Device for use in real-time monitoring of human or animal bodily function
First Claim
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1. A device for use in real-time monitoring of human or animal bodily functions in vivo comprising:
- a scleral contact lens for locating and supporting the device on an eye including a pupil having a size determined by dilation of the pupil, a retina and an iris, of a human or animal; and
a first optical system supported by the contact lens having at least one discrete light input means and at least one discrete light receiving means, wherein the light input means is arranged to direct light through the contact lens and the pupil of the eye so as to illuminate at least a portion of the retina of the eye substantially independently of the pupil size and the light receiving means is positioned so as to receive light returning through the contact lens directly from a portion of the retina which is illuminated directly by the light input means.
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Abstract
The device comprises a scleral contact lens (1) for locating and supporting the device on the eye and has an optical system with at least one discrete light source, e.g. an optical fiber (9) or a light emitting diode, and at least one discrete light receiver, e.g. an optical fiber (10) or a photodetector, mounted within a carrier (6) on the scleral contact lens (1). The device may be used for spectrophotometric analysis of the retina (31) enabling it to be used in a wide variety of diagnostic and monitoring techniques. In a further arrangement (FIGS. 5 and 6) the device may be used to provide infra-red pupillometry. Further sensing devices may also be provided on the contact lens (1).
164 Citations
23 Claims
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1. A device for use in real-time monitoring of human or animal bodily functions in vivo comprising:
a scleral contact lens for locating and supporting the device on an eye including a pupil having a size determined by dilation of the pupil, a retina and an iris, of a human or animal; and
a first optical system supported by the contact lens having at least one discrete light input means and at least one discrete light receiving means, wherein the light input means is arranged to direct light through the contact lens and the pupil of the eye so as to illuminate at least a portion of the retina of the eye substantially independently of the pupil size and the light receiving means is positioned so as to receive light returning through the contact lens directly from a portion of the retina which is illuminated directly by the light input means.- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17)
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18. A disposable component of a device for real-time monitoring of human or animal bodily functions in vivo, the component comprising a scleral contact lens for locating and supporting the device on an eye including a pupil having a size determined by dilation of the pupil, a retina and an iris, of a human or animal and mounting means on the contact lens configured for detachably mounting and supporting an optical system on the lens in such a manner that, when mounted thereon, the optical system is positioned to direct light through the contact lens and the pupil of the eye so as to illuminate the retina of the eye substantially independently of the pupil size and to receive light returning through the contact lens from that portion of the retina illuminated by the optical system.
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19. A method of real-time monitoring of human or animal bodily functions in vivo comprising
using a scleral contact lens for locating and supporting a real-time monitoring device on an eye including a pupil having a size determined by dilation of the pupil, a retina and an iris, of a human or animal; - supporting an optical system by the contact lens, the system having at least one discrete light input means and at least one discrete light receiving means, using the light input means to direct light through the contact lens and the pupil of the eye so as to illuminate at least a portion of the retina of the eye substantially independently of the pupil size and positioning the light receiving means to receive light returning through the contact lens directly from that portion of the retina which is illuminated directly by the light input means.
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20. A device for use in real-time monitoring of human or animal bodily functions in vivo comprising:
a scleral contact lens for locating and supporting the device on an eye including an iris, of a human or animal, the eye having a pupil defining an optical axis, and an optical system supported by the contact lens arranged to direct light towards the eye and to receive light reflected from the iris of the eye, characterized in that the optical system comprises an array of discrete light input means for providing light and for directing that light towards the eye at a series of different distances from the optical axis and an array of discrete light receiving means for receiving light reflected from the iris of the eye at a series of different distances from the optical axis. - View Dependent Claims (21)
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22. A method of carrying out spectrophotometric analysis of a retina of an eye comprising the steps of:
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using a scleral contact lens for locating and supporting a real-time monitoring device on an eye including a pupil having a size determined by dilation of the pupil, a retina and an iris, of a human or animal; supporting an optical system by the contact lens, the system having at least one discrete light input means and at least one discrete light receiving means; using the light input means to direct light of a plurality of wavelengths from a light source through the contact lens and the pupil of the eye so as to illuminate at least a portion of the retina of the eye substantially independently of the pupil size, positioning the light receiving means so as to receive light returning through the contact lens from a portion of the retina which is illuminated directly by the light input means; using light sensing means to determine an intensity of light of different wavelengths received by the light receiving means, and determining an absorbance/reflectance characteristic for the retina therefrom.
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23. A method of determining dimensions of a pupil of an eye of a patient comprising the steps of:
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using a scleral contact lens for locating and supporting a real-time monitoring device on an eye including a pupil and an iris; supporting an optical system by the contact lens, the optical system comprising an array of discrete light input means for directing light towards the iris of the eye at a series of different distances from an optical axis and an array of discrete light receiving means for receiving light reflected from the iris of the eye at a series of different distances from the optical axis; supplying light via a light source and the array of discrete light input means towards the eye; determining, with light sensing means, which of the array of light receiving means receives light reflected from the iris with the dimensions of the pupil being determined therefrom.
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Specification
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Current AssigneeAdrian R. Hill, Christopher J. Glynn
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Original AssigneeAdrian R. Hill, Christopher J. Glynn
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InventorsHill, Adrian R., Glynn, Christopher J.
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Primary Examiner(s)Green, Randall L.
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Assistant Examiner(s)BURKE, ELIZABETH
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Application NumberUS07/768,645Time in Patent Office914 DaysField of Search128/665, 128/632.3, 128/666, 351/206, 351/219US Class Current600/476CPC Class CodesA61B 3/10 Objective types, i.e. instr...A61B 3/112 for measuring diameter of p...A61B 3/125 with contact lenses contact...A61B 5/0075 by spectroscopy, i.e. measu...A61B 5/021 Measuring pressure in heart...A61B 5/024 Detecting, measuring or rec...A61B 5/026 Measuring blood flow A61B3/...A61B 5/14555 specially adapted for the e...A61B 5/296 for electromyography [EMG]A61B 5/4821 Determining level or depth ...A61B 5/6821 Eye
