The present disclosure relates to use of single vision ophthalmic lenses for correction of myopia in a wearer, wherein the single vision ophthalmic lens devices are configured with a base prescription to correct the myopia of the individual and are purposefully further configured with non-refractive features, wherein the non-refractive features facilitate an increase in the retinal ganglion cell activity for the wearer, which may serve as an optical stop signal to decelerate, ameliorate, control, inhibit, or reduce, the rate of myopia progression of the wearer.

An assistant piece helps in reading descriptions for those who have presbyopia and farsightedness. The piece dispenses with eyeglasses or special instruments and through which piece the letters etc. at hand are readily readable in various situations. The assistant piece has a plurality of ocular sections each having a prescribed area which are provided in juxtaposition on a plate-like sheet member and through which light penetrates and a line of vision introduction section which is provided in the vicinity of the ocular sections and has a larger light penetrating area than the ocular sections, in which the sheet member is provided with a light-shielding section whose transmittance over visible light is lower than those of the ocular sections and the line of vision introduction section; and the ocular sections and the line of vision introduction section are provided within the light-shielding section.

A method of compensating for a refractive error, including manipulating eyelashes to project into a line of sight of an eye at least when an eyelid from which the eyelashes extend is partially closed or when the eye is moved relative to the eyelid. The method may further include manipulating at least one of spacing, orientation, direction, contour or shape of the eyelashes to create an optical effect that improves visual acuity when the eyelashes project into the line of sight and training an individual whose eyelashes are manipulated to position the eyelid from which the eyelashes extend, the eye or both the eyelid and the eye from which the eyelashes extend to achieve relative positioning of the eye and the eyelid to obtain the optical effect that improves visual acuity when desired.

Method for designing a pair of ophthalmic lenses and device for optical measurements. The method comprises: determining a distance and placing an object (100) at said distance; placing a frame (4) of reference on the user; for each eye: keeping it uncovered and covering the other eye; placing in front of the eye a screen (5, 6) with a through hole (520, 620); shifting the position of the hole (520, 620) until the user sees said object (100) looking through the hole (520, 620), so that said object (100) is centred in the field of view available; uncovering both eyes; adjusting the positions of the holes (520, 620), to obtain binocular vision; and designing each lens (510, 610) according to said position. The device (1) comprises a frame (2) to which, for each eye, a first plate (51, 61) having a vertical groove (53, 63) and a second plate (52, 62) having a horizontal groove (54, 64) are attached and can be shifted. So that, when the grooves overlap, a pinhole (55, 65) is formed.

Proposed are pinhole glasses, which include a spectacle frame; spectacle lenses coupled to the frame; and temple bars hinged to both sides of the frames to be attached to the ears, wherein the pinhole part in which a plurality of pinholes are formed is detachably coupled to the frame inside the spectacle lenses. The pinhole glasses can be worn in everyday life. Smartphone, computer monitor, or fine print can be clearly seen through the glasses. In addition, the speaker formed on the temple bar of the glasses can replace earphones, so that it is possible to listen to various acoustic sounds by interlocking with a smartphone.

A device for adjustably and discreetly obstructing peripheral vision. The device is in the form of an eyewear that comprises a cover with viewing windows that accommodate a range of possible positions of pupils, a set of substitutable pairs of gates each with apertures of different design, a repositioning mechanism enabling lateral repositioning of said aperture, a frame, a wearing component, and a pair of lenses. Vision through a portion of the viewing windows is enabled through said apertures, which are adjusted at will to suit the user's particular pupillary distance, and the shape and size of the object intentionally being viewed. Said lenses substantially obscure the cover and gates so that obstruction of peripheral vision is done discreetly.

A spectacle lens according to the first embodiment of the present disclosure includes: a lens body; and a contrast adjustment section provided on or in the lens body and including a dot-portion group in which dot portions are arranged, wherein the arrangement of the dot portions is non-uniform. A spectacle lens according to the second embodiment of the present disclosure includes: a lens body; and a contrast adjustment section provided on or in the lens body and including a dot-portion group in which dot portions are arranged, wherein the dot-portion group includes dot portions each having an aspect ratio, which is the ratio of the length in the short-axis direction to the length in the long-axis direction in the plan-view shape, of less than 1.

A mask configured to be implanted in a cornea of a patient to increase the depth of focus of the patient includes an anterior surface, a posterior surface, and a plurality of holes. The anterior surface is configured to reside adjacent a first corneal layer. The posterior surface is configured to reside adjacent a second corneal layer. The plurality of holes extends at least partially between the anterior surface and the posterior surface. The holes of the plurality of holes are configured to substantially eliminate visible diffraction patterns.

An ophthalmic lens that includes a lens material having two opposing curved surfaces, the curved surfaces defining a lens axis; and a light scattering region surrounding a clear aperture. The clear aperture and the light scattering region are substantially centered on the lens axis, and the light scattering region has a plurality of spaced apart scattering centers (e.g., on a lens surface and/or embedded in the lens material) sized and shaped to scatter incident light, the scattering centers being arranged in a pattern that includes a random variation in spacing between adjacent dots and/or a random variation in dot size.

One embodiment of an aspect of the present invention is a pair of eyeglasses having at least one lens with a plurality of holes for natural improvement of eyesight or vision. The holes may be of different sizes and shapes and may be randomly positioned throughout the lens, and the lens may be painted upon. Another embodiment of this aspect is a pair of eyeglasses that has at least one lens with a plurality of holes and that also has a patch. Another aspect of the present invention is a method for natural improvement of eyesight or vision through the use of the eyeglasses of the present invention.