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    • 1. 发明专利
    • Device for laser therapy in ophthalmology and variants
    • AU4537199A
    • 1999-12-30
    • AU4537199
    • 1999-06-11
    • TASR LIMITED
    • ANIKINA ELENA BORISOVNATURKOV JURY GRIGORIEVICH
    • A61F9/007A61F9/00A61F9/008A61N5/06A61N5/067
    • The present invention relates to devices used in ophthalmology for laser therapy, and may be used for stimulating a ciliary muscle. This invention can also be used for reducing the risk of unwanted side-effects by lowering the vision tension as the patient keeps looking with both eyes in reference directions that correspond to the position and the convergence of the visual axes of the eyes. The device of the present invention comprises two optical units (1, 1'), each having up to two lasing emitter (2) mounted therein, wherein said emitters include forming optics (3) for applying a trans-scleral action using laser radiation on a corresponding section in the prelimbic region of the eye. A light source (4) of the LED type is mounted on the optical axis of each unit. The light source generates a luminous marks in the patient's field of vision so that the patient keeps looking in the reference direction (5, 5') during a laser therapy session. In order to modify the angle between the reference directions (5, 5'), the optical units (1, 1') are mounted on platforms (6) so as to be capable of rotation about their own axes in the azimuthal plane, and so that they can be secured in a desired position. The platforms (6) are further mounted on a guide (7) so as to be capable of longitudinal displacement.
    • 3. 发明申请
    • DEVICE FOR LASER THERAPY IN OPHTHALMOLOGY AND VARIANTS
    • 用于激光治疗眼科和变体的装置
    • WO9963916B1
    • 2000-01-27
    • PCT/RU9900196
    • 1999-06-11
    • TASR LIMITEDANIKINA ELENA BORISOVNATURKOV JURY GRIGORIEVICH
    • ANIKINA ELENA BORISOVNATURKOV JURY GRIGORIEVICH
    • A61F9/007A61F9/00A61F9/008A61N5/06A61N5/067
    • A61N5/06A61F9/008A61F2009/00865A61F2009/00868A61N2005/067
    • The present invention relates to devices used in ophthalmology for laser therapy, and may be used for stimulating the ciliary muscle. This invention can also be used for reducing the risks of unwanted side-effects by lowering the vision tension as the patient keeps looking with both eyes in reference directions that correspond to the position and the convergence of the visual axes of the eyes. The device of the present invention comprises two optical units (1, 1') each having up to two laser emitters (2) mounted therein, wherein said emitters include shaping optics (3) for applying a trans-spectral action using laser radiation on a corresponding section in the prelimbal region of the eye. A light source (4) of the LED type is mounted on the optical axis of each unit. The light source generates a luminous mark in the patient's field of vision so that the patient keeps looking in the reference directions (5, 5') during a laser therapy session. In order to modify the angle between the reference directions (5, 5'), the optical units (1, 1') are mounted on platforms (6) so as to be capable of rotation about their own axes in the azimuthal plane, and so that they can be secured in a desired position. The platforms (6) are further mounted on a guide (7) so as to be capable of longitudinal displacement.
    • 本发明涉及用于激光治疗眼科的装置,可用于刺激睫状肌。 本发明还可以用于通过降低视力而降低视力的风险,因为患者在与眼睛的视轴的位置和收敛相对应的参考方向上以双眼观察。 本发明的装置包括两个光学单元(1,1'),每个光学单元具有最多安装在其中的两个激光发射器(2),其中所述发射器包括成形光学器件(3),用于使用激光辐射在 在眼睛的预备区域的相应部分。 LED类型的光源(4)安装在每个单元的光轴上。 光源在患者的视野中产生发光标记,使得患者在激光治疗期间持续观察参考方向(5,5')。 为了改变参考方向(5,5')之间的角度,光学单元(1,1')安装在平台(6)上,以便能够在方位平面内围绕其自己的轴线旋转,以及 使得它们可以固定在期望的位置。 平台(6)进一步安装在引导件(7)上以便能够纵向移动。
    • 4. 发明公开
    • OPHTHALMOLOGIC DEVICE FOR LASER THERAPY
    • 眼科设备技术激光治疗
    • EP1079775A1
    • 2001-03-07
    • EP99973776.0
    • 1999-02-04
    • Tasr Limited
    • Turkov, Jury G.Anikina, Elena B.
    • A61F9/00
    • A61F9/008A61F2009/00863A61F2009/00868A61N5/0613
    • The present invention may be used in the laser stimulation of the ciliary muscle for improving the adaptation capacity of the eye, for increasing the visual capacity, for reducing discomfort during the therapy process and for applying a combined action using a laser beam, i.e. a transscleral action on the ciliary body and on the central region of the retina. The device of the present invention comprises an optical unit (1) including a plurality of laser emitters (2) with shaping optics (3) and a local reducer (4) of the field of vision which is made in the shape of a diaphragm and defines a vision channel (5) representing the direction in which the patient is looking. The diaphragm (4) is arranged on a same axis (6) together with the inlet aperture (7). The optical unit (1) may further comprise a visible laser-beam source (8) which is optically connected through a semi-transparent mirror (9) to the vision channel (5) so as to apply an action on the central region of the retina. The transmission ratio of the mirror (9) is selected so that the patient is not prevented from observing a distant object through the outlet aperture (10) of the unit (1). It is further possible to include a diffused dispersion structure (11) allowing the patient to observe a speckle diagram formed by the laser beam emitted from the source (8).
    • 6. 发明公开
    • DEVICE FOR LASER THERAPY IN OPHTHALMOLOGY AND VARIANTS
    • VORRICHTUNGFÜRDIE LASERTHERAPIE IN DER OPHTALMOLOGIE UND VARIANTEN
    • EP1097681A1
    • 2001-05-09
    • EP99928270.0
    • 1999-06-11
    • Tasr Limited
    • ANIKINA, Elena BorisovnaTURKOV, Jury Grigorievich
    • A61F9/00A61N5/067
    • A61N5/06A61F9/008A61F2009/00865A61F2009/00868A61N2005/067
    • The present invention relates to devices used in ophthalmology for laser therapy, and may be used for stimulating a ciliary muscle. This invention can also be used for reducing the risk of unwanted side-effects by lowering the vision tension as the patient keeps looking with both eyes in reference directions that correspond to the position and the convergence of the visual axes of the eyes. The device of the present invention comprises two optical units (1, 1'), each having up to two lasing emitter (2) mounted therein, wherein said emitters include forming optics (3) for applying a trans-scleral action using laser radiation on a corresponding section in the prelimbic region of the eye. A light source (4) of the LED type is mounted on the optical axis of each unit. The light source generates a luminous marks in the patient's field of vision so that the patient keeps looking in the reference direction (5, 5') during a laser therapy session. In order to modify the angle between the reference directions (5, 5'), the optical units (1, 1') are mounted on platforms (6) so as to be capable of rotation about their own axes in the azimuthal plane, and so that they can be secured in a desired position. The platforms (6) are further mounted on a guide (7) so as to be capable of longitudinal displacement.
    • 本发明涉及用于激光治疗眼科中的装置,并且可用于刺激睫状肌。 本发明还可以用于通过降低眼睛张力的风险来减少不必要的副作用,因为患者在与眼睛的视轴的位置和收敛相对应的参考方向上双眼观察。 本发明的装置包括两个光学单元(1,1'),每个光学单元具有至多两个安装在其中的激光发射器(2),其中所述发射器包括成像光学器件(3),用于使用激光辐射施加跨巩膜动作 在眼睛的预备区域的相应部分。 LED类型的光源(4)安装在每个单元的光轴上。 光源在患者的视野中产生发光标记,使得患者在激光治疗期间持续观察参考方向(5,5')。 为了改变参考方向(5,5')之间的角度,光学单元(1,1')安装在平台(6)上,以便能够在方位平面内围绕其自己的轴线旋转,并且 使得它们可以固定在期望的位置。 平台(6)进一步安装在引导件(7)上以便能够纵向移动。
    • 7. 发明公开
    • LENSES FOR HOLOGRAPHIC GLASSES AND VARIANTS
    • LINSENFÜRHOLOGRAPHISCHE BRILLEN UND VARIANTEN
    • EP1081530A1
    • 2001-03-07
    • EP99917270.3
    • 1999-04-14
    • Tasr Limited
    • GULANYAN, Emin Khachikovich
    • G02C7/10G02C11/02
    • G02C7/00G02C11/02
    • The present invention relates to lenses for holographic glasses wherein said lenses comprise a transparent base (1) having its inner surface, facing the user (wearer), provided with a layer (2) of recording material wherein at least one three-dimensional hologram is recorded. Disposed behind the layer (2) (as viewed from the outside of the glasses towards the wearer) is a compensation layer (3) applied to a substrate made of transparent material (4). The compensation layer (3) is made to selectively reflect radiation impinging thereon from a specified spatial angle and having wavelengths within one or more spectral ranges, including those wavelengths at which a relating three-dimensional hologram has maximum diffraction efficiency, and to transmit radiation outside said one or more spectral ranges. In a particular case, the compensation layer (3) is made as a layer of recording material, which is similar to the layer (2), in which layer (3) one or more holograms of mirror(s) is recorded. Said holographic mirrors are made to be reflective in said one or more spectral ranges.
    • 本发明涉及用于全息眼镜的透镜,其中所述透镜包括其内表面面向使用者(佩戴者)的透明基底(1),其具有记录材料层(2),其中至少一个三维全息图为 记录。 设置在层(2)后面(从眼镜的外侧朝向佩戴者)是施加到由透明材料(4)制成的基板的补偿层(3)。 使补偿层(3)从指定的空间角度选择性地反射辐射到其上的波长,并且具有在一个或多个光谱范围内的波长,包括相关三维全息图具有最大衍射效率的那些波长,并且在外部发射辐射 所述一个或多个光谱范围。 在特定情况下,补偿层(3)被制成记录材料层,其类似于层(2),层(3)记录了一个或多个反射镜全息图。 所述全息镜在所述一个或多个光谱范围内被制成反射。