Sleep screening system with time based modulated data
First Claim
1. Cardio respiratory monitoring apparatus comprising:
- (a) means for receiving n physiologic input signals from a plurality of transducers coupled to a study subject including at least an electrocardiographic (ECG) signal, a pulse signal, a plethysomographic signal, and an oximetry signal and an impedance respiration signal;
(b) a clock source;
(c) means coupled to said clock source for producing a periodic time base signal in the range of 20 to 40Hz;
(d) means for modulating said impedance respiration signal with said time base signal;
(e) means for selectively modulating said pulse signal with said oximetry signal; and
(f) means for recording each of said physiologic input signals and said modulated time base signal on n-1 data tracks.
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Accused Products
Abstract
A portable sleep monitoring system for recording on tape, transcribing and charting a plurality of physiologic data channels recorded relative to a known constant, user-transparent time base. Selected ECG, air flow, impedance and pulse oximetry sensor inputs are recorded under microprocessor control relative to a crystal controlled 40 Hz signal modulated with the physiologic data from one of the sensors. Upon reading the physiologic data from tape and/or charting, the collected data is displayed with the time base, normalized to the known crystal controlled timing signal. In the heart rate mode, QRS occurences are displayed on the heart rate trace line as singular hash marks. The presence of motion at the pulse O2 sensor is indicated by multiplexing high frequency hash markings onto the O2 saturation trace line. Calibration levels relating to four different O2 saturation percent vales are periodically written to tape for reference during tape reading.
19 Citations
13 Claims
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1. Cardio respiratory monitoring apparatus comprising:
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(a) means for receiving n physiologic input signals from a plurality of transducers coupled to a study subject including at least an electrocardiographic (ECG) signal, a pulse signal, a plethysomographic signal, and an oximetry signal and an impedance respiration signal; (b) a clock source; (c) means coupled to said clock source for producing a periodic time base signal in the range of 20 to 40Hz; (d) means for modulating said impedance respiration signal with said time base signal; (e) means for selectively modulating said pulse signal with said oximetry signal; and (f) means for recording each of said physiologic input signals and said modulated time base signal on n-1 data tracks. - View Dependent Claims (2, 3, 4, 5, 6)
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7. Cardiac respiratory monitoring apparatus comprising:
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(a) means for receiving n physiologic input signals from a plurality of transducers coupled to a study subject including an electrocardiographic (ECG) signal, a pulse signal, a plethysomographic signal, and an oximetry signal and an impedance respiration signal; (b) a clock source; (c) means coupled to said clock source for producing a 40Hz time base signal; (d) means for modulating said impedance respiration signal with said time base signal; and (e) means for recording each of said physiologic input signals and said modulated time base signal on n data tracks; (f) means for demodulating said time base signal from said respiration signal; (g) means for detecting each of a plurality of QRS complexes of the ECG signal; (h) counter means for counting the cycles of said time base signal between each successively detected QRS complex and pulse event to determine a count for each ECG interval; and (i) means for periodically determining the heart rate of the study subject from a ratio of 240 divided by the determined ECG interval.
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8. Cardio respiratory monitoring apparatus comprising:
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(a) means for receiving n physiologic input signals from a plurality of transducers coupled to a study subject; (b) a clock source; (c) means coupled to said clock source for producing a periodic time base signal; (d) means for modulating y distinguishable ones of said n physiologic input signals with others of said input signals, including said time base signal; and (e) means for recording each of said n physiologic input signals and said time base signal on n-y data tracks. - View Dependent Claims (9, 10)
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11. Cardio respiratory monitoring apparatus comprising:
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(a) means for receiving n physiologic input signals from a plurality of transducers coupled to a study subject; (b) a clock source; (c) means coupled to said clock source for producing a periodic time base signal; (d) means for modulating said time base signal with at leas tone of said n physiologic input signals; and (e) means for recording each of said physiologic input signals and said modulated time base signal on n data tracks.
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12. A method in a cardio respiratory charting system for displaying a motion artifact of a study subject, comprising the steps of:
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(a) monitoring an input representative of cardiac activity; (b) monitoring an input representative of pulsed blood in the subject; (c) continuously determining a relative indication of a period between successive cardiac events and pulse events; (d) comparing the period of each successive cardiac and pulse event for equivalence; and (e) displaying detected periods of inequivalence as a predetermined trace signal relative to a displayed trace signal of an oximetry input signal.
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13. A method in a cardiac respiratory charting system for displaying cardiac activity, comprising the steps of:
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(a) monitoring an input representative of cardiac activity; (b) monitoring a time signal recorded simultaneously with said cardiac input; (c) determining and displaying a continuous trace indicative of the rate trend of the cardiac input; (d) detecting each QRS complex of the cardiac activity; and (e) displaying each QRS complex as a hash mark.
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Specification