Sensor for Measuring Vital Parameters in the Auditory Canal
First Claim
1. A sensor for measuring a vital parameter in the ear canal (8) of a person or animal, comprising:
- a sensor element fixture (2), which can be positioned at least partially in the ear canal (8),a sensor element (1), which can be connected to the sensor element fixture (2), and can be positioned at least partially in the ear canal (8), anda positioning element (3), suitable for positioning the sensor element fixture (2) in the ear canal (8), whereby the positioning element (3) can be connected to the sensor element fixture (2) on at least one end,wherein the position of the sensor element (1) in the ear canal (8) is determined by the insertion depth of the sensor element fixture (2) into the ear canal (8),wherein the positioning element (3) exhibits a suitable form, corresponding to the anatomy of the interior face of the auricle, and is suitable for pressing the sensor element fixture (2) into the interior of the ear canal (8) in such a manner, that the sensor is held stable, and a continuous measurement of the vital parameter occurs in the ear canal (8), andwherein the sensor is designed with an adjustable size, preferably the sensor element fixture (2) and/or the positioning element (3) are designed to be exchangeable and/or adjustable in size.
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Accused Products
Abstract
The invention relates to a sensor for measuring a vital parameter in the auditory canal of a human or of an animal and to a method for determining tissue variables, preferably the oxygen saturation in the blood, particularly for performing pulse oximetry, preferably transmission pulse oximetry, in the auditory canal. The sensor comprises a sensor element support (2), which can be positioned at least partially in the auditory canal (8), a sensor element (1), which is connectable to the sensor element support (2) and can be positioned at least partially in the auditory canal (8), and a positioning element (3) suitable for positioning the sensor element support (2) in the auditory canal (8), wherein the positioning element (3) is connectable at least at one end to the sensor element support (2), wherein the position of the sensor element (1) in the auditory canal (8) is determined by the depth of insertion of the sensor element support (2) in the auditory canal (8), and wherein the positioning element (3) has a suitable shape, simulating the anatomy of the inside of the pinna, and is suitable for pressing the sensor element support (2) into the interior of the auditory canal (8) in such a way that the sensor is held stably and a continuous measurement of the vital parameter takes place in the auditory canal (8). A sensor is thus provided that is able to carry out continuous and exact measurement of vital parameters during movement of the body and that at the same time is cosmetically inconspicuous.
22 Citations
22 Claims
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1. A sensor for measuring a vital parameter in the ear canal (8) of a person or animal, comprising:
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a sensor element fixture (2), which can be positioned at least partially in the ear canal (8), a sensor element (1), which can be connected to the sensor element fixture (2), and can be positioned at least partially in the ear canal (8), and a positioning element (3), suitable for positioning the sensor element fixture (2) in the ear canal (8), whereby the positioning element (3) can be connected to the sensor element fixture (2) on at least one end, wherein the position of the sensor element (1) in the ear canal (8) is determined by the insertion depth of the sensor element fixture (2) into the ear canal (8), wherein the positioning element (3) exhibits a suitable form, corresponding to the anatomy of the interior face of the auricle, and is suitable for pressing the sensor element fixture (2) into the interior of the ear canal (8) in such a manner, that the sensor is held stable, and a continuous measurement of the vital parameter occurs in the ear canal (8), and wherein the sensor is designed with an adjustable size, preferably the sensor element fixture (2) and/or the positioning element (3) are designed to be exchangeable and/or adjustable in size. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
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9-10. -10. (canceled)
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11. A sensor for measuring a vital parameter in the ear canal (8) of a person or animal, comprising:
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a sensor element fixture (2), which can be positioned at least partially in the ear canal (8), wherein the sensor element fixture (2) is formed elastically in such a manner, so that through its spring force, it exerts a defined pressure on the wall of the ear canal (8), so that it adapts its form to the form of the ear canal (8); a sensor element (1), which can be connected to the sensor element fixture (2), and can be positioned at least partially in the ear canal (8); a positioning element (3), suitable for positioning the sensor element fixture (2) in the ear canal (8), whereby the positioning element (3) can be connected to the sensor element fixture (2) on at least one end; and a speaker that is suitable for returning biofeedback about the vital parameters measured in the ear canal (8) back to the interior of the ear canal (8); wherein the position of the sensor element (1) in the ear canal (8) is determined by the insertion depth of the sensor element fixture (2) into the ear canal (8); wherein the positioning element (3) exhibits a suitable form, corresponding to the anatomy of the interior face of the auricle, and is suitable for pressing the sensor element fixture (2) into the interior of the ear canal (8) in such a manner, that the sensor is held stable, and a continuous measurement of the vital parameter occurs in the ear canal (8); and wherein the sensor is designed with an adjustable size, preferably the sensor element fixture (2) and/or the positioning element (3) are designed to be exchangeable and/or adjustable in size. - View Dependent Claims (12, 13, 14, 15, 16)
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17. A process for determining optical tissue parameters, preferably the oxygen saturation in the blood, in particular for performing pulse oximetry, preferably transmission pulse oximetry in the ear canal (8), comprising the step of:
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providing a sensor having (a) a sensor element fixture (2), which can be positioned at least partially in the ear canal (8), (b) a sensor element (1), which can be connected to the sensor element fixture (2) and can be positioned at least partially in the ear canal (8), (c) a positioning element (3), suitable for positioning the sensor element fixture (2) in the ear canal (8), whereby the positioning element (3) can be connected to the sensor element fixture (2) on at least one end, (d) wherein the position of the sensor element (1) in the ear canal (8) is determined by the insertion depth of the sensor element fixture (2) into the ear canal (8), (e) wherein the positioning element (3) exhibits a suitable form, corresponding to the anatomy of the interior face of the auricle, and is suitable for pressing the sensor element fixture (2) into the interior of the ear canal (8) in such a manner, that the sensor is held stable, and a continuous measurement of the vital parameter occurs in the ear canal (8), and (f) wherein the sensor is designed with an adjustable size, preferably the sensor element fixture (2) and/or the positioning element (3) are designed to be exchangeable and/or adjustable in size; and optimizing the auxiliary dimension Ω
for the determination of oxygen saturation, preferably to a value of ≦
0.5, particularly preferably to a value ≧
0.4 and ≦
0.5, especially particularly preferably to a value of approximately 0.45, for human oxihemoglobin and/or for a wavelength, preferably of 740 nm and/or 880 nm, or for symmetric spectra of light-emitting diodes of the same central wavelength. - View Dependent Claims (18, 19, 20, 21, 22)
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Specification