Abstract: A cornea imaging apparatus including: a collimation axis holding mechanism; an imaging mechanism; a Z-direction actuating means; an X-direction actuating means and a Y-direction actuating means; an inclination angle changing means that changes an inclination angle of an imaging center axis of the imaging mechanism against a collimation axis of an eye under examination; an endothelial configuration computing means that determines a corneal endothelial configuration; and a normal vector computing means that determines a normal vector direction at a given imaging position of the corneal endothelial configuration, wherein at the imaging position, the inclination angle and positions in the Z and X directions are set adjusted so as to align the imaging center axis of the imaging mechanism with the normal vector direction determined by the normal vector computing means.

Abstract: An ophthalmic apparatus is provided with a light source, an optical measurement system, an optical reference system, an optical calibration system, a light receiving element, and a processor. The light receiving element receives an interference light for measurement produced by both the reflected light guided by the optical measurement system and the reference light guided by the optical reference system, and also receives an interference light for calibration produced by the calibration light guided by the optical calibration system and the reference light guided by the optical reference system. The processor determines a position of a measuring portion inside an eye to be examined by Fourier-analyzing the interference light for measurement and the interference light for calibration.

Abstract: An optical coherence tomography (OCT) anterior eye part imaging apparatus includes a tomographic image obtaining unit obtaining a tomographic image of an anterior eye part of subject's eye in a depth direction by optical coherence tomography, an imaging unit imaging a frontal image of subject's eye, a display unit displaying the image of subject's eye, a corneal apex location detecting unit detecting a location of subject's eye, an alignment unit moving an apparatus body relative to the holder so that the location of corneal apex corresponds with a predetermined image obtaining location, a designating unit designating an area or a location where the tomographic image is obtained on subject's frontal image displayed on the display unit, and a scan line setting unit setting a scan line in the tomographic image obtaining unit on a straight line passing the corneal apex according to the designated area or location.

Abstract: The present invention provides an ophthalmologic apparatus that can noninvasively measure the state of the lacrimal layer formed on the cornea surface and that can quantitatively measure the state of the lacrimal layer without utilizing a reflection image from the retina. The ophthalmologic apparatus according to the present invention comprises an optical projection system for projecting light of a specified pattern onto a cornea surface, and an imaging device for photographing a reflection image of the projected light from the cornea surface. An operating unit calculates the degree of distortion of the reflection image on the basis of the density value distribution of the image photographed by the imaging device. The operating unit can determine the state of the lacrimal layer using the calculated degree of distortion.

Abstract: An apparatus for cross-sectional imaging of an anterior ocular segment wherein a stationary cylindrical body disposed projecting out from a body of the apparatus, and an illuminating optical system and an imaging optical system are disposed within the cylindrical body with a front aperture of the cylindrical body as a common aperture thereof so as to be rotatable in unison about an eye-side optical axis of the illuminating optical system. At least one proximal direction reflecting mirror being disposed within an interior of the cylindrical body in proximity to the front aperture for reflecting scattered light by an examined eye on an optical axis of the imaging optical system to a direction proximate to an optical axis of the illuminating optical system.

Abstract: A cornea imaging apparatus comprising: an illumination optical system having an illumination source; an imaging optical system having a photoelectric element for receiving a reflected light beam from a cornea of an eye under examination; actuating means for moving the illumination optical system and the imaging optical system in a direction nearer to or further from the eye to bring about focusing; imaging process retracting control means for controlling the actuating means during an imaging operation by the imaging optical system; continuous imaging means for taking multiple images of the cornea at different times and positions by the photoelectric element of the imaging optical system during a retracting operation; and imaging operation control means for controlling imaging operation status of the cornea by the continuous imaging means with reference to a photoreception signal of reflected light from the cornea.

Abstract: An optical coherence tomography (OCT) anterior eye part imaging apparatus includes a tomographic image obtaining unit obtaining a tomographic image of an anterior eye part of subject's eye in a depth direction by optical coherence tomography, an imaging unit imaging a frontal image of subject's eye, a display unit displaying the image of subject's eye, a corneal apex location detecting unit detecting a location of subject's eye, an alignment unit moving an apparatus body relative to the holder so that the location of corneal apex corresponds with a predetermined image obtaining location, a designating unit designating an area or a location where the tomographic image is obtained on subject's frontal image displayed on the display unit, and a scan line setting unit setting a scan line in the tomographic image obtaining unit on a straight line passing the corneal apex according to the designated area or location.

Abstract: The present invention provides an opthalmologic apparatus that can noninvasively measure the state of the lacrimal layer formed on the cornea surface and that can quantitatively measure the state of the lacrimal layer without utilizing a reflection image from the retina. The opthalmologic apparatus according to the present invention comprises an optical projection system for projecting light of a specified pattern onto a cornea surface, and an imaging device for photographing a reflection image of the projected light from the cornea surface. An operating unit calculates the degree of distortion of the reflection image on the basis of the density value distribution of the image photographed by the imaging device. The operating unit can determine the state of the lacrimal layer using the calculated degree of distortion.

Abstract: A cornea imaging apparatus comprising: an illumination optical system having an illumination source; an imaging optical system having a photoelectric element for receiving a reflected light beam from a cornea of an eye under examination; actuating means for moving the illumination optical system and the imaging optical system in a direction nearer to or further from the eye to bring about focusing; imaging process retracting control means for controlling the actuating means during an imaging operation by the imaging optical system; continuous imaging means for taking multiple images of the cornea at different times and positions by the photoelectric element of the imaging optical system during a retracting operation; and imaging operation control means for controlling imaging operation status of the cornea by the continuous imaging means with reference to a photoreception signal of reflected light from the cornea.

Abstract: A measurement device may illuminate lens 10 to be inspected with light at a plurality of different angles of incidence. The transmitted light that passes through lens 10 may be preferably detected by light detecting means 36. When light detecting means 36 detects the light, it outputs an electrical signal. Control unit 54 may (1) align light source 22 in the predetermined position and turns it on and (2) calculate the degree of refraction of the transmitted light that passes through lens 10, based upon the electrical signal output from light detecting means 36. Then, control unit 54 may further (3) conduct illumination at a plurality of different angles of incidence and obtain a plurality of “angle of incidence—degree of refraction” relationships from the degree of refraction calculated for each angle of incidence, and (4) calculate the fundamental data of lens 10 by using the plurality of “angle of incidence—degree of refraction” relationships.

Abstract: A method and apparatus for producing a contact lens material having two opposite lens-forming surfaces is disclosed. A first resin mold having a molding surface providing one of the opposite lens-forming surfaces of the contact lens material is injection-molded by closing a first and a second die to define at least one mold cavity and injecting a resin material into the mold cavity. A second resin mold having a molding surface is injection-molded by closing a third and a fourth die to define at least one mold cavity and injecting a resin material into the second mold cavity. The dies are separate away from each other and molding material is introduced into one of the resin molds which are held on one of the respective dies. The dies holding the first and second resin molds are moved relative to each other to assemble the first and second resin molds to define a mold cavity for the contact lens material.

Abstract: A method of cleaning and disinfecting a contact lens, comprising the steps of: preparing a disinfectant which is an aqueous solution containing an iodine-complex polymer, and a diluent which is an aqueous solution containing ethylenediamine tetraacetic acid and/or soluble salts thereof, and a nonionic surface active agent; mixing the disinfectant and the diluent to provide a mixed solution, such that an available iodine concentration of the mixed solution immediately after mixing is in a range of 0.01-50 ppm, and such that concentrations of the ethylenediamine tetraacetic acid and/or the soluble salts thereof, and the nonionic surface active agent in the mixed solution are in a range of 0.0001-1.0 w/v % and in a range of 0.01-1.0 w/v %, respectively; and immersing the contact lens in the mixed solution for cleaning and disinfecting the contact lens, resulting in gradual reduction of the available iodine remaining in the mixed solution, by the ethylenediamine tetraacetic acid and/or the soluble salts thereof.

Abstract: An eyeball observing device comprising an illuminating optical system for illuminating a portin to be examined; a photographing optical system comprising an object lens group equipped with a transparent body which is designed to be in contact with the eyeball and an imaging lens group, the system allowing the image beams coming from the portion to be examined to reach an imaging surface; and a motion picture camera, wherein an ultrasonic oscillator for detecting the position of the examined eye is mounted on the transparent body. The device can provide a clear image of a desired portion of an eyeball quickly.

Abstract: An optometer including a main body which has an observation window having a center axis, a rotary optotype disk having circumferentially arranged optotypes and disposed within the main body such that the optotype disk is rotatable about a rotary shaft so that one of the optotypes is brought into alignment with the center axis and viewed through the window, a driving disk rotatable about the center axis and rotatably supporting the rotary shaft such that the rotary shaft is parallel to and radially offset from the center axis, a rotary actuator for rotating the driving disk, and a stationary disk fixed within the main body coaxially with the driving disk and engaging the rotary shaft so as to cause rotation of the optotype disk about the rotary shaft when said driving disk is rotated about the center axis by the rotary actuator.

Abstract: A contact lens for intraocular observation including a lens body having a contact face to be brought into contact with cornea of an eyeball of a subject, and a lens support having a contact portion to be settled on sclera of the eyeball of the subject, the lens body and the lens support being assembled on each other by means of a slide mechanism so as to be movable relative to each other in the axial direction of lens, wherein the lens body is capable of pressing the cornea of the eyeball of the subject by movement thereof in the axial direction of lens relative to the lens support settled on the sclera of the eyeball of the subject. The contact lens of the present invention is of good operability and adapted to effectively prevent slipping of itself on the cornea of an eyeball.

Abstract: Eye observation apparatus composed of an illumination optics which is fixed on a frame of a main body and illuminates, a portion of inspection, a photographic optics system for for causing an image ray which is emitted from the portion of inspection to reach an image plane, a photographing means movably equipped in the frame of the main body along with an optical axis and a biasing means for biasing the photographing means so that a tip portion of the photographing means coming into contact with an eye slightly.