Abstract
Utilizing color light for focal stimulation of the macula for photobleaching and dark adaptation provides a means to isolate the recovery ability of different types of cones. Having the ability of selectively analyzing the recovery of different types of cones opens the opportunity to determine the effect of disease on cone type for diagnosis and monitoring of disease severity. An endpoint target with a noticeable difference between the center of the target and the peripheral ring of the target at endpoint is described.
Claims
1. A device for focal foveal monocular relative photobleaching comprising: a. at least one frame, the at least one frame having a black backdrop, an endpoint target with a peripheral ring and a center, the endpoint target being disposed within the black backdrop of a graphic display device, b. at least one photobleaching focal light source, the at least one photobleaching focal light source having a focal beam with a diameter subtending an angle of less than that of a symbol with a visual acuity setting at 20/400 configured to light adapt the macula of at least one eye; and c. a timer having a digital display configured to show the time that has elapsed, the timer being configured to measure photobleaching recovery where the digital display of the timer is visible after the endpoint, d. a photobleaching recovery endpoint having the center brighter than the peripheral ring.
2. The device of claim 1, where the photobleaching focal light source is emitting white light.
3. The device of claim 1, where the photobleaching focal light source is emitting color light.
4. The device of claim 1, further comprising fixation symbols sequentially appearing within the center and running concurrently with the afterimage.
5. A device for focal foveal monocular relative photobleaching comprising: a. a stereo viewer, with at least one frame, the at least one frame having a first frame and a second frame, the stereo viewer having a left chamber and a right chamber opposite the left chamber, the first frame being disposed within the left chamber and the second frame being disposed within the right chamber, b. the first frame and the second frame of the at least one frame has a black backdrop, an endpoint target with a peripheral ring and a center, the endpoint target being disposed within a black backdrop of a graphic display device, c. at least one photobleaching focal light source has a first photobleaching focal light source and a second photobleaching focal light source, the first photobleaching focal light source being disposed within the left chamber and the second photobleaching focal light source from the at least one photobleaching focal light source being disposed within the right chamber. d. a timer having a digital display configured to show the time that has elapsed, the timer being configured to measure photobleaching recovery where the digital display of the timer is visible after the endpoint, and e. a photobleaching recovery endpoint having the center brighter than the peripheral ring.
6. The device of claim 5, where the photobleaching focal light source is emitting white light.
7. The device of claim 5, where the photobleaching focal light source is emitting color light.
8. The device of claim 5, further comprising fixation symbols sequentially appearing within the center and running concurrently with the afterimage.
Description
DETAILED DESCRIPTION OF THE INVENTION
[0012] Prior art of U.S. Pat. No. 11,026,573 is depicted in FIGS. 1-3 where a dark adaptation (photo-stress) application is presented on a graphic display device 2 having a black backdrop without the use of a stereo viewer. This embodiment requires the patient to cover or close the eye not being tested. As seen in FIG. 1, focal light stimulus 1 produces impression 3 of perception 4. In FIG. 2 recovery time is being measured as the center 5a of the bull's eye approaches the same brightness as the peripheral ring 6 of perception 7. In FIG. 3 recovery is complete as illustrated by equal brightness of center 5c and peripheral ring 9 in perception 10. FIGS. 4, 5 and 6 shows graphic display device 2 housed within stereo viewer 11 having viewing ports 12a and 12b. The light adaptation (stimulus) and dark adaptation (recovery) is the same as described for FIGS. 1-3.
[0013] FIG. 4 illustration white focal light stimulus 1 of digital display device 2 producing white impression 3 of perception 4. FIG. 5 depicts the afterimage masking the bull's eye white center 5a and causing white center 5b to appear darker than white peripheral ring in impression 6 of perception 7. The afterimage slowly disappears as the cones regenerate photopigment to restore vision, a process called dark adaptation. As seen in FIG. 6, once the vision returns, bull's eye white center 5a appears white as seen in impression 5c of perception 10, the same color as peripheral ring 9 in perception 10.
[0014] My first embodiment is illustrated in FIGS. 7a-9c and utilizes focal white or color light for selective bleaching of the photoreceptor in the fovea of one eye, the central area of the retina subtending an angle of less than a 20/400 Snellen chart letter. The focal bleaching light is a graphic object filled with white or color using RGB palette on a black backdrop. The endpoint frame 19 is critical for providing the most precise endpoint and is best illustrated in FIG. 7c. Endpoint frame 19 consists of black backdrop 18, endpoint target 23 with light-grey peripheral ring 15 and white center 30c. In FIG. 7a is illustrated blue circle 30a focal bleaching light which is viewed by the subject for a specified bleaching time, typically 30 seconds (programs range from 15 to 300 seconds), when after the presentation app transitions automatically to endpoint target 13 of FIG. 7b for recovery phase timing. In FIG. 7b is yellow afterimage 30b masking white center 30c of the endpoint target 23. In FIG. 7c, afterimage 30b has resolved to reveal white center 30c (the endpoint), which stands out brightly in contrast to the darker light-grey peripheral ring 15 of endpoint target 23. Of note, center 30c is brighter than peripheral ring 15 of the endpoint target 23. The endpoint timer consists of a embed movie composed of numbers from 0 to 100 at 1 second intervals, set to start upon automatic transition after bleaching and programmed to stop the moment the subject taps the screen at endpoint, the tap also reveals the timer readout by the disappearance of a layer (endpoint target 23) secluding the timer as illustrated uncovered in FIG. 7d. In FIG. 8a-b red apple 40a bleaching light yields cyan 41a afterimage, in FIG. 9a-b white tomato 50a bleaching light yields grey 51a afterimage. Following afterimage resolution, endpoints FIGS. 8c and 9c shows bright white apple 42a and bright white tomato 52a in contrast to light-grey peripheral ring. These drawings illustrate that the bleaching light need not be a circle, it can be of any shape having the same area (subtends a Snellen 20/400 letter) and that the endpoint target need not to be a bull's eye and can be the same shape as the bleaching light.
[0015] Drifting of the afterimage is not addressed in Hofeldt patent U.S. Pat. No. 11,026,573. There is no companion image to serve as an anchor for the afterimage in the recovery phase while observing the endpoint target. Subjects have a natural tendency to gaze around the endpoint target while waiting for the afterimage mask to clear which causes the afterimage to follow their gaze. I have found an embedded movie playing within the endpoint center having symbols appear every 1-2 seconds (star 53 in FIGS. 9b-c, and FIGS. 11-12) attracts the attention of the subject and gives the subject a focusing anchor for the afterimage during dark adaptation. Keeping their eye on the changing symbols puts the afterimage centered over the endpoint target in preparation for triggering the endpoint. The movie is created in a movie app consisting of a sequence of symbols and numbers with running time from 45 to 60 seconds. The movie is then embedded into a presentation program, programmed to start automatically after bleaching, and to stop when the endpoint is triggered.
[0016] My preferred embodiment is illustrated in FIGS. 10-12 which is a graphic display device housed in a stereo viewer having a right and a left chamber. Stereo viewer 17 housing a graphic display device providing screen images, black backdrop 18 and sounds is depicted in FIG. 10 where red apple 40a is the bleaching light source and is seen as impression red apple 40b in perception 43. The program of the graphic display device may be programmed to repeatedly test the same eye or alternate the eyes being tested. In FIG. 11 afterimage 41a appears in endpoint target 13 as cyan apple 41a within light-grey peripheral ring 15 while masking white endpoint center 42b and appears in perception 44 as afterimage 41b. In FIG. 12 is endpoint target 13 showing unmasked white apple 42b standing out in contrast to light-grey peripheral ring 15 in perception 45, an obvious endpoint.
BRIEF DESCRIPTION OF DRAWINGS
[0017] FIG. 1. Prior Art, Hofeldt patent U.S. Pat. No. 11,026,573 showing monocular focal light stimulation on a graphic display device and the observed perception.
[0018] FIG. 2. Prior Art, Hofeldt patent U.S. Pat. No. 11,026,573 showing during recovery while viewing the bullseye endpoint target on a graphic display device and the observed perception.
[0019] FIG. 3. Prior Art, Hofeldt patent U.S. Pat. No. 11,026,573 showing complete recovery while viewing the bullseye endpoint target on a graphic display device and the observed perception.
[0020] FIG. 4. Prior Art, Hofeldt patent U.S. Pat. No. 11,026,573 showing monocular focal light stimulation on a graphic display device within a stereo viewer and the observed perception.
[0021] FIG. 5. Prior Art, Hofeldt patent U.S. Pat. No. 11,026,573 showing during recovery while viewing the bullseye endpoint target on a graphic display device within a stereo viewer and the observed perception.
[0022] FIG. 6. Prior Art, Hofeldt patent U.S. Pat. No. 11,026,573 showing complete recovery while viewing the bullseye endpoint target on a graphic display device within a stereo viewer and the observed perception.
[0023] FIG. 7a. Blue circular focal light on black backdrop of the graphic display device.
[0024] FIG. 7b. Yellow afterimage of the recovery phase following blue light stimulus.
[0025] FIG. 7c. White center of bullseye, yellow afterimage has resolved.
[0026] FIG. 7d. Timer in seconds appearing on the backdrop.
[0027] FIG. 8a. Red circular focal light on black backdrop of the graphic display device.
[0028] FIG. 8b. Cyan afterimage of the recovery phase following blue light stimulus.
[0029] FIG. 8c. White center of bullseye, cyan afterimage has resolved.
[0030] FIG. 9a. White circular focal light on black backdrop of the graphic display device.
[0031] FIG. 9b. Grey afterimage of the recovery phase following white light stimulus.
[0032] FIG. 9c. White center of bullseye, grey afterimage has resolved.
[0033] FIG. 10. Red circular focal light on black backdrop of the graphic display device within a stereo viewer.
[0034] FIG. 11. Cyan afterimage of the recovery phase following blue light stimulus within the stereo viewer.
[0035] FIG. 12. White center of bullseye, cyan afterimage has resolved within the stereo viewer.
