Autoradiographic digital imager

US 5,475,225 A
Filed: 03/23/1992
Issued: 12/12/1995
Est. Priority Date: 03/17/1989
Status: Expired due to Term

First Claim

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1. A real-time autoradiographic digital radionuclide imager comprising a sensor, external off-chip electronics, a computer and a high voltage supply,said sensor comprising a scintillator having a thickness less than the penetration depth of the radionuclide particle in the scintillator, a microchannel plate high-resolution-amplifier and a readout chip structure,said readout chip structure comprising a detector array and readout array,said readout array comprising a plurality of unit cells, each associated with a single detector in the detector array and containing on-chip readout electronics adapted to change state in response to radiation from tissue samples, producing data indicative of the change of state,said readout and external electronics for timing and signal conditioning adapted to provide said data to said computer in digitized form in real time.

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Abstract

A real-time autoradiographic digital imager for accurately quantifying the spatial distribution of radio pharmaceuticals in tissue samples having a sensor for converting the energy of radionuclide particles to an electrical signal, external off-chip electronics for sensor timing and signal conditioning, a computer for data processing and image display and a high voltage supply to support the sensor operations. The sensor has a scintillator or phosphor for converting particle energy to lower energy photons, a microchannel plate high-resolution-amplifier for amplifying the photon signal, and a readout chip structure for converting the photon signal to an electrical signal. The readout chip structure consists of a detector array for converting the photons to an electrical charge, and a readout array for storing the data and providing the data, with low noise, to the output portion of the external electronics. The detector array and readout array are electrically connected by conducting bumps; the detector array is composed of detectors, and the readout array is composed of unit cells. Each unit cell is associated with a single detector in the detector array and contains readout electronics which produce data in response to radiation from tissue samples. Both the readout and external electronics provide the data in digitized form, in real-time, to a processing computer and CRT display.

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26 Claims

1. A real-time autoradiographic digital radionuclide imager comprising a sensor, external off-chip electronics, a computer and a high voltage supply,said sensor comprising a scintillator having a thickness less than the penetration depth of the radionuclide particle in the scintillator, a microchannel plate high-resolution-amplifier and a readout chip structure,said readout chip structure comprising a detector array and readout array,said readout array comprising a plurality of unit cells, each associated with a single detector in the detector array and containing on-chip readout electronics adapted to change state in response to radiation from tissue samples, producing data indicative of the change of state,said readout and external electronics for timing and signal conditioning adapted to provide said data to said computer in digitized form in real time.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11)
- - 2. The autographic digital radionuclide imager of claim 1 for imaging a biopsy wherein the readout chip structure covers an area at least equal to the size of the biopsy.
  - 3. The autoradiographic digital radionuclide imager of claim 1 wherein said scintillator comprises a layer exposed to said radionuclides placed at the input window of the microchannel plate high-resolution-amplifier, wherein said layer absorbes energy from the radionuclides and reflects or absorbs scintillator photons.
  - 4. The autoradiographic radionuclide digital imager of claim 3, wherein the thickness and density of said layer and of said scintillator and the photon production efficiency of said scintillator provides sensitivity and resolution sufficient for a real time high resolution display.
  - 5. The real time autoradiographic digital radionuclide imager of claim 4 wherein said layer is a metal layer and said scintillator thickness is less than about 100 μ
    - m.
  - 6. The real time autoradiographic digital radionuclide imager of claim 4 wherein said layer is a metal layer and said scintillator thickness is less than about 25 μ
    - m.
  - 7. The real time autoradiographic digital radionuclide imager of claim 4 wherein said unit cell dimension is less than about 50 μ
    - m.
  - 8. The real time autoradiographic digital radionuclide imager of claim 4 wherein said unit cell dimension is less than about 30 μ
    - m.
  - 9. The autoradiographic digital radionuclide imager of claim 1 wherein said scintillator comprises an input window that includes scintillator fibers.
  - 10. The autoradiographic radionuclide digital imager of claim 1, each of said unit cells comprising a signal storage capacitor, wherein said each of capacitors is adapted to store a signal indicative of the energy of a radionuclide particle emission.
  - 11. The autoradiographic digital radionuclide imager of claim 1, wherein said readout and external electronics is direct readout electronics adapted to provide said data in digitized form and in real-time.

12. A real-time autoradiographic digital radionuclide imager comprising a sensor, external off-chip electronics, a computer, and a high voltage supply,said sensor comprising a scintillator having a thickness less than the penetration depth of the radionuclide particle in the scintillator, a microchannel plate high-resolution-amplifier and a readout chip structure,said readout chip structure comprising a detector array and readout array,said readout array comprising a plurality of unit cells, each associated with a single detector in the detector array and containing on-chip readout electronics adapted to change state in response to radiation from tissue samples, producing data indicative of the change of state,said readout and external electronics for timing and signal conditioning adapted to provide said data to said computer in digitized form in real time,wherein said detector array and readout array are electrically connected by conducting bumps.

13. A real-time autoradiographic digital radionuclide imager comprising a sensor, external off-chip electronics, a computer, and a high voltage supply,said sensor comprising a scintillator having a thickness less than the penetration depth of the radionuclide particle in the scintillator, a microchannel plate high-resolution-amplifier and a readout chip structure,said readout chip structure comprising a detector array and readout array,said readout array comprising a plurality of unit cells, each associated with a single detector in the detector array and containing on-chip readout electronics adapted to change state in response to radiation from tissue samples, producing data indicative of the change of state,said readout and external electronics for timing and signal conditioning adapted to provide said data to said computer in digitized form in real time,each of said unit cells comprising a signal storage capacitor, wherein said each of capacitors is adapted to store a signal indicative of the energy of a radionuclide particle emission,each of said unit cells further comprising electronic means to enable selection of said unit cell prior to data readout and to reset said capacitor just after data readout and to enable selection and transfer of said the signal from said capacitor to said external electronics.

14. A multi-layered sensor having readout and external electronics,said sensor comprising an electron energy absorptive and photon reflecting or absorbing layer, a scintillator layer, a microchannel plate high-resolution amplifier and a readout chip structure comprising a readout array and a detector array,said readout array comprising a plurality of unit cells, each associated with a single detector in the detector array and containing readout electronics adapted to change state in response to radiation from tissue samples, producing data indicative of the change of state,said readout and external electronics, adapted to read out said data in digitized form in real time.
- View Dependent Claims (15, 16, 17, 18, 19, 20)
- - 15. The multi-layered sensor of claim 14 for imaging a biopsy wherein the readout chip structure covers an area at least equal to the size of the biopsy.
  - 16. The multi-layered sensor of claim 14 wherein said electron energy absorptive and photon reflective or absorbing layer is located on a surface of the scintillator layer and said scintillator layer is placed at the input window of the microchannel plate.
  - 17. The multi-layered sensor of claim 16, wherein the thickness and density of said layer and of said scintillator and the photon production efficiency of said scintillator provides sensitivity and resolution sufficient for a real time high resolution display.
  - 18. The multi-layered sensor of claim 14 wherein said scintillator comprises an input window that includes scintillator fibers.
  - 19. The multi-layered sensor of claim 14, each of said unit cells comprising a signal storage capacitor, wherein each of said capacitors is adapted to store a signal indicative of a sensed particle.
  - 20. The multi-layered sensor of claim 14, wherein said readout and external electronics is direct readout electronics adapted to provide said data in digitized form and in real-time.

21. A multi-layered sensor having readout and external electronics,said sensor comprising an electron energy absorptive and photon reflecting or absorbing layer, a scintillator layer, a microchannel plate high-resolution amplifier and a readout chip structure comprising a readout array and a detector array,said readout array comprising a plurality of unit cells, each associated with a single detector in the detector array and containing readout electronics adapted to change state in response to radiation from tissue samples, producing data indicative of the change of state,said readout and external electronics, adapted to read out said data in digitized form in real time,wherein the readout chip structure comprises a detector array and readout array electrically connected by conducting bumps.

22. A multi-layered sensor having readout and external electronics,said sensor comprising an electron energy absorptive and photon reflecting or absorbing layer, a scintillator layer, a microchannel plate high-resolution amplifier and a readout chip structure comprising a readout array and a detector array,said readout array comprising a plurality of unit cells, each associated with a single detector in the detector array and containing readout electronics adapted to change state in response to radiation from tissue samples, producing data indicative of the change of state,each of said unit cells comprising a signal storage capacitor, wherein each of said capacitors is adapted to store a signal indicative of the sensed particle,each of said unit cells further comprising electronic means to enable selection of said unit cell prior to data readout and to enable selection and transfer of said signal from said capacitor to said external electronics.

23. A readout chip structure comprising a two dimensional detector array and readout array electrically connected by conducting bumps, and external electronics,said detector array comprising a plurality of small detectors,said readout array comprising a plurality of small unit cells, each associated with a single detector in the detector array and containing readout electronics adapted to change state in response to radiation from tissue samples, producing data indicative of the change of state,said external electronics adapted to read out said data in digitized form in real time.
- View Dependent Claims (24, 25, 26)
- - 24. The readout chip structure of claim 23, said small unit cell comprising a signal storage capacitor, wherein said capacitor is adapted to store a signal indicative of the energy of radionuclide particle emission.
  - 25. The readout chip structure of claim 24, said small unit cell further comprising electronic means to be selected prior to data readout and to reset said capacitor just after data readout and to select and transfer the signal from said capacitor to off-chip external electronics.
  - 26. The readout chip structure of claim 23, wherein said readout electronics is direct readout electronics adapted to readout said data in digitized form and in real-time.

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Current Assignee
Continental Autonomous Mobility US LLC (Continental AG)
Original Assignee
Advanced Scientific Concepts, Inc.
Inventors
Stettner, Roger
Primary Examiner(s)
Hannaher, Constantine

Application Number

US07/856,019
Time in Patent Office

1,359 Days
Field of Search

250/370.11, 250/332, 250/370.09
US Class Current

250/370.11
CPC Class Codes

G01T 1/20184 Detector read-out circuitry...

G01T 1/28 with secondary-emission det...

Autoradiographic digital imager

First Claim

4 Assignments

0 Petitions

Accused Products

Abstract

23 Citations

26 Claims

Specification

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Autoradiographic digital imager

First Claim

4 Assignments

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0 Petitions

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Accused Products

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Abstract

23 Citations

26 Claims

Specification

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Solutions

Use Cases

Quick Links