Low energy consumptive device for acquisition of data relating to abnormal heart muscle activity
First Claim
1. An energy conserving device for monitoring heart muscle electrical activity of a patient comprising:
- a plurality of electrical contacts adapted to be affixed to the patient; and
a signal processing unit in communication with said contacts and having in series an analog signal reproducer, an analog signal processor, an analog to digital converter, a digital microprocessor and a memory.
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Accused Products
Abstract
A portable low energy consumptive device and method for monitoring heart muscle electrical activity includes a plurality of electrical contacts and a signal processing unit. The contacts receive an electrical signal generated by the heart muscle of a patient and deliver the signal in analog form to the signal processing unit which contains an analog signal processor, an A/D converter, a digital microprocessor, and a memory. The unit triplicates the signal and processes each of the three signals separately in the analog signal processor. The processed signals are then converted to three distinct digital data sets, the first of which is stored in memory while the remaining two are processed in the microprocessor to determine ST segment characteristics useful in diagnosing myocardial ischemia. Although the device operates continuously, only a portion of the operating time is devoted to digital data processing which has a higher energy demand. The remainder of the operating time is devoted to analog signal processing or data storage which have a lower energy demand.
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Citations
19 Claims
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1. An energy conserving device for monitoring heart muscle electrical activity of a patient comprising:
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a plurality of electrical contacts adapted to be affixed to the patient; and a signal processing unit in communication with said contacts and having in series an analog signal reproducer, an analog signal processor, an analog to digital converter, a digital microprocessor and a memory. - View Dependent Claims (2, 3, 4, 5)
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6. An energy conserving device for monitoring heart muscle electrical activity of a patient comprising:
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a plurality of electrical contacts adapted to be affixed to the patient; and a signal processing unit in communication with said contacts and having in series an analog signal reproducer, an analog signal processor, an analog to digital converter, a digital microprocessor, a memory and a data output, said data output comprising an optical transmitter capable of communication with an optical receiver of a data transmission unit external to said signal processing unit.
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7. An energy conserving device for monitoring heart muscle electrical activity of a patient comprising:
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contact means affixable to the patient for receiving an electrical heart muscle signal in an analog format generated by the patient; reproducing means for triplicating said analog heart muscle electrical signal into first, second and third identical analog signals; a first filtering means for high frequency filtering said second analog signal to enhance PR and ST segments of said second analog signal; a second filtering means for band pass filtering said third analog signal to enhance QRS interval of said third analog signal; a conversion means for converting said first, second, and third analog signals to first, second and third digital data sets respectively; a digital data processing means for processing said second and third data sets to determine an ST segment deviation associated with said first analog signal; and a memory means for storing said first data set. - View Dependent Claims (8, 9)
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10. An energy conserving method for monitoring heart muscle electrical activity of a patient employing a portable signal processing unit affixable to the patient, the method comprising:
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a) obtaining from the patient an electrical heart muscle signal in an analog format and delivering said electrical heart muscle signal to said signal processing unit; b) triplicating said analog heart muscle electrical signal into first, second and third identical analog signals; c) high frequency filtering said second analog signal to enhance PR and ST segments of said second analog signal; d) band pass filtering said third analog signal to enhance QRS intervals of said third analog signal; e) converting said first, second, and third analog signals to first, second and third digital data sets respectively; f) processing said second and third digital data sets to determine an ST segment deviation associated with said first analog signal; and g) storing said first data set in a temporary memory. - View Dependent Claims (11, 12, 13, 14, 15, 16, 17, 18, 19)
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Specification