A dedicated test strategy The test involves a stimulus with a fixed size, intensity, and speed that is moving from the periphery to the centre of the measurement bowl. The test is repeated with different stimulus sizes and intensities in order to define unique isotopes. |
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Static Test Parameters Two new parameters can be configured:
It is important to select the appropriate test strategy and we test almost twice as many points than our competitors for the same field of vision. In addition, the AP-300 provides a fast scan and smart threshold that further improves testing accuracy. |
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Reviewing Results - Static Perimetry The "Results" screen is divided into functional group boxes. The detailed descriptions of the group boxes are provided in the following section. |
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Cross Section View This is a graphic map that divides the visual field into two parts that are represented by the colors red and blue. The study facilitates the selection of the angle of cut and it allows sensitivity to be measured in decibels in all directions of the visual field up to 60˚. |
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Kinetic Test Parameters Kinetic testing is selected by the Kinetic strategy.
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Kinetic Test - Results The Kinetic test results are presented in the form of isotopes, with each one in different colour. Each isotope links points of the patient’s response to the stimulus entering the sensitive area. |
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Intuitive Software The design of the AP-300 is both patient and clinician focused. Frey perimeter software is intuitive and user friendly, facilitating operation by a range of qualified staff in an efficient and effective manner. The interactive menus provide comprehensive information and efficient operation, reducing the time spent preparing, reviewing and printing patient exams. This platform supports clinical excellence with increased patient flow and efficacy.
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Patient Image Database The perimeter application can be used as an image database, for example, for fundus images. DICOM fundus files can also be imported automatically. |
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Targeted Perimetry Perimetry examination results can be presented over a fundus image. Furthermore, the orientation of the stimulus position is calculated using fovea and blind spot position, but each of these have to be marked by the operator. |
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Fundus Overlay Function This is a unique approach that allows selective retinal areas to be tested. The stimulus locations are set based on the patient’s fundus image, while the area and density of the test points are set manually. Fundus Overlay View The Automated Perimeter software allows users to overlay the exam results with the fundus images that are taken by the fundus camera. In order to get the overlay, after selecting the option “Fundus Overlay”, load the fundus image from the file or select the image from the ones that have already been saved. The next step is the selection of two orientation points, which are used for the calculation of positions for the exam results. These points are a fovea and a blind spot. Press the button marked “Fovea,” and click the fovea position on the fundus image. Next, press the button marked “blind spot,” and click the blind spot position on the fundus image. The exam results are now displayed on the fundus image. The overlay can then be saved by using option “Save overlay”. |
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Dual Main Screen Option This resource allows two main screen options, it is simplified for use in the test room by the operator, it allows custom test selection, it is a standardized test procedure, and it has a complete interface for reception areas or doctors’ rooms. |
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Simple Menu Customization The simple menu is fully customizable and all of the test parameters can be configured according to the client's request. The clinical workflow is also improved as it allows for the standardization of the test procedure. Furthermore, the software is very easy to use by the operator with reduced requirements. |
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Fixation Control AP-300 Automated Perimeter has two mechanisms of fixation control. Heijl-Krakau Method This is a classic method that checks the blind spot position by assessing a total of 11 points randomly to ensure that the position of the eye is correct. Method of Eye Position The AP-300 facilitates fixation analysis with the use of a video camera that allows the pupil to be constantly monitored. The advantage of this method is that it rejects the patient's responses if there is no fixation. |
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Reliability Reliable automated fixation control supports the patient and clinician with a built-in camera and automated eye tracking. This increases the repeatability and reliability of the data capture. Automatic Pupil Detection If the automatic method of fixation monitoring is used, the software will detect the current position of the eye. There is no need to keep the eye in the center of the image during the test, although it is still important that the patient looks into the fixation point all the times. The eye positioning control feature can be obtained from the screen, from the joystick, or through the software. In addition, the chinrest can be moved up – down and right - left. |
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Advanced Techniques Previously, glaucoma was not diagnosed until the disease was in its advanced stage. Currently, we have new technologies that offer early detection of this condition. The Blue Perimeter Yellow (B-Y) Blue perimeter yellow, also known as automated short wavelength perimetry (SWAP), demonstrates an enhanced ability to detect early visual field loss in comparison to standard white-on-white (W-W) perimetry. Flicker (Critical Fusion Blink) Glaucoma affects sensitivity to blinking lights. FFC analyzes a patient's ability to see alterations of light to dark stimuli in different locations of the visual field. It also measures early neuronal suffering, thereby detecting glaucoma in its early stages. |
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Single Printout AP-300 utilizes the simplest form of print, which contains one big graphical map representing the exam results. This will be printed in the same form that is chosen on the "Results" screen in "Single mode". When "Single mode" is not selected, the dB level map in grey scale will be printed by default. The advantage of the "Single printout" option is the very high readability of the print. |
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Multiple Printout Options Users have the option to use 1 out of 7 available printout standards. HFA type printouts are predefined and static perimetry standard printouts are also available (FREY, Medmont, etc.). The printouts are in grey scale and in color. |
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Multiple Result Review Options The AP-300 is equipped with a powerful set of data presentation modes. |
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Pattern Calibration The AP-300 was designed to reduce test duration for patients with significant loss of vision field. Earlier examination can be used as the starting point of a new test. "Pattern" examination defines the starting point for a new examination. In addition, blind stimulus locations from "pattern" examination are tested with the highest stimulus intensity. All test parameters are identical to the reference exam and the parameters are selected during the start of a new test in the “Test parameters window”. |
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Pattern Multiple Driver Test Options 5 different driver test programs Visual monitoring of both patient’s eyes |
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LED LIGHT SOURCE
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Self Diagnostic Before and after each test, the AP-300 performs a self-diagnostic cycles in which:
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Reliability Reliable automated fixation control supports the patient and clinician with a built-in camera and automated eye tracking. This increases the repeatability and reliability of the data capture. Regression Analysis – Static Perimetry The AP software is equipped with a set of options that allow a user to observe changes in a patient’s vision in many different ways. The first possibility is the simple comparison of results, which was described in the previous section. A second possibility that is much more advanced, is regression analysis which helps the user observe the regression or progression of a patient’s vision over time. At least two patients’ exam results are needed to perform regression analysis. The exams should be conducted using the same strategy, but on different days. The patient’s name, age, and the eye that was tested will be listed on the left top part of the screen. A combo box located on the middle top portion of the screen lets the user choose one of five parameters that will be used to calculate and display the regression graph. The following parameters can be selected:
The combo box is available when ‘Single mode’ is selected (on the right bottom of the screen). ‘Combo mode’ displays all five modes of the regression graphs together. |
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Test Editing This function allows a user to define a custom test field. It is especially convenient for cases where only a part of the patient’s visual field should be examined, for example, the area where visual field loss was observed during earlier examinations. Using a custom test field in this manner can decrease both the patient’s discomfort and the examination time. The affected eye (left or right) and the test field name that will be used as a pattern should be selected before test editing begins. The following test fields are available by default:
The combo box is available when "Single mode" is selected (on the right bottom of the screen). ‘Combo mode’ displays all five modes of the regression graphs together. |
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Hill of Vision Probability Map A "Hill of vision probability map" shows the probability of Hill of Vision defects for every single point of a field. The probabilities are calculated from the differences between the theoretical and calculated hills of vision. The lower the probability, the bigger the defect in the field of vision. |
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Complete Analysis Modes The AP-300 reliability and functionality is reinforced by complete analysis modes. These analysis modes are backed up by world population statistics. The shaded maps have enhanced 3D function. Age Normal Map An Age Normal map displays the differences between the age normal values and the values obtained from the test. Therefore, the Age Normal map reflects the difference between the theoretical dB level map and the measured one. Accordingly, an Age Normal map can be drawn in the following formats: numerical, grey scale, color scale, pattern scale, and 3D graph. |
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Mulitple Test Capabilities Frey automated perimetry technology delivers complete flexibility for the clinician and patient. This provides the ability to offer patients testing for glaucoma, full field, flicker, binocular single vision and driving. This flexible platform offers visual field testing solutions spanning the range of clinical cha |
Click here to see the manual
Device Type | Automated Perimeter |
Measurement Bowl Type | Hemispherical 300mm radius with difusive surface |
Maximum Temporal Range (degrees) | 80° |
Stimulus |
White-on-white Green-on-white Red-on-white Blue-on-yellow |
Stimulus Duration | 0.1 – 9.9s |
Stimulus Size | I-V |
Stimulus Intensity | 0.03asb to 10000asb in 15 3dB or 45 1dB steps |
Visual Field Testing Distance | 300mm / 12in |
Background Illumination |
White 10asb (3.2cd/m2) for red and green stimulus tests White 31.5asb (10cd/m2) for white stimulus tests Yellow 100cd/m2 for Blue-on-Yellow tests Automatic background illumination control |
Fixation Control |
Heijl-Krakau blind spot monitor Eye tracking (video camera) Eye previev (video camera) |
Test Models |
Supra threshold age corrected: Screeing Threshold: Full Threshold, Fast Threshold, Smart Threshold Others: 2-Zone, 3-Zone, Quantify Defect, Constant, Binocular, Bi-Driving, Targeted Perimetry, Neurological |
Test Field Library |
With concentric test point positions: Macula, Central 22°, Central 30°, Full, Driving, Wide, Glaucoma, Peripheral With square-grid position: Macula, 10-2, 24-2, 30-2 User defined test fields Bi-Driving, Industial Medicine, monocular, binocular |
Correction Glass Diameter | 38mm / 1.5in |
Kinetic Perimetry |
up to 8 izopter individual stimulus parameters (color, size, movement speed) for each isopter |
Chinrest | Electrically driven in horizontal and vertical axis |
Computer |
Touch screen support Build-in PC |
Printer | External or network printer |
Additional Software Features |
Automatic pupil diameter measurement Fovea threshold testing User management module Touch screen operation DICOM export Network connectivity Programming interface for EMR systems Data import from HFA devices Auto backup |
Dimensions |
Height: 637mm / 25in Width: 566mm / 22in Depth: 420mm / 16.5in |
Weight | 18kg / 39.6lbs |
Power Requirements |
Voltage 110-230VAC Power 95W |
Device Type | Automated Perimeter |
Measurement Bowl Type | Hemispherical 300mm radius with difusive surface |
Maximum Temporal Range (degrees) | 80° |
Stimulus |
White-on-white Green-on-white Red-on-white Blue-on-yellow |
Stimulus Duration | 0.1 – 9.9s |
Stimulus Size | I-V |
Stimulus Intensity | 0.03asb to 10000asb in 15 3dB or 45 1dB steps |
Visual Field Testing Distance | 300mm / 12in |
Background Illumination |
White 10asb (3.2cd/m2) for red and green stimulus tests White 31.5asb (10cd/m2) for white stimulus tests Yellow 100cd/m2 for Blue-on-Yellow tests Automatic background illumination control |
Fixation Control |
Heijl-Krakau blind spot monitor Eye tracking (video camera) Eye previev (video camera) |
Test Models |
Supra threshold age corrected: Screeing Threshold: Full Threshold, Fast Threshold, Smart Threshold Others: 2-Zone, 3-Zone, Quantify Defect, Constant, Binocular, Bi-Driving, Targeted Perimetry, Neurological |
Test Field Library |
With concentric test point positions: Macula, Central 22°, Central 30°, Full, Driving, Wide, Glaucoma, Peripheral With square-grid position: Macula, 10-2, 24-2, 30-2 User defined test fields Bi-Driving, Industial Medicine, monocular, binocular |
Correction Glass Diameter | 38mm / 1.5in |
Kinetic Perimetry |
up to 8 izopter individual stimulus parameters (color, size, movement speed) for each isopter |
Chinrest | Electrically driven in horizontal and vertical axis |
Computer |
Touch screen support Build-in PC |
Printer | External or network printer |
Additional Software Features |
Automatic pupil diameter measurement Fovea threshold testing User management module Touch screen operation DICOM export Network connectivity Programming interface for EMR systems Data import from HFA devices Auto backup |
Dimensions |
Height: 637mm / 25in Width: 566mm / 22in Depth: 420mm / 16.5in |
Weight | 18kg / 39.6lbs |
Power Requirements |
Voltage 110-230VAC Power 95W |