Radiation responsive surgical instrument

US 5,441,050 A
Filed: 12/18/1992
Issued: 08/15/1995
Est. Priority Date: 12/18/1992
Status: Expired due to Fees

First Claim

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1. A surgical probe instrument for locating and differentiating tissue at which a locator is concentrated, comprising:

a finger mount having a support region and an oppositely disposed finger mount portion configured for slideable positioning and retention upon a portion of a finger of a surgeon, and a detector mount portion positioned at said support region having a crystal retainer comprised of materials attenuating radiation at predetermined energy levels less than about 150 Kev, said detector mount portion having a detector seat and sidewalls extending to a forward opening;

a crystal detector mounted at said detector seat for response to radiation impinging thereon only from said forward opening to provide a detector output;

a window transmissive of said radiation, mounted over said detector mount portion;

transmission means responsive to said detector output for providing a transmit pulsed output; and

a control system coupled with said transmission means in a manner receiving said pulsed output for validating said transmit pulsed output with respect to said predetermined energy levels to identify valid pulses, said system computing the rate of said valid pulses and generating an audible output audibly perceptible to the surgeon at a frequency selected to correspond with said rate.

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Abstract

A crystal containing detector particularly suited for use in immunoguided surgery capable of detecting gamma emissions present at tumor sites. The instrument utilizes a cadmium-zinc-telluride detector crystal which may be retained within a finger mount positioned over the surgeon'"'"'s finger. Within this mount there also is incorporated a first preamplification stage designed to accumulate charge signals from the detector as well as to drive a relatively short length of cable to a second preamplification stage located, for example, within a housing at the surgeon'"'"'s upper arm. The small finger mounted probe may be moved between operative orientations at the underside of the tip of the finger to stand-by orientations at the top of the finger adjacent the knuckles. In an additional embodiment, the finger probe incorporates a sodium iodide crystal, the scintillations from which are transmitted via a short length of fiber optic cable to an upper arm mounted housing which contains a photomultiplier tube. Signals from the remote, arm-mounted housing then are transmitted via longer cabling or the like to a control console.

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22 Claims

1. A surgical probe instrument for locating and differentiating tissue at which a locator is concentrated, comprising:
- a finger mount having a support region and an oppositely disposed finger mount portion configured for slideable positioning and retention upon a portion of a finger of a surgeon, and a detector mount portion positioned at said support region having a crystal retainer comprised of materials attenuating radiation at predetermined energy levels less than about 150 Kev, said detector mount portion having a detector seat and sidewalls extending to a forward opening;
  
  a crystal detector mounted at said detector seat for response to radiation impinging thereon only from said forward opening to provide a detector output;
  
  a window transmissive of said radiation, mounted over said detector mount portion;
  
  transmission means responsive to said detector output for providing a transmit pulsed output; and
  
  a control system coupled with said transmission means in a manner receiving said pulsed output for validating said transmit pulsed output with respect to said predetermined energy levels to identify valid pulses, said system computing the rate of said valid pulses and generating an audible output audibly perceptible to the surgeon at a frequency selected to correspond with said rate.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14)
- - 2. The probe instrument of claim 1 in which finger mount portion includes at least one externally disposed guideway configured for stabilizing abutting engagement with a said finger of the surgeon.
  - 3. The probe instrument of claim 1 in which said finger mount portion is concave and configured substantially as a half-cylindrical surface of curvature selected for nesting against said surgeon'"'"'s finger.
  - 4. The probe instrument apparatus of claim 3 in which:
    - said finger mount portion extends to two, spaced apart and oppositely disposed strap connector portions; and
      
      including a flexible retainer strap connected across said half-cylindrical surface to said strap connector portions and configured for retaining said finger mount portion in slideable engagement against said select finger.
  - 5. The probe instrument of claim 1 in which said finger mount portion includes elastomeric retainer means for alternately retaining said finger mount in an operative orientation adjacent an outward portion of the select finger wherein said window is positioned upwardly of the underside of the select finger, and said finger mount being slidably movable to a
  - 6. The probe instrument of claim 1 in which:
    - said finger mount support region includes a circuit enclosure;
      
      said transmission means includes a first pre-amplification stage mounted within said circuit enclosure, having an input coupled with said crystal detector and responsive to said detector output to provide a first amplified output, a circuit housing located remotely from said finger mount, a second preamplification stage within said circuit housing generating said transmit pulsed output, and a first cable coupled in electrical communication between said first pre-amplification stage and said second pre-amplification stage.
  - 7. The probe instrument of claim 6 in which:
    - said circuit housing includes a connector for effecting its mounting at the arm of the surgeon remotely from the fingers; and
      
      said first cable is of a restricted length selected for extending between said first and second pre-amplification stages.
  - 8. The probe instrument of claim 7 including a second cable of length greater than said first cable, coupled between said second preamplifier stage and said control system for conveying said transmit pulsed output thereto. standby orientation adjacent the inward portion of the select finger wherein said window is positioned outwardly of the upper side of the select finger.
  - 9. The probe instrument of claim 6 in which said first preamplification stage comprises:
    - a charge accumulating network coupled with said crystal detector and providing a charge responsive voltage signal in response to said detector output; and
      
      a first voltage amplifier stage electrically coupled with said charge accumulating network for response to said charge responsive voltage signal for producing a first amplifier voltage signal, said first voltage amplifier stage providing an output conveyed by said first cable, said output exhibiting a low output impedance selected for transmitting said first amplified voltage signal through said first cable.
  - 10. The probe instrument of claim 9 in which said second preamplification stage comprises:
    - a second voltage amplifier stage, having a first bias point value dependent gain selected to provide a second amplified voltage signal, and first temperature responsive solid-state means for stabilizing said first bias point value under conditions of environmental temperature change; and
      
      a third voltage amplifier stage coupled with to said second voltage amplifier stage, having a second bias point value dependent gain selected for a predetermined amplification of said second amplified voltage signal, and second temperature responsive solid-state means for stabilizing said second bias point value under conditions of environmental temperature change.
  - 11. The probe instrument of claim 1 in which said crystal detector is a cadmium-zinc-telluride crystal.
  - 12. The apparatus of claim 1 in which:
    - said crystal detector is a sodium chloride crystal deriving said detector output as scintillations;
      
      said transmission means comprises a fiber optic transmission cable having one end coupled in light transmitting relationship with said crystal detector and extending a predetermined distance to an output end, a housing located removably from said finger mount, a photo-multiplier mounted within said housing having an input coupled in light receiving relationship with said fiber optic transmission cable opposite end and having an output deriving said transmit output.
  - 13. The apparatus of claim 12 in which:
    - said housing includes a connector for effecting its mounting at the arm of the surgeon remotely from the fingers; and
      
      said fiber optic transmission cable is of a restricted length selected for extending between said detector crystal and said housing.
  - 14. The apparatus of claim 13 including a communication cable of length greater than said transmission cable coupled between said photo-multiplier output and said control means for conveying said transmit output thereto.

15. An instrument for detecting and locating sources of radiation emission at predetermined energy levels while within a surgical environment, comprising:
- a housing having a forward support region;
  
  a crystal retainer assembly supported by said forward support region;
  
  a cadmium-zinc-telluride crystal having forwardly and rearwardly disposed faces, mounted by said crystal retainer assembly and having said Zn component alloyed with Cd and Te components in an amount effective to permit a substantial threshold-based avoidance of electrical noise, and generating a detector output in response to radiation emission;
  
  transmission means for applying electrical ground to said crystal forward face and an electrical bias to said crystal rearward face and including a preamplifier for conveying and treating said detector output to provide a transmitted output, said preamplifier comprising;
  
  a charge accumulating network coupled with said crystal and providing a charge-responsive voltage signal in response to said detector output,a first voltage amplifier electrically coupled with said charge accumulating network for response to said charge responsive voltage signal to generate a first amplified voltage signal at an output;
  
  a second voltage amplifier stage electrically coupled with said first voltage amplifier stage output for response to said first amplified voltage signal, providing a first bias point value dependent gain selected to produce a second amplified voltage signal, and first temperature responsive solid-state means for effecting a stabilization of said first bias point value under conditions of environmental temperature change;
  
  a third voltage amplifier stage electrically coupled with said second voltage amplifier stage for response to said second amplified voltage signal, providing a second bias point value dependent gain selected to effect a predetermined amplification of said second amplified voltage signal, and second temperature responsive solid-state means for effecting a stabilization of said second bias point value under conditions of environmental temperature change; and
  
  control means responsive to said transmitted output for providing a perceptible output corresponding therewith.
- View Dependent Claims (16)
- - 16. The instrument of claim 15 in which:
    - said charge accumulating network and said first voltage amplifier stage are mounted with said housing;
      
      including a remote circuit housing located remotely from said housing, within which said second and third voltage amplifier stages are mounted;
      
      a first cable of selectively restricted length coupled in electrical communication between said first voltage amplifier stage output and said second voltage amplifier stage;
      
      said first amplifier stage output exhibiting a low output impedance selected for transmitting said first amplifier voltage signal through said first cable; and
      
      including a second cable of length greater than said restricted length of said first cable electrically coupled with said third voltage amplifier stage and extending from said remote circuit housing to and in electrical communication with said control means for conveying said transmitted output thereto.

17. Apparatus for determining the site of a locator within a patient, comprising:
- a housing having a forward support region;
  
  a crystal retainer assembly supported by said forward support region;
  
  a cadmium telluride crystal having forwardly and rearwardly disposed faces mounted by said crystal retainer assembly and generating a detector output in response to radiation emitting at predetermined energy levels from said locator;
  
  a grounding contact electrically coupled with said forwardly disposed surface;
  
  an electrical biasing contact electrically coupled with said rearwardly disposed surface;
  
  a pre-amplifier, including;
  
  a charge accumulating network coupled with said electrical biasing contact and providing a charge-responsive voltage signal in response to said detector output,a first voltage amplifier stage electrically coupled with said charge accumulating network for response to said charge responsive voltage signal for producing a first amplified voltage signal at an output,a second voltage amplifier stage electrically coupled with said first voltage amplifier stage output for response to said first amplified voltage signal, providing a first bias point value dependent gain selected to derive a second amplified voltage signal, providing a first bias point value dependent gain selected to produce a second amplified voltage signal, and first temperature responsive solid-state means for effecting a stabilization of said first bias point value under conditions of environmental temperature change, anda third voltage amplifier stage electrically coupled with said second voltage amplifier stage for response to said second amplified voltage signal, providing a second bias point value dependent gain selected to effect a predetermined amplification of said second amplified voltage signal to generate a third amplified voltage signal, and a second temperature responsive solid-state means for effecting a stabilization of said second bias point value under conditions of environmental temperature change; and
  
  a control circuit coupled with said third voltage amplifier stage for treating said third amplified voltage signal to generate an emission count based perceptible output.
- View Dependent Claims (18, 19, 20, 21, 22)
- - 18. The apparatus of claim 17 in which said crystal detector is a cadmium-zinc-telluride crystal.
  - 19. The apparatus of claim 18 in which said cadmium-zinc-telluride crystal can be represented by the formula:
    - Cd_1-x Zn_x Te, where the value of x ranges from about 0.2 to about 0.8.
  - 20. The apparatus of claim 19 in which said value of x is about 0.2.
  - 21. The apparatus of claim 17 in which said housing is configured as a finger mount with a finger mount portion located oppositely from said support region, said finger mount portion being configured for slidable positioning and retention upon a portion of a human finger.
  - 22. The apparatus of claim 21 in which said finger mount portion includes elastomeric retainer means for alternately retaining said finger mount in an operative orientation adjacent an outward portion of the finger wherein said crystal forwardly disposed face is oriented outwardly of the underside of the finger, and said finger mount being slidably movable to a standby orientation adjacent the inward portion of the finger wherein said crystal forwardly disposed face is positioned outwardly of the upper side of the finger.

Specification

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Current Assignee
Neoprobe Corporation
Original Assignee
Neoprobe Corporation
Inventors
Thurston, Marlin O., Olson, Karl W.
Primary Examiner(s)
Smith, Ruth S.

Application Number

US07/992,622
Time in Patent Office

970 Days
Field of Search

128/653.1, 128/654, 128/659, 250/370.01, 250/370.07, 250/370.13, 250/370.15
US Class Current

600/436
CPC Class Codes

A61B 17/00   Surgical instruments, devic...

A61B 2017/00079   Radioactivity

A61B 2017/00438   connectable to a finger

A61B 2090/3614   using optical fibre

A61B 6/4258   for detecting non x-ray rad...

G01T 1/161   Applications in the field o...

Radiation responsive surgical instrument

First Claim

4 Assignments

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Accused Products

Abstract

148 Citations

22 Claims

Specification

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Radiation responsive surgical instrument

First Claim

4 Assignments

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Subscription Required

0 Petitions

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Accused Products

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Abstract

148 Citations

22 Claims

Specification

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Solutions

Use Cases

Quick Links