Method and apparatus for monitoring the breathing of a patient during magnetic resonance imaging
First Claim
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1. A method to detect the presence of breathing of a patient, comprising:
- (a) providing an optical exciter means which generates an excitation light, (b) providing an optical transmission means comprising one or more optical fibers, (c) transmitting said excitation light through said optical transmission means, (d) providing an optical temperature change sensing means which, when excited with said excitation light, generates a return light, and where said return light changes characteristics correspondent with changes in the temperature of said optical temperature change sensing means, (e) coupling the transmitted excitation light from said optical transmission means into said optical temperature change sensing means, (f) placing said optical temperature change sensing means in thermal communication with the respiratory airstream of said patient, (g) transmitting said return light through said optical transmission means, (h) providing an optical receiver means which converts said return light into an electrical signal, (i) coupling said return light out of said optical transmission means into said optical receiver means, whereby said electrical signal indicates the presence of breathing of said patient.
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Abstract
A breath sensor utilizes optical fibers to detect the flow of a patients respiratory airstream. As it has no conductive or magnetic parts, it can be used on patients within the bore of a magnetic resonance imaging system for simple, safe, and rapid assessment of a patient'"'"'s breathing.
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Citations
21 Claims
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1. A method to detect the presence of breathing of a patient, comprising:
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(a) providing an optical exciter means which generates an excitation light, (b) providing an optical transmission means comprising one or more optical fibers, (c) transmitting said excitation light through said optical transmission means, (d) providing an optical temperature change sensing means which, when excited with said excitation light, generates a return light, and where said return light changes characteristics correspondent with changes in the temperature of said optical temperature change sensing means, (e) coupling the transmitted excitation light from said optical transmission means into said optical temperature change sensing means, (f) placing said optical temperature change sensing means in thermal communication with the respiratory airstream of said patient, (g) transmitting said return light through said optical transmission means, (h) providing an optical receiver means which converts said return light into an electrical signal, (i) coupling said return light out of said optical transmission means into said optical receiver means, whereby said electrical signal indicates the presence of breathing of said patient.
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2. A method to detect the presence of breathing of a patient within the bore of a magnetic resonance imaging system, comprising:
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(a) providing an optical exciter means which generates an excitation light, (b) providing an optical transmission means comprising one or more optical fibers and comprising substantially non-conductive and substantially non-magnetic materials in those parts of said optical transmission means placed within the bore of said magnetic resonance imaging system, (c) transmitting said excitation light through said optical transmission means, (d) providing an optical temperature change sensing means which, when excited with said excitation light, generates a return light, where said return light changes characteristics correspondent with changes in the temperature of said optical temperature change sensing means, and where said optical temperature change sensing means consists of substantially non-conductive and substantially non-magnetic materials, (e) coupling the transmitted excitation light from said optical transmission means into said optical temperature change sensing means, (f) placing said optical temperature change sensing means in thermal communication with the respiratory airstream of said patient, (g) transmitting said return light through said optical transmission means, (h) providing an optical receiver means which converts said return light into an electrical signal, (i) coupling said return light out of said optical transmission means into said optical receiver means, whereby said electrical signal indicates the presence breathing of said patient without distorting the magnetic field or gradient fields within said patient, and without the potential for injury of said patient from induced currents. - View Dependent Claims (3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14)
(a) said optical transmission means comprises at least one singlemode optical fiber, and (b) said optical temperature change sensing means comprises a multimode optical fiber, and (c) said multimode optical fiber has sufficient optical reflectivity at its ends to create interference of light within said multimode optical fiber, and (d) said optical exciter means is an optical source with sufficiently narrow optical bandwidth such that a plurality of intensity fluctuations are observed at said optical receiver means, and where said intensity fluctuations are correlated with the breathing of said patient.
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13. The method in claim 2 wherein:
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(a) said optical transmission means comprises at least one singlemode optical fiber, and (b) said optical temperature change sensing means comprises an optical cavity, where said optical cavity can contain a plurality of transverse optical modes, and (c) said optical cavity has sufficient optical reflectivity at its ends to cause interference of light within said optical cavity, and (d) said optical exciter means is an optical source with sufficiently narrow optical bandwidth such that a plurality of intensity fluctuations of said return light are observed at said optical receiver means, and where said intensity fluctuations are correlated with the breathing of said patient.
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14. The method in claim 2 wherein:
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(a) said optical transmission means comprises at least one singlemode optical fiber, and (b) said optical temperature change sensing means comprises a second singlemode optical fiber, and (c) said second singlemode optical fiber has sufficient optical reflectivity at each of its ends to create interference of light within said optical temperature change sensing means, and (d) said optical exciter means is an optical source with sufficiently narrow optical bandwidth such that a change in intensity of said return light is observed at said optical receiver means, and where said change in intensity is correlated with the breathing of said patient.
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15. A device for detecting the presence of breathing of a patient within the bore of a magnetic resonance imaging system, comprising:
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(a) an optical exciter means which generates an excitation light, where said excitation light comprises certain wavelengths of light sufficient to excite luminescence in a luminescent material;
(b) an optical transmission means comprising one or more optical fibers and comprising substantially non-conductive and substantially non-magnetic materials in those parts of said optical transmission means placed within the bore of said magnetic resonance imaging system, said optical transmission means being attached to one end of said optical exciter means such that said excitation light is coupled into said optical transmission means;
(c) an optical temperature change sensing means;
(1) comprising said luminescent material which is characterized by emitting luminescent radiation when excited by transient optical radiation, and where said luminescent radiation continues and decays in time beyond the cessation of excitation, and said luminescent radiation decays with a functional form which varies in response to variations in temperature, and (2) comprising an attachment means which holds said luminescent material in sufficiently close proximity to an end of said optical transmission means such that said luminescent material can be excited by said excitation light, and said luminescent radiation is coupled into said optical transmission means, and (3) where said optical temperature change sensing means is placed in thermal communication with said patient'"'"'s respiratory airstream, and (4) where said optical temperature change sensing means has sufficiently low thermal mass so that it'"'"'s temperature can be used to follow said patient'"'"'s breathing; and
(d) an optical receiver means which is attached to an end of said optical transmission means such that said luminescent radiation is coupled into said optical receiver means, and where said optical receiver means converts said luminescent radiation into an electrical signal;
whereby said electrical signal indicates the presence of breathing in said patient without distorting the magnetic field or gradient fields within said patient, and without the potential for injury of said patient from induced currents. - View Dependent Claims (16, 17, 18)
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19. A device for detecting the presence of breathing of a patient within the bore of a magnetic resonance imaging system, comprising:
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(a) an optical exciter means which generates an excitation light, where said excitation light has a narrow optical bandwidth;
(b) an optical transmission means comprising at least one singlemode optical fiber and comprising substantially non-conductive and substantially non-magnetic materials in those parts of said optical transmission means placed within the bore of said magnetic resonance imaging system, said optical transmission means being attached to one end of said optical exciter means such that said excitation light is coupled into said optical transmission means;
(c) an optical temperature change sensing means;
(1) comprising a multimode optical fiber, where said multimode optical fiber can support a plurality of transverse optical modes, and where said multimode optical fiber has sufficient optical reflectivity at its ends to create interference of light within said multimode optical fiber, and (2) comprising an attachment means which holds said multimode optical fiber in sufficiently close proximity to an end of said optical transmission means such that the excitation light from said optical transmission means is coupled into said multimode optical fiber such that a plurality of transverse optical modes are excited, and such that a return light consisting of some of the light from said transverse optical modes is coupled into said optical transmission means, and (3) where said optical temperature change sensing means is placed in thermal communication with said patient'"'"'s respiratory airstream, and (4) where said optical temperature change sensing means has sufficiently low thermal mass so that it'"'"'s temperature can be used to follow said patient'"'"'s breathing; and
(d) an optical receiver means which is attached to an end of said optical transmission means such that said return light is coupled into said optical receiver means, and where said optical receiver means converts said return light into an electrical signal, and where said optical bandwidth of said excitation light is sufficiently narrow such that a plurality of intensity fluctuations of said return light are observed at said optical receiver means for each breath of said patient;
whereby said electrical signal indicates the presence of breathing in said patient without distorting the magnetic field or gradient fields within said patient, and without the potential for injury of said patient from induced currents.
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20. A device for detecting the presence of breathing of a patient within the bore of a magnetic resonance imaging system, comprising:
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(a) an optical exciter means which generates an excitation light, where said excitation light has a narrow optical bandwidth;
(b) an optical transmission means comprising at least one singlemode optical fiber and comprising substantially non-conductive and substantially non-magnetic materials in those parts of said optical transmission means placed within the bore of said magnetic resonance imaging system, said optical transmission means being attached to one end of said optical exciter means such that said excitation light is coupled into said optical transmission means;
(c) an optical temperature change sensing means;
(1) comprising an optical cavity, where said optical cavity can support a plurality of transverse optical modes, and where said optical cavity has sufficient optical reflectivity at its ends to create interference of light within said optical cavity, and (2) comprising an attachment means which holds said optical cavity in sufficiently close proximity to an end of said optical transmission means such that the excitation light from said optical transmission means is coupled into said optical cavity such that said transverse optical modes are excited, and such that a return light consisting of some of the light from said transverse optical modes is coupled into said optical transmission means, and (3) where said optical temperature change sensing means is placed in thermal communication with said patient'"'"'s respiratory airstream, and (4) where said optical temperature change sensing means has sufficiently low thermal mass so that it'"'"'s temperature can be used to follow said patient'"'"'s breathing; and
(d) an optical receiver means which is attached to an end of said optical transmission means such that said return light is coupled into said optical receiver means, and where said optical receiver means converts said return light into an electrical signal, and where said optical bandwidth of said excitation light is sufficiently narrow such that a plurality of intensity fluctuations of said return light are observed at said optical receiver means for each breath of said patient;
whereby said electrical signal indicates the presence of breathing in said patient without distorting the magnetic field or gradient fields within said patient, and without the potential for injury of said patient from induced currents.
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21. A device for detecting the presence of breathing of a patient within the bore of a magnetic resonance imaging system, comprising:
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(a) an optical exciter means which generates an excitation light, where said excitation light has a narrow optical bandwidth;
(b) an optical transmission means comprising at least one singlemode optical fiber and comprising substantially non-conductive and substantially non-magnetic materials in those parts of said optical transmission means placed within the bore of said magnetic resonance imaging system, said optical transmission means being attached to one end of said optical exciter means such that said excitation light is coupled into said optical transmission means;
(c) an optical temperature change sensing means;
(1) comprising a singlemode optical fiber having sufficient optical reflectivity at its ends to create interference of light within said singlemode optical fiber, and (2) comprising an attachment means which holds said singlemode optical fiber in sufficiently close proximity to an end of said optical transmission means such that the excitation light from said optical transmission means is coupled into said singlemode optical fiber and such that a return light consisting of some of the light reflected from said singlemode optical fiber is coupled into said optical transmission means, and (3) where said optical temperature change sensing means is placed in thermal communication with said patient'"'"'s respiratory airstream, and (4) where said optical temperature change sensing means has sufficiently low thermal mass so that it'"'"'s temperature can be used to follow said patient'"'"'s breathing; and
(d) an optical receiver means which is attached to an end of said optical transmission means such that said return light is coupled into said optical receiver means, and where said optical receiver means converts said return light into an electrical signal, and where said optical bandwidth of said excitation light is sufficiently narrow such that a change in intensity of said return light is observed at said optical receiver means, and where said change in intensity is correlated with the breathing of said patient, whereby said electrical signal indicates the presence of breathing in said patient without distorting the magnetic field or gradient fields within said patient, and without the potential for injury of said patient from induced currents.
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Specification