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    • 专利摘要:
    Kit and method of assessment of simultaneous vision and eye suppression for children and people with limited collaboration level. The kit includes cards of red and green colors, some with an image easily recognizable by preschool children (a smiling face, a car, an airplane, a house, a flower, etc.), others without any image. On the green cards the images are red, on the red cards the images are green. It also includes two plates or horizontal supports, one red and one green, and sample cards, printed with black lines on a white background, in which the images represented on the red and green cards are reproduced. It is accompanied by glasses with anaglyphic filters. This kit can be used with people with special needs, who do not offer reliable answers with the other existing tests. (Machine-translation by Google Translate, not legally binding)
    公开号:ES2629452A1
    申请号:ES201700378
    申请日:2017-03-31
    公开日:2017-08-09
    发明作者:Yolanda MARTÍN PÉREZ;Guadalupe GONZÁLEZ MONTERO;Ángel GUTIÉRREZ HERNÁNDEZ
    申请人:Universidad Complutense de Madrid;
    IPC主号:
    专利说明:


    KIT AND METHOD OF EVALUATION OF THE SIMULTANEOUS VISION AND EYE SUPPRESSION FOR CHILDREN AND PEOPLE WITH LIMITED LEVEL OF COLLABORATION
    Technical sector
    The invention falls within the technical sector of devices for the visual evaluation of children and people with limited collaboration, in particular for the study of simultaneous vision and ocular suppression, in the exploration of binocular vision.
    State of the art
    Through vision, we receive most of the information around us and, on the ability to process it, our effectiveness will depend on the activities we do, from walking to reading or writing.
    A congenital or acquired disorder may affect the development and / or functioning of the visual system. Detecting if there is any visual alteration that can interfere with this process is essential to act as soon as possible and provide the best treatments, in order to facilitate a correct development of visual abilities.
    Therefore, it is essential to have diagnostic tools to examine the child's visual status at the earliest stages. For this, it is necessary to develop devices that can be used for diagnosis in very young children and / or little collaborators, since the success of the treatment may depend on early detection.
    In addition, adults with limited collaborative capacity can also benefit from new diagnostic tools that allow them to assess their visual abilities.
    If you do not have simultaneous vision, that is, if you do not see with both eyes at the same time, ocular suppression occurs. In the development of vision, simultaneous vision can be considered as the first level of binocular vision. When this level has developed, the image that each eye sees merges into one. It is what is called flat fusion. Finally, the last level of binocular vision is stereopsis or three-dimensional vision.
    This learning process occurs from birth. To reach the last level it is necessary, among other things, that the visual acuity of both eyes be similar / similar. When the visual acuity of each eye is evaluated and its ability to see small details is measured, tests are performed by covering the eye that is not being evaluated. Binocular visual acuity is also measured, but it cannot be assured that both eyes are functioning.
    Studies show that early detection is crucial to intervene and avoid an irreversible defect in visual development and that this has a negative impact on all the tasks involved in vision (reading, writing, sports, etc.).
    There are modified tests for preschoolers with which different visual abilities can be evaluated, among which are employees for the evaluation of:
    -  Visual acuity: LEA test with all its variants.
    -  Stereopsis: Titmus test, Lang Stereotest, Random Dot E Depth Perception Test, Randot Stereotest, TNO Test.
    -  Fusion and eye suppression: Worth test.
    One of the procedures used in the clinic to determine whether or not there are simultaneous vision problems is through the visual acuity tests. The drawback of these tests is that they are not accurate enough because with them a quantitative assessment is made, comparing the results of one eye with those of the other, while the unassessed eye remains occluded (monocular evaluation). In addition, it does not allow knowing what happens when
    two eyes are open, because it is not controlled if the two eyes are really "connected." On the other hand, it is a relative evaluation in which the diagnosis is made based on the inequality of the values obtained from each eye.
    Visual acuity tests for children are tired and the fact that there may be a loss of interest causes erroneous results, so it is necessary to have a test that is more attractive.
    Although there are tests to study the quality of binocular vision in children, sometimes, due to the difficulty of understanding them, the answers obtained are not reliable. Therefore, it cannot be determined if the child does not understand the procedure or if the child does not see it (or has not developed the ability of stereoscopic vision).
    Worth's test focuses on the use of a flashlight that emits four lights (one white, one red and two green) on a black background and requires the use of anaglyph glasses (red / green). The drawback of this test is that, sometimes, if the child is very young, he cannot / knows how to count the number of lights he sees or cannot identify the colors of the lights. In addition, once known, by the child, what the procedure is, you can give correct answers without actually seeing the four lights. That is, since the child knows that the flashlight has four lights, he can say that he sees all four, even if he is only seeing two or three.
    The level of development of binocular vision that is evaluated with this test is prior to and prior to the development of stereopsis. To determine the degree or level of stereoscopic vision there are also specific tests for children.
    In these tests different tools are used, for example:
    -  The Titmus test requires the use of polarized glasses with which objects with depth sensation are appreciated; the simplest variant,
    which is used in the case of children, is the fly test in which the child is asked to catch the fly to detect its ability to perceive depth.
    -  In the TNO test for children, several symbols (cross, circle, rhombus, triangle and square) are used so that they will be seen in relief by using anaglyph glasses (red / green).
    -  Lang's test presents images that are seen in three dimensions without glasses and in which they represent a car, a star and a mouse.
    In cases where null or low stereopsis values are obtained, the previous degree of binocular vision (fusion / suppression) should be evaluated to determine the magnitude / depth of the problem.
    The tests cited above are very useful on many occasions, but on other occasions, the necessary information about the visual status of the child or adult with limited collaborative capacity cannot be obtained. This is due to the complexity of the tests and the need for some participation by the patient. It would therefore be necessary to have other devices and tests to apply if we cannot obtain an answer with the current ones.
    In EP2014221A1 a device for analyzing binocular vision is described, improving the accuracy of the tests used. It has a screen for the visualization of optotypes by means of a red and a green filter each one placed in front of an eye; On a white background, the screen shows an optotype in green, another in red and a third in a color that is neither red nor green.
    The RU2012215 patent aims to improve the accuracy and reliability of the Worth test by simplifying the process, considering that its complexity does not make it suitable for all types of patients (including young children). Anaglyph glasses (green / red) are used and, on a black background, are shown
    objects (for example, a car) built with a mosaic of parts in green, red and white.
    US3844641 discloses an apparatus with two optotypes that have the background of the same color and intensity of shadows; each one of them contains several elements that, in each optotype, are partially represented ("clues") so that the fusion of both images offers a complete figure. The "clues" can be identical or complementary in both optotypes. For example: in an optotype two arms of a cross, in the second optotype the other two arms, when merging a cross is seen; or a square in an optotype plus a cross in the second, when merged, they give a square divided into four triangles. The two optotypes are placed next to each other and are observed through prisms, mirrors or telebinocular instruments.
    There are other inventions with which to determine problems of fusion and / or ocular suppression, such as those contained in documents such as: W02009053917A1, which describes an apparatus for analyzing and treating binocular vision that is based on showing different images for each eye. It presents some stimuli that are seen by one eye and other stimuli that are seen by the other. The device can measure the characteristics of the stimuli that each eye needs in order for binocular vision to exist or occur. Different parameters of the images presented are modified, penalizing the good eye and facilitating the vision of the eye that suppresses.
    US2011025976A1 is based on a device for the presentation of anaglyph images and the use of anaglyph glasses. This device is more complex in the sense that it evaluates the degrees of stereopsis. The collaboration by the patient is greater because he has to understand what it is to see in relief.
    The device described in JP2013063246A also presents images of different disparities, so that each eye can see one of the images and,
    If the person being evaluated has stereoscopic vision, you will see them in relief.
    There are no devices simple enough to determine the level of simultaneous vision and to facilitate and help complete the diagnosis in cases of ocular suppression. As already indicated, one of the main drawbacks of the existing tests is that it is necessary for the patient to collaborate so that the response is reliable. It would be desirable, therefore, to have available to the optometrist a series of alternative tests that can be used in the visual examination to young children and people with difficulties of collaboration, in order to obtain the necessary information that allows a correct diagnosis.
    Detailed description of the invention
    Kit and method of evaluation of simultaneous vision and ocular suppression for children and people with limited level of collaboration.
    One aspect of the present invention relates to a kit for evaluating ocular suppression in children and people who have difficulty responding to the tests existing in the state of the art, "kit" being understood as the set of products and utensils sufficient to achieve a certain purpose, that is, to perform said evaluation, which are marketed as a unit.
    The present invention focuses on achieving a reliable response by the child or the person evaluated in a test that evaluates simultaneous vision and ocular suppression. This new kit includes a green flat plate or support, a red flat plate or support and a series of red and green colored cards on some of which the simplified symbolic image is printed, easily recognizable by an age child Preschool, a smiling face, a car, a plane, a house or a flower, while others do not include any images. On green cards, the images are from
    red color, of thickness and densities such that they are easily visible. On the red cards, the images are green, thick and densely so that they are easily visible.
    These cards are made of easily manageable materials, even for people with low hand skills, which can be rigid materials or semi-rigid materials, red and green.
    In addition, the kit has a series of cards with white background in each of which is printed in black stroke, the simplified symbolic image, easily recognizable by a preschooler, of a smiling face, a car, a plane , a house or a flower, sufficiently dense and inked so that it is easily visible and identical to the images represented on the red and green cards of the invention. These cards with white background are used for the explanation and test of the test. In addition, they are the sample images to indicate to the patient the figure that must be found and selected from among those presented in the red and green cards on the supports or plates.
    The materials that can be used for the elaboration of both the red and green supports, as well as the red and green cards, and the cards with white sample background, can be rigid or semi-rigid, among them are, for example: wood , metal, methacrylate, plywood, cork, cardboard, honeycomb cardboard, pressed cardboard, cardboard, felt, EVA rubber (or ethyl vinyl acetate), foam rubber (or polyurethane foam) and / or plastics. Any plastic can be chosen, such as: polyethylene terephthalate, polyvinyl chloride, low density polyethylene and / or polystyrene.
    The red and green cards of the kit of the invention can include a single image, two different images and up to 5 different images. For each of the images, the kit includes between 2 and 8 cards of each color and, in each of those cards, the image is of different size. Preferably, the kit
    It contains 5 red cards and 5 green cards with each image of different sizes, that is, with each image in 5 different sizes. It also includes at least one green card and one red card that do not have any images printed; preferably, it includes 2 green cards and 2 red cards that do not have any images printed. The different sizes of the images allow, in addition, to estimate the size of the suppression scotoma, if it exists. In general, the images can have sizes between 0.5cm and 20cm.
    On the other hand, the red support and the green support have a size of 20-1 OOcm by 20-1 OOcm and, as already mentioned, can be made with lightweight materials. In this way, the kit as a whole is easy to transfer and thus also has the advantage of portability and the possibility of presenting it in the place that is most suitable for the individual whose simultaneous vision and / or eye suppression is to be evaluated.
    The kit can also include anaglyph glasses, with a red filter for one eye and a green filter for the other. In this way, the patient when he has the glasses on will be able to see the images of the cards, printed in red and green in the different green and red cards, respectively, presented on the red and green backgrounds of the flat supports. If there is ocular suppression you will not be able to distinguish and select the cards with the images. The realization of the test is presented as a simple game or activity.
    The kit of the invention is preferably used closely to help better focus patient care, since children and some adults have more difficulty responding reliably to tests that are presented in the distance.
    Compared to the tests commonly used to evaluate simultaneous vision and ocular suppression, the kit of the invention has several advantages. The test that is commonly used to evaluate ocular suppression and simultaneous vision is the Worth test, already mentioned in the previous section. Many times,
    This test is difficult to understand and, since it is necessary to move away from the patient to determine the size of the suppression scotoma, the lack of attention, frequent in the case of preschoolers and in people with limited collaboration capacity, makes lose reliability in the test. Another test that assesses whether there is ocular suppression and simultaneous near vision, also using red / green glasses, is a sheet that is part of the TNO Test. However, this test can also be difficult to understand by these patients. In addition, it has stimuli of a unique size that prevents determining the size of the suppression scotoma, if it exists.
    To evaluate the simultaneous vision and ocular suppression by means of the device of the invention, the patient must wear the anaglyph glasses and they are presented, on the green flat support placed in a horizontal plane, for example, on a table, the different red cards and greens with and without images. That is, between 1 and 8 green cards are placed that have the image printed in red and in different sizes, red cards with the image printed in green and in different sizes and red cards without any drawing. The examiner presents a sample card with the image that he wants the patient to identify and explains that he should look for, take and deliver to the examiner himself the cards that contain the image shown. Thus, you can check if you are able to find all the cards with the same image as the sample card that have been placed on the green surface
    Proceed in the same way with the red flat support. By showing the cards on the two different backgrounds, you can check if you are able to see with both eyes at the same time, that is, if you have simultaneous vision. If this is the case, you will select all the cards on which the image is printed. If you do not have simultaneous vision, you will select only the cards with the images seen by one of the eyes.
    In addition, you can check, with the different cards with images of different sizes and with the two colors green and red, if the patient is capable
    of seeing those stimuli with each of the eyes separately. This will allow to assess if there is any suppression scotoma and its size.
    One of the advantages of this device is that it does not allow the child to anticipate the answers since the number of stimuli that are presented, nor the size, or the image, or with what eye (or if it is not fixed) with both) have to be seen.
    Brief description of the figures
    Figures 1-5. Examples of smiley face, flower, house, car and plane that can be used as images on the cards.
    Embodiment of the invention
    The present invention is further illustrated by the following examples, which are not intended to be limiting in scope.
    Example 1. Preparation of the kit with images of smiley faces.
    The materials and sizes of the kit elements can be as follows, based on the indispensable condition that the green and red colors of the red and green cards, the flat supports and the images printed on the red and green cards must be perfectly Complementary to the red and green filters used in anaglyph glasses:
    A plastic support, in polystyrene concrete, of red 40cm x 40cm and a green polystyrene plastic support of 40cm x 40cm was prepared. On the other hand, polystyrene sheets were used to manufacture:
    -  5 green circular cards of 1cm, 2cm, 3cm, 4cm and 5cm of
    diameter, in which two dots and an arc were printed under them, so that they simulated a smiling face (like the one in figure 1), in red.
    -  5 red circular cards of 1cm, 2cm, 3cm, 4cm and 5cm in diameter, in which two dots and an arc were printed under them, so that they simulated a smiling face (like the one in figure 1), in color green.
    -  5 green circular cards of 1cm, 2cm, 3cm, 4cm and 5cm in diameter.
    -  5 red circular cards of 1cm, 2cm, 3cm, 4cm and 5cm in diameter.
    It also prepared 1 card, 5 cm x 5 cm, printed with black stroke on a white background with the outline of a circle and within it, two points simulating two eyes and an arc simulating a smile, like the image represented in the figure 1. This card was made in cardboard. And an anaglyph glasses with a red and a green filter.
    Example 2. Preparation of the kit with images of flowers.
    A red cardboard support of 30cm x 50cm and a green cardboard support of 30cm x 50cm were prepared. On the other hand, cardboard was used to manufacture:
    -  4 square green cards of 2cm, 4cm, 6cm and 8cm side, on which a flower like the one in figure 2 was printed, in red.
    -  4 square red cards of 2cm, 4cm, 6cm and 8cm side, on which a flower like the one in figure 2 was printed, in green.
    -  4 square green cards of 2cm, 4cm, 6cm and 8cm side.
    -  4 square red cards of 2cm, 4cm, 6cm and 8cm side.
    1 cardboard card, 4 cm x 4 cm, was also prepared, in which a flower like the one in figure 2 was printed with a black stroke on a white background. Anaglyph glasses were also prepared with a red and a green filter.
    Example 3. Use of the kit to evaluate simultaneous vision and ocular suppression in a person with intellectual disability.
    The 40cm x 40cm green plastic support from Example 1 was placed on a table. The patient and the examiner sat next to each other and the patient put on the anaglyph glasses of example 1.
    5 The examiner placed several red and green discs, with smiling faces and red discs without any image, as described in example 1, on the green support. Next, the examiner showed the card with the figure of the smiling face and the patient took the red and green discs with the image of the smiling face.
    Then, the examiner placed the 40cm x 40cm red plastic holder of example 1 on the table and replaced several red and green discs, with smiling faces and green discs without any image, as they have been described in example 1, on the flat support that this time was red. Next, the examiner showed the card with the figure of the smiling face and the patient took back the red and green discs with the image of the smiling face.
    By having this answer, it can be concluded that the patient can see all 20 smiley faces that are on the flat support, which is indicative of no ocular suppression and uses both eyes simultaneously.
    权利要求:
    Claims (8)
    [1]
    1. Simultaneous vision and eye suppression assessment kit for preschoolers and people with limited level of collaboration that includes:
    -  at least one green card with a red image,
    -  at least one red card with a green image,
    -  at least one red card without drawing,
    -  at least one green card without drawing,
    -  a card with a white background and an image drawn in black stroke,
    -  a flat iron or green support,
    -  a flat iron or red support,
    where the image of the green card, the image of the red card and the image of the white background card is identical and is the simplified symbolic image of a smiling face, a car, a plane, a house or a flower.
    [2]
    2. Kit according to claim 1 wherein between 2 and 8 green cards are included with the image in red and between 2 and 8 red cards with the image in green, the images being dimensions between 0.5 and 20 cm .
    [3]
    3. Kit according to claim 2 which includes 5 green cards with a circular shape simulating a smiling face, with two dots simulating two eyes and an arc simulating a red smile, 5 red cards with a circular shape simulating a smiling face , with two dots simulating two eyes and a bow simulating a green smile, 5 cards with a green circular shape and no drawing, 5 cards with a red circular shape and no drawing, in which the cards of each group have a diameter of 1 , 2, 3, 4 and 5cm, respectively.
    [4]
    4. Kit according to previous claims in which the different elements are made of a rigid or semi-rigid material.
    [5]
    5. Kit according to claim 4 wherein the material of the various elements is selected from: wood, metal, methacrylate, plywood, cork,
    cardboard, honeycomb cardboard, pressed cardboard, cardboard, felt, EVA rubber (or ethyl vinyl acetate), foam rubber (or polyurethane foam) and / or plastics.
    [6]
    6. Kit according to claim 5 wherein the plastic is selected from: 5 polyethylene terephthalate, polyvinyl chloride, low density polyethylene and / or
    polystyrene.
    [7]
    7. Kit according to any one of the preceding claims in which the plates and flat supports of red and green have a size of 20-100
    10 cm by 20-100 cm.
    [8]
    8. Kit according to any of the preceding claims which also includes anaglyph glasses (green / red).
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    同族专利:
    公开号 | 公开日
    ES2629452B2|2018-01-25|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    RU2012215C1|1991-05-28|1994-05-15|Межотраслевой научно-технический комплекс "Микрохирургия глаза"|Method of differential diagnosis of binocular, monocular and simultaneous vision|
    EP1878378A2|2006-06-29|2008-01-16|Nidek Co., Ltd.|Optotype presenting apparatus|
    RU2008102817A|2008-01-24|2009-07-27|Государственное образовательное учреждение высшего профессионального образования "Ивановская государственная медицинская академия|METHOD FOR STUDYING STEREOSCOPIC VISION ACUTE|
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