Electrocardiograph sensor and sensor control system for use with magnetic resonance imaging machines
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1. An electrocardiograph ("ECG") sensor and sensor control system for use with magnetic resonance imaging machines ("MRI"), to minimize artifacts in both the MRI and ECG signals comprising:
- a) an ECG electronics sensor module which generates an output signal in response to a patient'"'"'s ECG including at least one RF filter, a lead select network coupled to said RF filter, an amplifier coupled to said lead select network, a slew rate filter coupled to said amplifier, a pulse width modulator and a fiber optic transmitter coupled to said slew rate filter, a status encode circuit having an output and at least one input, said output of said status encode circuit coupled to said amplifier, a first input of said status encode circuit coupled to the output of said amplifier, a lead select decoder having an input and an output, said output of said lead select decoder connected to both said lead select network and to a second input of said status encode circuit, a battery power supply connected to a third input of said status encode circuit, and a fiber optic receiver connected to said battery power supply and said input of said lead select decoder;
b) a Faraday shield surrounding said ECG electronics sensor module;
c) at least three electrodes;
d) at least three high resistant leads for coupling each of said electrodes and said RF filter;
e) an ECG monitor having a fiber optic receiver and transmitter, a display and a control means for controlling and processing information received from said ECG electronics sensor module; and
f) at least one first fiber optic cable coupling said fiber optic transmitter of said ECG electronic sensor module and said fiber optic receiver of said ECG monitor and at least one second fiber optic cable coupling said fiber optic transmitter of said ECG monitor to said fiber optic receiver of said ECG electronic sensor module.
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Abstract
A system for monitoring an ECG during an MRI examination which permits the monitoring system to be located near the patient and which eliminates artifacts affecting the accurate reading of the ECG. The system allows for control of lead select and battery on stand by mode and can monitor battery state and lead off conditions.
149 Citations
17 Claims
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1. An electrocardiograph ("ECG") sensor and sensor control system for use with magnetic resonance imaging machines ("MRI"), to minimize artifacts in both the MRI and ECG signals comprising:
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a) an ECG electronics sensor module which generates an output signal in response to a patient'"'"'s ECG including at least one RF filter, a lead select network coupled to said RF filter, an amplifier coupled to said lead select network, a slew rate filter coupled to said amplifier, a pulse width modulator and a fiber optic transmitter coupled to said slew rate filter, a status encode circuit having an output and at least one input, said output of said status encode circuit coupled to said amplifier, a first input of said status encode circuit coupled to the output of said amplifier, a lead select decoder having an input and an output, said output of said lead select decoder connected to both said lead select network and to a second input of said status encode circuit, a battery power supply connected to a third input of said status encode circuit, and a fiber optic receiver connected to said battery power supply and said input of said lead select decoder; b) a Faraday shield surrounding said ECG electronics sensor module; c) at least three electrodes; d) at least three high resistant leads for coupling each of said electrodes and said RF filter; e) an ECG monitor having a fiber optic receiver and transmitter, a display and a control means for controlling and processing information received from said ECG electronics sensor module; and f) at least one first fiber optic cable coupling said fiber optic transmitter of said ECG electronic sensor module and said fiber optic receiver of said ECG monitor and at least one second fiber optic cable coupling said fiber optic transmitter of said ECG monitor to said fiber optic receiver of said ECG electronic sensor module.
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2. An electrocardiograph ("ECG") sensor and sensor control system for use with magnetic resonance imaging machines ("MRI"), to minimize artifacts in both the MRI and ECG signals, comprising:
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a) an ECG electronics sensor module which generates an output signal in response to a patient'"'"'s ECG including at least one RF filter, a lead select network coupled to said RF filter, an amplifier coupled to said lead select network, a slew rate filter coupled to said amplifier, an encoding means for encoding said output signal and a transmitting means for transmitting said output signal coupled to said slew rate filter, a status encode circuit having an output and at least one input, said output of said status encode circuit coupled to said amplifier, a first input of said status encode circuit coupled to an output of said amplifier, a lead select decoder having an input and an output, said output of said lead select decoder coupled to both said lead select network and to a second input of said status encode circuit, a battery power supply coupled to a third input of said status encode circuit, and a receiving means for receiving a control signal coupled to said battery power supply and said input of said lead select decoder; b) a Faraday Shield surrounding said ECG electronics sensor module; c) at least three electrodes; d) at least three high resistant leads for coupling each of said electrodes and said RF filter; and e) an ECG monitor having a receiving means for receiving said output signal from said ECG electronics sensor module, a transmitting means for transmitting said control signal to said ECG electronics sensor module, a control means for processing said output signal received from said ECG electronics sensor module and for controlling said control voltage transmitted to said ECG electronics sensor module, and a display means for viewing said output signal. - View Dependent Claims (3, 4, 5, 6, 7)
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8. An electrocardiograph ("ECG") sensor and sensor control system for use with magnetic resonance imaging machines ("MRI"), to minimize artifacts in both the MRI and ECG signals, comprising:
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a) an ECG electronics sensor module which generates an output signal in response to a patient'"'"'s ECG including at least one RF filter, a lead select network coupled to said RF filter, an amplifier coupled to said lead select network, an encoding means for encoding said output signal and a transmitting means for transmitting said output signal coupled to said amplifier, a lead and battery status encode circuit having an output and at least one input, said output of said lead and battery status encode circuit coupled to said amplifier, a first input of said lead and battery status encode circuit coupled to an output of said amplifier, a lead select decoder having an input and an output, said output of said lead select decoder coupled to both said lead select network and to a second input of said lead and battery status encode circuit, a battery power supply coupled to a third input of said lead and battery status encode circuit, a receiving means for receiving a control signal coupled to said battery power supply and said input of said lead select decoder; b) a Faraday Shield surrounding said ECG electronics sensor module; c) at least three electrodes coupled to said RF filter; and d) an ECG monitor having a receiving means for receiving said output signal from said ECG electronics sensor module, a transmitting means for transmitting said control signal to said ECG electronics sensor module, a control means for processing said output signal received from said ECG electronics sensor module and for controlling said control signal transmitted to said ECG electronics sensor module, and a display means for viewing said output signal. - View Dependent Claims (9)
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10. An electrocardiograph ("ECG") sensor and sensor control system for use with magnetic resonance imaging machines ("MRI") to minimize artifacts in both the MRI and ECG signals comprising:
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a) an ECG electronics sensor module which generates an output signal in response to a patient'"'"'s ECG including a lead select network, an amplifier coupled to said lead select network, a first transmitter coupled to said amplifier, a status encode circuit having an output and at least one input, said output of said status encode circuit coupled to said amplifier, a first input of said status encode circuit coupled to the output of said amplifier, a lead select decoder having an input and an output, said output of said lead select decoder connected to both said lead select network and to a second input of said status encode circuit, and a first receiver coupled to said input of said lead select decoder; b) at least three electrodes coupled to said lead select network; and c) an ECG monitor having a second receiver, a second transmitter, and a controller coupled to said second receiver and said second transmitter for processing information received from said ECG electronics sensor module and for controlling said lead select network.
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11. An electrocardiograph ("ECG") sensor and sensor control system for use with magnetic resonance imaging machines ("MRI") to minimize artifacts in both the MRI and ECG signals comprising:
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a) an ECG electronics sensor module which generates an output signal in response to a patient'"'"'s ECG including a lead select network, an amplifier coupled to said lead select network, a first transmitter coupled to said amplifier, a lead select decoder having an input and an output, said output of said lead select decoder connected to said lead select network, and a first receiver coupled to said input of said lead select decoder; b) at least three electrodes coupled to said lead select network; and c) an ECG monitor having a second receiver, a second transmitter, and a controller coupled to said second receiver and said second transmitter for processing information received from said ECG electronics sensor module and for controlling said lead select network. - View Dependent Claims (12, 13, 14, 15, 16, 17)
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Specification