RU2006143513A - METHOD FOR DETERMINING INTERNAL EYE PRESSURE THROUGH THE EYE (OPTIONS) AND DEVICE FOR ITS IMPLEMENTATION (OPTIONS) - Google Patents

Abstract

1. A method of measuring intraocular pressure through the eyelid, based on the static deformation of the eyelid by the load of the support with two protrusions and with the simultaneous dynamic deformation of the eyeball through the eyelid by a freely falling stem, followed by measurement of the parameters of the stem movement function in time, characterized in that the measurement is performed twice at different static loads based on eye support. 2. A method for measuring intraocular pressure through the eyelid, based on the static deformation of the eyelid by the load of the support with two protrusions and with the simultaneous dynamic deformation of the eyeball through the eyelid with a stock, followed by measurement of the parameters of the stem movement function in time, characterized in that the measurement is performed twice at different values of static load based on the eye and dynamic deformation of the eyeball through the eyelid is carried out by a rod with a counterweight, while the accelerator unit gives the necessary speed to the rod rod stock. 3. A method for measuring intraocular pressure through the eyelid, based on the static deformation of the eyelid by the load of the support with two protrusions and with the simultaneous dynamic deformation of the eyeball through the eyelid by a freely falling stem, followed by measurement of the parameters of the stem movement function in time, characterized in that the measurement is performed twice at different values static load bearing on the eye, and the rod is additionally given acceleration by a magnetic field. 4. A method for measuring intraocular pressure through the eyelid, based on the static deformation of the eyelid by the load of a support with two protrusions and with simultaneous dynamic deformation of the eye

Claims (14)

1. A method of measuring intraocular pressure through the eyelid, based on the static deformation of the eyelid by the load of the support with two protrusions and with the simultaneous dynamic deformation of the eyeball through the eyelid by a freely falling stem, followed by measurement of the parameters of the stem movement function in time, characterized in that the measurement is performed twice at different values of static load bearing on the eye. 2. A method for measuring intraocular pressure through the eyelid, based on the static deformation of the eyelid by the load of the support with two protrusions and with the simultaneous dynamic deformation of the eyeball through the eyelid with a stock, followed by measurement of the parameters of the stem displacement function in time, characterized in that the measurement is performed twice at different values static load bearing on the eye and the dynamic deformation of the eyeball through the eyelid is carried out by a rod with a counterweight, while the accelerator unit gives the necessary speed to the rod eniya rod. 3. A method for measuring intraocular pressure through the eyelid, based on the static deformation of the eyelid by the load of the support with two protrusions and with the simultaneous dynamic deformation of the eyeball through the eyelid by a freely falling stem, with subsequent measurement of the parameters of the stem movement function in time, characterized in that the measurement is performed twice at different values of the static load bearing on the eye, and the rod is additionally given acceleration by a magnetic field. 4. A method for measuring intraocular pressure through the eyelid, based on the static deformation of the eyelid by the load of the support with two protrusions and with the simultaneous dynamic deformation of the eyeball through the eyelid with a stock, followed by measurement of the parameters of the stock displacement function over time, characterized in that the dynamic deformation of the eye is performed repeatedly, with increasing pressure on the eye and at the time of the appearance of a wave of deformation of the sclera or cornea of the eye, the value of intraocular pressure is fixed, after which it stops increasing dynamic deformation of the eye, while correcting the result of measuring the spatio-temporal characteristics of the immersion of the rod into the eyelid at the time of the absence of a deformation wave. 5. The method for measuring intraocular pressure through the eyelid according to claim 1, characterized in that for determining the value of intraocular pressure, information is additionally used on the speed or acceleration of the support moving upward while the stem is immersed in the eyeball. 6. The method for measuring intraocular pressure through the eyelid according to claim 2, characterized in that to determine the value of the intraocular pressure, information is additionally used on the speed or acceleration of the support moving upward while the stem is immersed in the eyeball. 7. The method for measuring intraocular pressure through the eyelid according to claim 3, characterized in that to determine the value of intraocular pressure, information is additionally used on the speed or acceleration of the support moving upward while the stem is immersed in the eyeball. 8. The method for measuring intraocular pressure through the eyelid according to claim 4, characterized in that to determine the value of the intraocular pressure, information is additionally used on the speed or acceleration of the support moving upward while the stem is immersed in the eyeball. 9. A device for measuring intraocular pressure, comprising a housing with a supporting part with two protrusions located therein, designed to create a constant predetermined load, an eyeball deformation element through the eyelid in the form of a rod mounted in the sleeve cavity with the possibility of moving it in guides under the action of its own weight to create an impact load, characterized in that a pressure sensor is used eye support. 10. Device for measuring intraocular pressure, comprising a housing with a supporting part with two protrusions located therein, designed to create a constant predetermined load, an eyeball deformation element through the eyelid in the form of a rod mounted in the sleeve cavity with the ability to move it in guides under the action of its own weight to create an impact load, characterized in that it uses an eye support pressure sensor and a rod acceleration unit with a magnetic field. 11. A device for measuring intraocular pressure, comprising a housing with a supporting part with two protrusions, designed to create a constant predetermined load, an eyeball deformation element through the eyelid in the form of a rod mounted in the sleeve cavity with the ability to move it in guides under the action of its own weight to create an impact load, characterized in that a rod counterweight, a rod acceleration unit, a rod center of mass support with a counterweight, a space-time measurement sensor are used of the characteristics of the counterweight of the rod and the sensor of the elastic wave of deformation of the sclera. 12. A device for measuring intraocular pressure according to claim 9, characterized in that it additionally uses a speed sensor or acceleration of the support relative to the housing. 13. The device for measuring intraocular pressure of claim 10, characterized in that it additionally uses a speed sensor or acceleration of the support relative to the housing. 14. The device for measuring intraocular pressure according to claim 11, characterized in that it additionally uses a speed sensor or acceleration of the support relative to the housing.