Monitoring treatment using implantable telemetric sensors

US 6,682,480 B1
Filed: 03/28/2001
Issued: 01/27/2004
Est. Priority Date: 07/22/1998
Status: Expired due to Term

First Claim

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1. A device for implantation into the body of a human or non-human animal, which device comprises a chip sized passive sensor which is adapted (a) to receive and to rectify an electromagnetic signal with a frequency of 1-2 GHz directed from outside the body towards said sensor, the sensor being adapted to derive its operating power directly from said electromagnetic signal, and (b) to use power thus obtained by said sensor to transmit data relating to treatment parameters by wireless telemetry to a receiver external to the body of the human or non-human animal in response to the received electromagnetic signal with a frequency of 1-2 Ghz.

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Abstract

Methods of and devices for monitoring the treatment of a human or non-human animal are disclosed. These involve a chip-sized passive sensor which is adapted (a) to receive and to rectify an electromagnetic signal with a frequency of 1-2 Ghz directed from outside the body towards it and to derive its operating power directly from the electromagnetic signal, and (b) to use its thus obtained operating power to transmit data relating to treatment by wireless telemetry to a receiver external to the body of the human or non-human animal. The data transmitted by the sensor is then processed to provide information on the treatment.

166 Citations

11 Claims

1. A device for implantation into the body of a human or non-human animal, which device comprises a chip sized passive sensor which is adapted (a) to receive and to rectify an electromagnetic signal with a frequency of 1-2 GHz directed from outside the body towards said sensor, the sensor being adapted to derive its operating power directly from said electromagnetic signal, and (b) to use power thus obtained by said sensor to transmit data relating to treatment parameters by wireless telemetry to a receiver external to the body of the human or non-human animal in response to the received electromagnetic signal with a frequency of 1-2 Ghz.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 11)
- - 2. A device as claimed in claim 1, which is adapted to remain inactive and not consuming any power unless said sensor is activated by an external radio signal.
  - 3. A device as claimed in claim 1, wherein the device includes an antenna/rectifier to provide operating power from incoming electromagnetic energy.
  - 4. A device as claimed in claim 3, wherein said antenna/rectifier is adapted to provide operating power from incoming polarized electromagnetic energy.
  - 5. A device as claimed in claim 1, wherein said sensor is a pressure sensor.
  - 6. A device as claimed in claim 1, which further comprises a therapeutic device.
  - 7. A device as claimed in claim 6 wherein said therapeutic device is one or more of:
    - (1) a device for delivering heat in a localized manner, (2) a pump for assisting blood flow;
      
      (3) a stent for ensuring lumen patency of hollow viscera and ducts;
      
      (4) a pressure sensor for detecting localized pressures;
      
      (5) a flow meter for determining passage of a fluid through a duct;
      
      (6) a drug release device;
      
      (7) a pacemaker; and
      
      (8) a detector for particular chemical or biological material or species.
  - 8. A device as claimed in claim 6, wherein said therapeutic device is a device for delivering heat in a localized manner in order to treat a tumor.
  - 11. A system as claimed in claim 8, wherein the antenna of the first component is a filamentary coil shaped antenna.

9. A method of monitoring treatment of a human or non-human animal, which comprises implanting into the body of the human or non-human animal at or close to a desired locus of treatment a chip size passive sensor which is adapted (a) to receive and to rectify an electromagnetic signal with a frequency of 1-2 GHz directed from outside the body towards the sensor, with the said sensor deriving its operating power directly from said electromagnetic signal, and (b) to use power thus obtained by said sensor to transmit data relating to treatment parameters by wireless telemetry to a receiver external to the body of the human or non-human animal in response to the received electromagnetic signal with a frequency of 1-2 Ghz;
- and processing the data transmitted by said sensor to provide information on the treatment.

10. A system for monitoring the treatment of a human or non-human animal, which system comprises (a) a first component adapted to be implanted into the body of the human or non-human animal at or close to a site of treatment;
- and (b) a second component in the form of a unit external to the body of the human or non-human animal,wherein;
  
  (A) said first component is chip sized, comprises rectification circuitry and signal processing circuitry and is attached to an antenna;
  
  (B) said second component comprises a microwave source, a receiver, a transmit/receive antenna and control circuitry for controlling wireless interrogation of said first component; and
  
  (C) said first component is arranged;
  
  (a) to receive and rectify an electromagnetic signal with a frequency of 1-2 GHz transmitted by the antenna of said second component, said first component being adapted to utilize the rectified signal strength to power active device within said first component and (b) to transmit data relating to treatment parameters by wireless telemetry to said second component in response to the received electromagnetic signal with a frequency of 1-2 Ghz; and
  
  (D) said second component is adapted to transmit an electromagnetic signal with a frequency of 1-2 GHz towards said first component and, using operating power derived from said electromagnetic signal when said first component is in use in the body of the human or non-human animal, to interrogate said first component to derive therefrom data pertaining to the treatment which the human or non-human animal is undergoing.

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Current Assignee
Boston Scientific Limited (Boston Scientific Corporation)
Original Assignee
Imperial College Innovations Ltd. (Imperial College London)
Inventors
Sangster, Alan John, Habib, Nagy Adly
Primary Examiner(s)
MARMOR II, CHARLES ALAN

Application Number

US09/744,220
Time in Patent Office

1,035 Days
Field of Search

600/300, 600/301, 600/316, 600/319, 600/323, 600/332, 600/339, 600/348, 600/361, 600/345, 600/364, 600/365, 600/347, 600/561, 600/587, 600/486, 128/903, 128/904, 128/897-899, 607/2, 607/60, 607/61
US Class Current

600/300
CPC Class Codes

A61B 5/0031   Implanted circuitry

A61F 2250/0002   for data transfer

A61N 1/37223   Circuits for electromagneti...

A61N 1/3787   from an external energy source

H01Q 1/248   provided with an AC/DC conv...

Monitoring treatment using implantable telemetric sensors

First Claim

3 Assignments

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Abstract

166 Citations

11 Claims

Specification

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Monitoring treatment using implantable telemetric sensors

First Claim

3 Assignments

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0 Petitions

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Accused Products

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Abstract

166 Citations

11 Claims

Specification

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Solutions

Use Cases

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