Miniature magnetomechanical tag for detecting surgical sponges and implements
First Claim
1. In a system for the detection of surgical implements having a marker attached thereto, the marker exhibiting mechanical resonance at a resonant frequency in response to the incidence thereon of an alternating electromagnetic interrogating field, whereby said marker is provided with a signal-identifying characteristic, the improvement wherein said resonant frequency ranges from about 70 to 300 kHz.
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Abstract
Externally detectable electronic article surveillance markers are attached to surgical implements, such as sponges and surgical instruments, appointed for use in a surgical wound. The attachment mechanism facilitates detection by an external interrogating field before the wound has been closed and the patient has left the operating table. The markers are responsive to the imposition of an interrogating field produced by an electronic article surveillance system. Markers contain one or more magnetomechanically responsive elements that are urged into mechanical resonance by the interrogating field. The ring-down of the resonance and the associated dipolar electromagnetic field provide a signal-identifying characteristic detected by a detection system. Upon detection, an audible or visible signal is triggered to alert relevant medical personnel to the need for follow-up care and removal of the offending item. The resonance occurs at a frequency ranging from about 70 to 300 kHz. Misadventures during operative procedures—especially those wherein implements remain undiscovered at the time of surgery and are retained indefinitely within the surgical cavity, often entailing dire consequences to the patient—are virtually eliminated. The attachment mechanism and markers assure that surgical implements are reliably detected and removed before completion of the surgical procedure.
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Citations
24 Claims
- 1. In a system for the detection of surgical implements having a marker attached thereto, the marker exhibiting mechanical resonance at a resonant frequency in response to the incidence thereon of an alternating electromagnetic interrogating field, whereby said marker is provided with a signal-identifying characteristic, the improvement wherein said resonant frequency ranges from about 70 to 300 kHz.
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2. A surgical implement detection system, comprising:
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a) a marker exhibiting magnetomechanical resonance at a resonant frequency in response to the incidence thereon of an alternating electromagnetic interrogating field, said resonant frequency ranging from about 70 to 300 kHz, whereby said marker is provided with a signal-identifying characteristic;
b) an interrogating means for generating said electromagnetic interrogating field having a preselected interrogating frequency, modulated as a series of pulses;
c) a detecting means for detecting said signal-identifying characteristic; and
d) an indication means activated by said detecting means in response to the detection of said signal-identifying characteristic. - View Dependent Claims (3, 4, 5, 6, 7, 8, 9, 10, 11)
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14. A method for detecting a surgical implement left within a patient during surgery in an operating room, comprising the steps of:
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a) attaching a marker to said surgical implement before use during said surgery, said marker exhibiting mechanical resonance at a resonant frequency in the presence of an electromagnetic interrogating field, said resonant frequency ranging from about 70 to 300 kHz, whereby said marker is provided with a signal-identifying characteristic;
b) placing a surgical implement detector proximate said operating room, said detector being adapted to generate said electromagnetic interrogating field and detect said signal-identifying characteristic;
c) subjecting said patient to said electromagnetic interrogating field generated by said surgical implement detector;
d) detecting said signal-identifying characteristic; and
e) activating an indication means in response to the detection of said signal-identifying characteristic indicative of the presence of said implement. - View Dependent Claims (15, 16, 17, 18, 19)
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20. A method for detecting a surgical implement left within a patient during surgery in an operating room, comprising the steps of:
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a) attaching a marker to said surgical implement before use during said surgery, said marker comprising a magnetomechanical element having plurality of elongated strips of magnetostrictive amorphous metal adapted to resonate at a resonant frequency in the presence of an electromagnetic interrogating field, whereby said marker is provided with a signal-identifying characteristic, and said strips in said marker being disposed in a non-parallel orientation;
b) placing a surgical implement detector proximate said operating room, said detector being adapted to generate said electromagnetic interrogating field and detect said signal-identifying characteristic;
c) subjecting said patient to said electromagnetic interrogating field generated by said surgical implement detector;
d) detecting said signal-identifying characteristic with said surgical implement detector; and
e) activating an indication means in response to the detection of said signal-identifying characteristic indicative of the presence of said implement.
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21. A method for detecting a surgical implement left within a patient during surgery in an operating room, comprising the steps of:
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a) attaching a marker to said surgical implement before use during said surgery, said marker comprising;
a magnetomechanical element having a first elongated strip and a second elongated strip, each of said strips being composed of magnetostrictive amorphous metal and exhibiting mechanical resonance at a resonant frequency in the presence of an electromagnetic interrogating field, whereby said marker is provided with a signal-identifying characteristic;
a bias magnet having a top side and a bottom side, said magnet arming said first and second elongated strips to undergo resonance; and
wherein said first elongated strip is disposed on said top side of said bias magnet and said second elongated strip is disposed on said bottom side of said bias magnet;
b) placing a surgical implement detector proximate said operating room, said detector being adapted to generate said electromagnetic interrogating field and detect said signal-identifying characteristic;
c) subjecting said patient to said electromagnetic interrogating field generated by said surgical implement detector;
d) detecting said signal-identifying characteristic with said surgical implement detector; and
e) activating an indication means in response to the detection of said signal-identifying characteristic indicative of the presence of said implement.
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22. In a surgical implement, the improvement wherein a magnetomechanical marker detectable by an electronic article surveillance system is attached to the implement, the marker comprising:
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a) a magnetomechanical element comprising one or more elongated strips composed of magnetostrictive amorphous metal alloy;
b) a housing having at least one cavity sized and shaped to accommodate said strips, and said strips being disposed in said cavity and able to mechanically vibrate freely therewithin; and
c) a bias means for magnetically biasing said magnetomechanical element, said magnetomechanical element being armed to resonate at a resonant frequency in the presence of an interrogating electromagnetic field, said resonant frequency ranging from about 70 to 300 kHz.
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23. In a surgical implement, the improvement wherein a magnetomechanical marker detectable by an electronic article surveillance system is attached to the implement, the marker comprising:
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a) a magnetomechanical element comprising a plurality of elongated strips composed of magnetostrictive amorphous metal alloy;
b) a housing having at least one cavity sized and shaped to accommodate said strips, and said strips being disposed in said cavity with a non-parallel orientation and able to mechanically vibrate freely therewithin; and
c) a bias means for magnetically biasing said magnetomechanical element, whereby said magnetomechanical element is armed to resonate at a resonant frequency in the presence of an interrogating electromagnetic field.
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24. In a surgical implement, the improvement wherein a magnetomechanical marker detectable by an electronic article surveillance system is attached to the implement, the marker comprising:
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a) a magnetomechanical element comprising a first and a second elongated strip, each strip being composed of magnetostrictive amorphous metal alloy;
b) a housing having at least one cavity sized and shaped to accommodate said strips;
c) a bias magnet magnetically biasing said magnetomechanical element, said bias magnet having a top side and a bottom side, said magnetomechanical element being armed to resonate at a resonant frequency in the presence of an interrogating electromagnetic field;
d) said first elongated strip being disposed on said top side of said bias magnet and said second elongated strip being disposed on said bottom said of said bias magnet.
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Specification