Optical fiber based fluorescent immunoassay apparatus
First Claim
1. An apparatus for performing a competitive or sandwich fluoroimmunoassay for an analyte in a test sample wherein said sample is contacted with (a) an optical fiber having an end surface comprising an antigen or antibody capable of specifically binding to said analyte, and (b) a fluorescence-labeled specific binding partner selected from the group consisting of said analyte and an antigen or antibody capable of specifically binding to said analyte, said apparatus comprising:
- (a) an excitation light source,(b) a fluorescence detector,(c) an optical fiber comprising(1) an incoming end surface for receiving excitation light from said excitation light source, and(2) said outgoing end surface having said antigen or antibody immobilized thereon, and(d) a spectroscope;
wherein said spectroscope is constructed so that it transmits said excitation light to said incoming end surface of said optical fiber and transmits any reflected fluorescence due to bound said fluorescence-labeled specific binding partner from said incoming end surface of said optical fiber to said fluorescence detector; and
wherein said optical fiber(i) has an angle θ
which defines an angle formed between said outgoing end surface and an incident direction of propagation of said excitation light, and is defined as
space="preserve" listing-type="equation">θ
>
(π
/2)-sin.sup.-1 (n2/n1)wherein n1 is the refractive index of a core portion of said optical fiber and n2 is the refractive index of a test medium in contact with said optical fiber; and
(ii) has a surface roughness Rmax of 0.005 μ
m to 5 μ
m, whereby reflection of said excitation light is prevented.
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Abstract
The present invention relates to an apparatus for performing a fluoroimmunoassay, the apparatus comprising an excitation light source, a fluorescence detector, an optical fiber for an excitation light from the excitation light source to which an antigen or antibody is bound, and a spectroscope, in which the mentioned antigen or antibody is bound to an outgoing end surface of the optical fiber for the excitation light. In the apparatus the spectroscope is constructed so that it introduces the excitation light emitted from the excitation light source to a incident end surface of the optical fiber for the excitation light and introduces a fluorescence emitted from a fluorescence-labeled antibody or antigen which forms an immunological complex with the antigen or antibody to the fluorescence detector. In the apparatus the outgoing end surface of the optical fiber for the excitation light has a transmittance for the excitation light from the excitation light source. The invention also relates to a sensing chip which is used in the apparatus for performing a fluoroimmunoassay therewith.
31 Citations
7 Claims
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1. An apparatus for performing a competitive or sandwich fluoroimmunoassay for an analyte in a test sample wherein said sample is contacted with (a) an optical fiber having an end surface comprising an antigen or antibody capable of specifically binding to said analyte, and (b) a fluorescence-labeled specific binding partner selected from the group consisting of said analyte and an antigen or antibody capable of specifically binding to said analyte, said apparatus comprising:
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(a) an excitation light source, (b) a fluorescence detector, (c) an optical fiber comprising (1) an incoming end surface for receiving excitation light from said excitation light source, and (2) said outgoing end surface having said antigen or antibody immobilized thereon, and (d) a spectroscope; wherein said spectroscope is constructed so that it transmits said excitation light to said incoming end surface of said optical fiber and transmits any reflected fluorescence due to bound said fluorescence-labeled specific binding partner from said incoming end surface of said optical fiber to said fluorescence detector; and wherein said optical fiber (i) has an angle θ
which defines an angle formed between said outgoing end surface and an incident direction of propagation of said excitation light, and is defined as
space="preserve" listing-type="equation">θ
>
(π
/2)-sin.sup.-1 (n2/n1)wherein n1 is the refractive index of a core portion of said optical fiber and n2 is the refractive index of a test medium in contact with said optical fiber; and (ii) has a surface roughness Rmax of 0.005 μ
m to 5 μ
m, whereby reflection of said excitation light is prevented. - View Dependent Claims (2, 3, 4, 5)
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6. A sensing chip for performing a competitive or sandwich fluoroimmunoassay for an analyte in a test sample wherein said sample is contacted with (a) an optical fiber having an end surface comprising an antigen or antibody capable of specifically binding to said analyte, and (b) a fluorescence-labelled specific binding partner selected from the group consisting of said analyte and an antigen or antibody capable of specifically binding to said analyte, said sensing chip being a removable piece of connectable optical fiber comprising:
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(1) an incoming end surface which is connectable to a fiber optic for receiving excitation light from an excitation light source, and (2) said outgoing end surface having said antigen or antibody immobilized thereon; and wherein said optical fiber of said sensing chip possesses; (i) an angle θ
which defines an angle formed between said outgoing end surface and an incident direction of propagation of said excitation light, and is defined as
space="preserve" listing-type="equation">θ
>
(π
/2)-sin.sup.-1 (n2/n1)wherein n1 is the refractive index of a core portion of said optical fiber of said sensing chip and n2 is the refractive index of a test medium in contact with said optical fiber of said sensing chip, and (ii) a surface roughness Rmax of 0.005 μ
m to 5 μ
m, whereby reflection of said excitation light is prevented. - View Dependent Claims (7)
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Specification