Systems, Circuits and Apparatus For In Vivo Detection of Biomolecule Concentrations Using Fluorescent Tags

US 20080228049A1
Filed: 05/23/2008
Published: 09/18/2008
Est. Priority Date: 11/09/2000
Status: Abandoned Application

First Claim

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1. A system for detecting biomolecules in vivo, comprising:

means for providing labeled binding molecules in vivo to tissue having biomolecules, wherein the labeled binding molecules specifically binds the biomolecules;

means for emitting a first optical radiation into the tissue in vivo to excite the labeled binding molecule bound to the biomolecule in vivo; and

means for detecting, in vivo, a second optical radiation emitted by the excited labeled binding molecule in response to the excitation thereof.

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Abstract

Systems are disclosed wherein labeled binding molecules can be provided in vivo to tissue having biomolecules that specifically bind the labeled binding molecule. A first optical radiation is emitted into the tissue in vivo to excite the labeled binding molecule bound to the biomolecule in vivo. A second optical radiation that is emitted by the excited labeled binding molecule, in response to the excitation thereof, can be detected in vivo. Related telemetric-circuits and apparatus are also disclosed.

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11 Claims

1. A system for detecting biomolecules in vivo, comprising:
- means for providing labeled binding molecules in vivo to tissue having biomolecules, wherein the labeled binding molecules specifically binds the biomolecules;
  
  means for emitting a first optical radiation into the tissue in vivo to excite the labeled binding molecule bound to the biomolecule in vivo; and
  
  means for detecting, in vivo, a second optical radiation emitted by the excited labeled binding molecule in response to the excitation thereof.

2. An implantable apparatus comprising:
- an optical radiation source configured for in vivo use to emit first optical radiation to excite local fluorescently labeled binding molecules in vivo which are selectively bound to target biomolecules;
  
  an optical radiation detector configured for in vivo use to detect second optical radiation emitted by fluorescence of the labeled binding molecules bound to the target biomolecules in vivo in response to excitation exposure to the first optical radiation;
  
  a processor circuit, coupled to the optical radiation source and the optical radiation detector, that controls the emission of the first optical radiation and that receives an intensity signal associated with the intensity of the second optical radiation and transmits a signal associated with the intensity of the second optical radiation to an ex vivo system; and
  
  a supply of the fluorescently labeled binding molecules configured to be excited by the first optical radiation, the supply being encapsulated by a material that dissolves over time to release the fluorescently labeled binding molecules in vivo proximate to the target biomolecules to which the fluorescently labeled binding molecules are configured to bind.
- View Dependent Claims (3, 4, 5, 6)
- - 3. An apparatus according to claim 2, wherein the optical radiation source emits the first optical radiation through a bio-fouling tissue.
  - 4. An apparatus according to claim 2, wherein the optical radiation sensor detects the second optical radiation through a bio-fouling tissue.
  - 5. An apparatus according to claim 2, further comprising a platform having a diameter of about 2.0 mm on which the processor circuit, the optical radiation source, and the optical radiation detector are mounted.
  - 6. An apparatus according to claim 2, wherein the supply of the fluorescently labeled binding molecules is located on a platform with the optical radiation source, the optical radiation detector, and the processor circuit.

7. A circuit for detecting biomolecules in vivo, the circuit comprising:
- an in vivo optical radiation source configured to emit first optical radiation;
  
  a first in vivo optical radiation detector configured to detect the first optical radiation to provide an optical radiation source feed back signal;
  
  a second in vivo optical radiation detector configured to detect second optical radiation emitted by excited labeled binding molecules; and
  
  a processor circuit, coupled to the in vivo optical radiation source and the first and second in vivo optical radiation detectors, configured to change a level of the first optical radiation based on the optical radiation source feed back signal.
- View Dependent Claims (8)
- - 8. A circuit according to claim 7 further comprising:
    - a circuit board having the processor circuit and, the first and second optical radiation detectors thereon, wherein the first and second optical radiation detectors are on opposing sides thereof.

9. A circuit for detecting biomolecules in vivo, the circuit comprising:
- an in vivo optical radiation source configured to emit first optical radiation;
  
  an in vivo optical radiation detector configured to detect second optical radiation emitted by excited labeled binding molecules; and
  
  a processor circuit, coupled to the in vivo optical radiation source and the in vivo optical radiation detector, configured to operate in conjunction with the release of labeled binding molecules for binding with biomolecules associated with tumors for excitation by the first optical radiation and that receives an intensity signal associated with the intensity of the second optical radiation.

10. A circuit for detecting biomolecules in vivo, the circuit comprisingan in vivo optical radiation source configured to emit first optical radiation;
- an apparatus configured to controllably release labeled binding molecules for excitation;
  
  an in vivo optical radiation detector configured to detect second optical radiation emitted by excited labeled binding molecules; and
  
  a processor circuit, coupled to the in vivo optical radiation source, the in vivo optical radiation detector, and the apparatus, the processor circuit configured to control the emission of the first optical radiation and to receive a signal associated with the intensity of the second optical radiation and configured to temporally control release of labeled binding molecules from the apparatus according to a predetermined time interval.
- View Dependent Claims (11)
- - 11. A circuit according to claim 10 wherein the apparatus is in communication with a vibrator configured to vibrate responsive to control of the processor circuit.

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Current Assignee
VTQ IP Holding Corporation
Original Assignee
Sicel Technologies, Inc.
Inventors
Black, Robert D.

Application Number

US12/126,500
Publication Number

US 20080228049A1
Time in Patent Office

Days
Field of Search
US Class Current

600/310
CPC Class Codes

A61B 5/0071   by measuring fluorescence e...

A61B 5/0084   for introduction into the b...

A61K 49/0058   Antibodies

Systems, Circuits and Apparatus For In Vivo Detection of Biomolecule Concentrations Using Fluorescent Tags

First Claim

2 Assignments

0 Petitions

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Abstract

106 Citations

11 Claims

Specification

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Systems, Circuits and Apparatus For In Vivo Detection of Biomolecule Concentrations Using Fluorescent Tags

First Claim

2 Assignments

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0 Petitions

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Accused Products

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Abstract

106 Citations

11 Claims

Specification

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Solutions

Use Cases

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