Measurement device, measurement method, and recording medium storing a measurement program
First Claim
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1. A measurement device comprising:
- a first pressure cuff comprising a first cuff pressure sensor configured to detect transmitted pressure, as a first pulse wave signal, at a first measurement location in a first vascular pathway connecting the heart of a measurement subject to an area where an abdominal arterial aneurysm is predicted to occur;
a second pressure cuff comprising a second cuff pressure sensor configured to detect transmitted pressure, as a second pulse wave signal, at a second measurement location in a second vascular pathway connecting the heart of the measurement subject to an area that is different from the area where the abdominal arterial aneurysm is predicted to occur;
a display; and
at least one processor configured to;
receive, from the first pressure cuff, the first pulse wave signal on the basis of a first pressure sensor detection result;
receive, from the second pressure cuff, the second pulse wave signal on the basis of a second pressure sensor detection result, the first pulse wave signal and the second pulse wave signal being detected by measuring voltage changes that arise due to changes in an impedance when a constant current is applied to the first measurement location where the first pressure cuff is located and the second measurement location where the second pressure cuff is located, respectively;
transform the received first pulse wave signal and the received second pulse wave signal into first phase characteristics, and second phase characteristics, respectively, which include frequency-domain information covering different frequencies;
compare the first phase characteristics with the second phase characteristics;
produce phase difference characteristics therebetween in each frequency of the different frequencies;
calculate a regression line based on the phase difference characteristics;
determine a degree of variation of the phase difference characteristics for each frequency from the regression line;
compare the degree of variation with a predetermined threshold; and
control the display to display;
when the degree of variation is greater than the predetermined threshold, an indication of a possibility of presence of abdominal arterial aneurysm; and
when the degree of variation is less than the predetermined threshold, an indication that presence of abdominal arterial aneurysm is low.
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Abstract
A measurement device includes a detection device to detect a pulse wave signal at a first measurement location in a vascular pathway from the heart of a measurement subject to an area where an arterial aneurysm is predicted to occur and a pulse wave signal at a second measurement location in a vascular pathway from the heart of the measurement subject to an area that is different from the area where an arterial aneurysm is predicted to occur, a comparison device to calculate a comparison result by comparing frequency characteristics between the pulse wave signals, and a determination device to determine at least one of the presence/absence and size of an arterial aneurysm based on a predetermined characteristic amount for a frequency contained in the comparison result.
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Citations
12 Claims
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1. A measurement device comprising:
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a first pressure cuff comprising a first cuff pressure sensor configured to detect transmitted pressure, as a first pulse wave signal, at a first measurement location in a first vascular pathway connecting the heart of a measurement subject to an area where an abdominal arterial aneurysm is predicted to occur; a second pressure cuff comprising a second cuff pressure sensor configured to detect transmitted pressure, as a second pulse wave signal, at a second measurement location in a second vascular pathway connecting the heart of the measurement subject to an area that is different from the area where the abdominal arterial aneurysm is predicted to occur; a display; and at least one processor configured to; receive, from the first pressure cuff, the first pulse wave signal on the basis of a first pressure sensor detection result; receive, from the second pressure cuff, the second pulse wave signal on the basis of a second pressure sensor detection result, the first pulse wave signal and the second pulse wave signal being detected by measuring voltage changes that arise due to changes in an impedance when a constant current is applied to the first measurement location where the first pressure cuff is located and the second measurement location where the second pressure cuff is located, respectively; transform the received first pulse wave signal and the received second pulse wave signal into first phase characteristics, and second phase characteristics, respectively, which include frequency-domain information covering different frequencies; compare the first phase characteristics with the second phase characteristics; produce phase difference characteristics therebetween in each frequency of the different frequencies; calculate a regression line based on the phase difference characteristics; determine a degree of variation of the phase difference characteristics for each frequency from the regression line; compare the degree of variation with a predetermined threshold; and control the display to display; when the degree of variation is greater than the predetermined threshold, an indication of a possibility of presence of abdominal arterial aneurysm; and when the degree of variation is less than the predetermined threshold, an indication that presence of abdominal arterial aneurysm is low. - View Dependent Claims (2, 3, 6, 7, 8, 9, 10, 11, 12)
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4. A measurement method comprising:
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receiving, by at least one processor from a first pressure cuff comprising a first pressure sensor configured to detect transmitted pressure, as a first pulse wave signal, at a first measurement location in a first vascular pathway connecting the heart of a measurement subject to an area where an abdominal arterial aneurysm is predicted to occur; receiving, by the at least one processor from a second pressure cuff comprising a second pressure sensor configured to detect transmitted pressure, as a second pulse wave signal, at a second measurement location in a second vascular pathway connecting the heart of the measurement subject to an area that is different from the area where the abdominal arterial aneurysm is predicted to occur, the first pulse wave signal and the second pulse wave signal being detected by measuring voltage changes that arise due to changes in an impedance when a constant current is applied to the first measurement location where the first pressure cuff is located and the second measurement location where the second pressure cuff is located, respectively; transforming, by the at least one processor, the received first pulse wave signal and the received second pulse wave signal into first phase characteristics, and second phase characteristics, respectively, which include frequency-domain information covering different frequencies; comparing, by the at least one processor, the first phase characteristics with the second phase characteristics; producing, by the at least one processor, phase difference characteristics therebetween in each frequency of the different frequencies; calculating, by the at least one processor, a regression line based on the phase difference characteristics; determining, by the at least one processor, a degree of variation of the phase difference characteristics for each frequency from the regression line; comparing, by the at least one processor, the degree of variation with a predetermined threshold; and control a display to display; when the degree of variation is greater than the predetermined threshold, a first indication of a possibility of presence of an abdominal arterial aneurysm in the first vascular pathway; and when the degree of variation is less than the predetermined threshold, a second indication, which is different from the first indication and that indicates that a possibility of presence of abdominal arterial aneurysm in the first vascular pathway is low.
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5. A non-transitory computer readable recording medium storing computer program code that, when executed by a computer causes the computer to:
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receive, from a first pressure cuff comprising a first pressure sensor configured to detect transmitted pressure, as a first pulse wave signal, at a first measurement location in a first vascular pathway connecting the heart of a measurement subject to an area where an abdominal arterial aneurysm is predicted to occur; receive, from a second pressure cuff comprising a second pressure sensor configured to detect transmitted pressure, as a second pulse wave signal, at a second measurement location in a second vascular pathway connecting the heart of the measurement subject to an area that is different from the area where the abdominal arterial aneurysm is predicted to occur, the first pulse wave signal and the second pulse wave signal being detected by measuring voltage changes that arise due to changes in an impedance when a constant current is applied to the first measurement location where the first pressure cuff is located and the second measurement location where the second pressure cuff is located, respectively; transform the received first pulse wave signal and the received second pulse wave signal into first phase characteristics, and second phase characteristics, respectively, which include frequency-domain information covering different frequencies; compare the first phase characteristics with the second phase characteristics; produce phase difference characteristics therebetween in each frequency of the different frequencies; calculate a regression line based on the phase difference characteristics; determine a degree of variation of the phase difference characteristics for each frequency from the regression line; compare the degree of variation with a predetermined threshold; and control a display to display; when the degree of variation is greater than the predetermined threshold, a first indication of a possibility of presence of an abdominal arterial aneurysm in the first vascular pathway; and when the degree of variation is less than the predetermined threshold, a second indication, which is different from the first indication and that indicates that a possibility of presence of abdominal arterial aneurysm in the first vascular pathway is low.
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Specification
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Current AssigneeOmron Healthcare Company Limited (Omron Corporation)
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Original AssigneeOmron Healthcare Company Limited (Omron Corporation)
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InventorsSato, Hironori, Utsuno, Hideo, Matsuhisa, Hiroshi, Yamada, Keisuke, Ogura, Toshihiko
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Primary Examiner(s)Agahi, Puya
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Application NumberUS14/353,475Publication NumberTime in Patent Office2,171 DaysField of Search600301, 600481, 600485, 600490-504US Class CurrentCPC Class CodesA61B 5/02014 Determining aneurysmA61B 5/02125 of pulse wave propagation timeA61B 5/022 by applying pressure to clo...A61B 5/024 Detecting, measuring or rec...A61B 5/6828 LegA61B 5/7246 using correlation, e.g. tem...A61B 5/7257 using Fourier transformsA61B 5/7282 Event detection, e.g. detec...
