JPWO2019178483A5 - - Google Patents

Claims (30)

A device for ophthalmic nerve scanning
A projection device configured to project a projected image onto one or more retinas of one or more eyes of a subject.
With one or more retinas and one or more photodetectors coupled with one or more retinas,
The one or more light detectors are configured to capture a reflected image reflected from one or more retinas in response to a projected image, the reflected image being a fixative of one or more eyes. Including the information shown
The device further
When placed conjugate with one or more corneas of one or more eyes of a subject and one or more pupils illuminated by retroreflected light from one or more retinas in response to a projected image. A device comprising an image capture device configured to capture a diagnostic image comprising one or more pupils of one or more eyes. The projected image includes a ring image and includes a ring image.
The projection device is
With a light source configured to project light,
The apparatus according to claim 1, further comprising a concave toroidal mirror configured to reflect light projected from the light source to form a ring image. The projected image includes a ring image and includes a ring image.
The projection device is
With a light source configured to produce a circular light projection by projecting light through an axicon lens,
The apparatus according to claim 1, comprising a toroidal lens configured to focus circular light projection within the ring image. The projected image includes a ring image and includes a ring image.
The projection device is
With a light source configured to project light onto a first concave mirror,
The first concave mirror rotates about a rotation axis and re-images the light projected from the light source onto the second concave mirror to generate the appearance of a ring image on the second concave mirror. The device according to claim 1, which is configured as follows. The device of claim 1, wherein the projection device comprises an image projector configured to project a stimulus, wherein the stimulus comprises a grid of double lines or a plurality of concentric circles. The device of claim 1, further comprising a second projection device configured to project a fixative target configured to be visible to the subject so as to be central in the projected image. The second projection device includes a display configured to generate the fixative target.
6. The sixth aspect of the present invention includes the projection device, the one or more photodetectors, and a reflector configured to reflect the fixation target to a window of a housing surrounding the second projection device. The device described. The image capture device is aligned with the optical axis of the projected image and
The ophthalmic nerve scanning device further
It is configured to align with the optical axis, reflect the projected image on one or more retinas, and retroreflect the reflected image on the propagation path to one or more light detectors, the retroreflected light being said. The device of claim 1, comprising a toric mirror with an opening configured to pass through the image capture device. With one or more processors
Operatively coupled to at least one of one or more processors and executed by at least one of one or more processors to at least one of one or more processors. The device of claim 1, further comprising one or more memories containing instructions that analyze diagnostic images to generate diagnostic metadata about the use of the ophthalmic nerve scanning device. .. When at least one of the one or more memories is executed by at least one of the one or more processors, the at least one of the one or more processors said. 9. The device of claim 9, which stores additional instructions for transmitting diagnostic metadata to a display device integrated with an ophthalmic nerve scanning device. The diagnostic metadata includes metadata related to the one or more pupils.
When at least one of the one or more memories is executed by at least one of the one or more processors, the at least one of the one or more processors.
To determine if one or more pupils are present in the diagnostic image, at least in part, based on diagnostic metadata.
Whether or not the position of one or more pupils is within the boundaries of the target position required to initiate the scan is determined based on the diagnostic metadata at least in part.
At least partial determination that one or more pupils are present in the diagnostic image and that the location of one or more pupils is within the boundaries of the target position required to initiate the scan. 9. The apparatus of claim 9, wherein further instructions for causing one or more photodetectors to send a command for capturing a reflected image based on. The diagnostic metadata is one of a background light measurement, the presence of one or more pupils, the location of one or more pupils, the size of one or more pupils, or the blink rate of the subject. 9. The device of claim 9, which comprises information about a plurality. At least one of the one or more memories is projected onto at least one of the one or more processors when executed by at least one of the one or more processors. 9. The apparatus of claim 9, wherein further instructions are stored to cause one or more fixative measurements of one or more eyes to be determined based at least in part on the image and the reflected image. When at least one of the one or more memories is executed by at least one of the one or more processors, the at least one of the one or more processors.
Having one or more of one or more fixative measurements or diagnostic metadata to identify one or more possible health conditions of a subject, at least in part.
9. The device of claim 9 , which stores additional instructions for transmitting information about one or more possible health conditions. 15. The device of claim 14, wherein the one or more possible health conditions include one or more of brain trauma, brain dysfunction, brain damage, strabismus, eye movement apraxia, or amblyopia. .. A method for ophthalmic nerve scanning
Projecting a projected image onto one or more retinas of one or more eyes of a subject by a projection device, and
A reflected image reflected from one or more retinas in response to a projected image by one or more light detectors conjugated to one or more retinas, one or more eyes. Capturing a reflection image containing information indicating fixative,
One or more pupils were retroreflected from one or more retinas in response to a projected image by an image capture device coupled to one or more corneas of one or more eyes of a subject. A method comprising capturing a diagnostic image containing one or more pupils of one or more eyes when illuminated by light. It is possible that the projected image comprises a ring image and the projection device projects the projected image onto one or more retinas of one or more eyes of the subject.
16. The method of claim 16, comprising projecting light onto a concave toroidal mirror with a light source and reflecting the light projected from the light source with a concave toroidal mirror to form a ring image. It is possible that the projected image comprises a ring image and the projection device projects the projected image onto one or more retinas of one or more eyes of the subject.
16. The method of claim 16, comprising producing a circular light projection by projecting light through an axicon lens by a light source and focusing the circular light projection onto a ring image by a toroidal lens. It is possible that the projected image comprises a ring image and the projection device projects the projected image onto one or more retinas of one or more eyes of the subject.
A light source projects light onto a first concave mirror configured to rotate about its axis of rotation.
16. The 16. the method of. The projection device includes an image projector, and the projection device may project a projected image onto one or more retinas of one or more eyes of a subject.
16. The method of claim 16, wherein the image projector comprises projecting a stimulus that includes either a grid of double lines or a plurality of concentric circles. 16. The method of claim 16, further comprising projecting a fixative target configured to be visible to the subject so as to be central in the projected image by a second projection device. Projecting a fixative target configured to be visible to the subject as if it were centered in a projected image by a second projection device
The display comprises generating a fixative target and the reflector reflecting the fixative target to a projection device, one or more photodetectors, and a window of a housing surrounding the second projection device. The method according to claim 16. The image capture device is aligned with the optical axis of the projected image and
The method is
Reflecting a projected image onto one or more retinas by a toric mirror aligned to the optical axis,
Further including rereflection of the reflected image on the propagation path to one or more photodetectors by a toric mirror aligned with the optical axis.
16. The method of claim 16, wherein the toric mirror comprises an opening configured to allow retroreflected light to pass through an image capture device. 16. The method of claim 16, further comprising analyzing diagnostic images by at least one of one or more computing devices to generate diagnostic metadata about the use of the ophthalmic nerve scanning device. 24. The method of claim 24, further comprising transmitting diagnostic metadata to the display device by at least one of one or more computing devices. The diagnostic metadata includes metadata about the one or more pupils.
The method is
Determining whether one or more pupils are present in a diagnostic image by at least one of one or more computing devices, at least partially based on diagnostic metadata.
Diagnostic meta to determine if at least one of one or more computing devices has one or more pupil positions within the boundaries of the target position required to initiate a scan. Judgment based on at least part of the data
At least one of one or more computing devices determines that one or more pupils are present in the diagnostic image and the location of one or more pupils is required to initiate the scan. 24. The present invention further comprises sending a command for capturing a reflected image to one or more photodetectors, at least in part, based on the determination that it is within the bounds of the target position to be. The method described. The diagnostic metadata is one or more of background light measurements, the presence of one or more pupils, the location of one or more pupils, the size of one or more pupils, or the subject's blink rate. 24. The method of claim 24, comprising information about the plurality. Determining one or more fixative measurements for one or more eyes by at least one of one or more computing devices, at least partially based on projected and reflected images. 24. The method of claim 24, further comprising. One or more of subjects, at least partially based on one or more of one or more fixative measurements or diagnostic metadata, by at least one of one or more computing devices. Identifying possible health conditions and
28. The method of claim 28, further comprising transmitting information about one or more possible health conditions by at least one of one or more computing devices. 29. The method of claim 29, wherein the one or more possible health conditions include one or more of brain trauma, brain dysfunction, brain damage, strabismus, eye movement apraxia, or amblyopia.