WO2010073692A1 - 電子血圧計および血圧測定方法 - Google Patents
電子血圧計および血圧測定方法 Download PDFInfo
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- WO2010073692A1 WO2010073692A1 PCT/JP2009/007232 JP2009007232W WO2010073692A1 WO 2010073692 A1 WO2010073692 A1 WO 2010073692A1 JP 2009007232 W JP2009007232 W JP 2009007232W WO 2010073692 A1 WO2010073692 A1 WO 2010073692A1
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- G—PHYSICS
- G01—MEASURING; TESTING
- G01G—WEIGHING
- G01G19/00—Weighing apparatus or methods adapted for special purposes not provided for in the preceding groups
- G01G19/44—Weighing apparatus or methods adapted for special purposes not provided for in the preceding groups for weighing persons
- G01G19/50—Weighing apparatus or methods adapted for special purposes not provided for in the preceding groups for weighing persons having additional measuring devices, e.g. for height
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- G—PHYSICS
- G01—MEASURING; TESTING
- G01G—WEIGHING
- G01G23/00—Auxiliary devices for weighing apparatus
- G01G23/14—Devices for determining tare weight or for cancelling out the tare by zeroising, e.g. mechanically operated
- G01G23/16—Devices for determining tare weight or for cancelling out the tare by zeroising, e.g. mechanically operated electrically or magnetically operated
Definitions
- the present invention relates to an electronic sphygmomanometer including a cuff attached to a blood pressure measurement site, a blood pressure calculation means for calculating a blood pressure value by the cuff pressure, and a blood pressure measurement method using the same.
- Blood pressure is one of the indicators for analyzing cardiovascular diseases. Performing risk analysis based on blood pressure is effective in preventing cardiovascular diseases such as stroke, heart failure and myocardial infarction. Diagnosis for performing this risk analysis has been conventionally performed based on blood pressure (at any time) measured at a medical institution such as during a hospital visit or during a health examination. However, recent studies have shown that blood pressure measured at home (home blood pressure) is more useful for diagnosis of cardiovascular disease than blood pressure at any time. Accordingly, blood pressure monitors used at home have become widespread.
- the arterial volume change that occurs when the pressure is gradually reduced at a predetermined speed is a pressure pulse wave. It detects as an amplitude and applies a predetermined algorithm with respect to the change of the pressure pulse wave amplitude, and calculates a blood pressure value. Further, the arterial volume change that occurs when the cuff pressure is gradually increased at a predetermined speed (pressurization speed) is detected as a pressure pulse wave amplitude, and a predetermined algorithm is applied to the change in the pressure pulse wave amplitude. It is also possible to calculate the blood pressure value by applying.
- a predetermined pressure for example, systolic blood pressure + 30 mmHg
- the microphone system after the cuff pressure is increased to a predetermined pressure (for example, systolic blood pressure + 30 mmHg), the Korotkoff sound generated when the pressure is gradually reduced at a predetermined speed (decompression speed), and The systolic blood pressure and the diastolic blood pressure are determined by detecting attenuation / extinction with a microphone provided in the cuff.
- a predetermined pressure for example, systolic blood pressure + 30 mmHg
- the pressurization value needs to be increased to a cuff pressure sufficiently higher than the systolic blood pressure (for example, systolic blood pressure + 30 mmHg).
- the decompression speed and the pressurization speed must be set so that the information on the pressure pulse wave amplitude and the Korotkoff sound is not missed. Specifically, it was necessary to set a decompression speed or a pressurization speed according to the pulse rate of the person to be measured.
- blood pressure changes greatly depending on factors such as time to be measured, day of the week, season, environment, stress, illness, various behaviors related to lifestyle (meal, exercise, smoking, rest). Therefore, in the method (1), it is necessary to know one's systolic blood pressure in advance. However, since the blood pressure greatly fluctuates every time as described above, the pressurization value is based on the blood pressure value measured last time. Even if it is set, it is not always set correctly.
- the method (3) is also the same, and even if an average value of a plurality of measurement results is used, it is not always set correctly.
- the pressurization speed is set as high as possible. As a result, the pulse wave information obtained during pressurization is reduced, and the error of the estimated systolic blood pressure is reduced in the method (2). Since the pressure increases, the pressurization value may not be set correctly.
- the present invention is an electronic sphygmomanometer that can set an optimal blood pressure measurement parameter for each user by correcting the blood pressure measurement parameter based on past measurement record information close to the conditions during blood pressure measurement.
- An object of the present invention is to provide a blood pressure measurement method and improve user satisfaction.
- the present invention relates to a cuff attached to a blood pressure measurement site, pressurizing / depressurizing means for adjusting the pressure applied to the cuff, pressure detecting means for detecting the pressure in the cuff, and blood pressure calculating means for calculating a blood pressure value by the cuff pressure
- an electronic sphygmomanometer comprising a recording means for recording a blood pressure value and an operating means for performing an operation such as blood pressure measurement, and further comprising a condition information acquisition means for acquiring information related to the current blood pressure measurement conditions.
- the recording means stores the blood pressure measurement conditions acquired by the condition information acquisition means together with blood pressure values as measurement recording information, and records past measurement recording information close to the blood pressure measurement conditions.
- Measurement record information acquisition means acquired from the means, and when the measurement record information acquisition means acquires past measurement record information close to the conditions at the time of blood pressure measurement, blood pressure measurement based on the measurement record information Characterized in that an electronic sphygmomanometer and a correcting means for correcting the parameters.
- the blood pressure measurement parameter may be a pressure setting value.
- the blood pressure measurement parameter may be a decompression speed.
- the blood pressure measurement parameter may be a pressurization speed.
- the measurement record used when setting the conditions for blood pressure measurement may be the latest record among the measurement records close to the current measurement condition.
- the measurement record used when setting the conditions at the time of blood pressure measurement may be based on the statistical calculation results of a plurality of records from the latest among the measurement records close to the current measurement condition.
- the measurement record used when setting the conditions at the time of blood pressure measurement may be based on a statistical calculation result of all records among measurement records close to the current measurement condition. According to the present invention, an optimal blood pressure measurement parameter can be set for each user.
- the conditions at the time of blood pressure measurement may be the measurement date and time or the temperature at the time of measurement.
- condition information acquisition means an input means for inputting the conditions at the time of blood pressure measurement is provided in the operation means, and the conditions input to the input means are stored in the recording means together with a blood pressure value. It can be set as the structure to do.
- the blood pressure measurement conditions may be measurement conditions such as measurement location, disease information, medication status, exercise content, and lifestyle information.
- the lifestyle information can be various information such as before meals, after meals, after exercise, after smoking, and at rest (rest).
- the pressure applied to the cuff when the cuff is attached to the blood pressure measurement site is adjusted by the pressurizing / depressurizing means, and the blood pressure value is calculated by the blood pressure calculating means based on the cuff pressure detected by the pressure detecting means.
- a blood pressure measurement method the step of acquiring information related to a current blood pressure measurement condition by a condition information acquisition unit, and the measurement record information of the blood pressure measurement condition acquired by the condition information acquisition unit together with a blood pressure value And when the past measurement record information close to the conditions at the time of blood pressure measurement is acquired from the recording means by the measurement record information acquisition means, the blood pressure based on the measurement record information is acquired by the correction means.
- a blood pressure measurement method including a step of correcting the measurement parameter. According to the present invention, it is possible to execute processing for setting an optimal blood pressure measurement parameter for each user.
- the step of correcting by the correcting means can correct the blood pressure measurement parameter using the condition at the time of blood pressure measurement as the measurement date and time or the temperature at the time of measurement.
- the step of storing in the recording means can record the blood pressure measurement condition input to the operation means as the condition information acquisition means together with the blood pressure value in the recording means.
- an electronic sphygmomanometer and a blood pressure measurement method capable of setting an optimal blood pressure measurement parameter for each user, and to improve user satisfaction.
- the block diagram which shows the structure of the electronic blood pressure monitor which concerns on the Example of this invention.
- the flowchart which shows an example of the blood-pressure measurement operation
- an electronic sphygmomanometer 2600 of this embodiment includes a cuff 2101, an air tube 2102, a pressure sensor 2103, a pump 2104, a valve 2105, an oscillation circuit 2111, a pump drive circuit 2112, a valve drive circuit 2113, and a timer unit. 2115, a power source 2116, a CPU 2120, a display unit 2121, a memory (for processing) 2122, a memory (for recording) 2123, an operation unit 2630, an interface 2171, and a recording medium 2172.
- FIG. 1 is a block diagram showing the configuration of the electronic sphygmomanometer 2600 of this embodiment.
- the cuff 2101 is a belt-like member that is connected to the air tube 2102 and is attached to the blood pressure measurement site of the user in order to pressurize by air pressure.
- the pressure sensor 2103 is a capacitance type pressure sensor, and the capacitance value changes according to the pressure in the cuff (cuff pressure).
- the pump 2104 and the valve 2105 apply pressure to the cuff and adjust (control) the pressure in the cuff.
- the oscillation circuit 2111 outputs a signal having a frequency corresponding to the capacitance value of the pressure sensor 2103.
- the pump drive circuit 2112 and the valve drive circuit 2113 drive the pump 2104 and the valve 2105, respectively.
- the clock unit 2115 is a device that clocks the current date and time, and transmits the clocked date and time to the CPU 2120 as necessary.
- the power source 2116 supplies power to each component.
- the CPU 2120 executes control of the pump 2104, the valve 2105, the display unit 2121, the memories 2122 and 2123, the operation unit 2630, the interface 2171, blood pressure determination processing, and management of recorded values.
- the display unit 2121 is configured by a display device such as a liquid crystal screen, and displays a blood pressure value according to a signal sent from the CPU 2120.
- the memory (for processing) 2122 stores a blood pressure monitor control program and the like.
- the memory (for recording) 2123 stores the blood pressure value and also stores the date / time / measurement value / measurement condition in association with each other.
- the operation unit 2630 includes a measurement condition input switch 2641 for inputting measurement conditions in addition to the power switch 2131, the measurement switch 2132, the stop switch 2133, and the recording call switch 2141.
- the operation input is allowed, and the input signal is sent to the CPU 2120.
- the interface 2171 executes recording / reading of the blood pressure value with respect to the recording medium 2172 according to the control of the CPU 2120.
- the measurement condition input switch 2641 is configured to allow an input of a medication status such as whether or not it is after the medication as a measurement condition.
- FIG. 2 is a flowchart showing one blood pressure measurement operation in the present embodiment.
- step S2601 when the power switch of the sphygmomanometer is pressed (step S2601), the CPU 2120 initializes the working memory of the sphygmomanometer and performs 0 mmHg adjustment of the pressure sensor 2103 (step S2602).
- step S2603 When the initialization process ends, measurement conditions such as after taking a drug are input (step S2603), and when the measurement switch is pressed (step S2604), the CPU 2120 acquires the current date and time from the time measuring unit 2115 (step S2605), Any one or more of blood pressure measurement parameters such as a pressurization value, a pressurization rate, and a depressurization rate are determined (step S2606).
- the method for determining the blood pressure measurement parameter in step S2606 will be described later.
- the cuff pressure is increased to a predetermined pressure value by the pump 2104 (steps S2607 to S2608).
- the pressurization speed and pressurization value determined in step S2606 are used as the pressurization speed and pressurization value here.
- the CPU 2120 gradually decreases the cuff pressure by the valve 2105 (step S2609).
- the CPU 2120 extracts a pressure change component accompanying the arterial volume change superimposed on the cuff pressure obtained during decompression, and calculates blood pressure by a predetermined calculation (step S2610).
- the CPU 2120 opens the valve 2105 and exhausts the air in the cuff.
- the CPU 2120 displays the calculated blood pressure value on the display unit 2121 (step S2612) and records it in the memory (for recording) 2123 in association with the date / time / measured value / measurement condition (medication status) (step S2613).
- step S2606 CPU 2120 determines a blood pressure measurement parameter as follows.
- the pressurization value generally needs to be set to a cuff pressure sufficiently higher than the systolic blood pressure. Specifically, it is necessary to pressurize the systolic blood pressure to about 30 mmHg. Therefore, the pressurization value is set based on the recorded measurement data.
- the CPU 2120 calls a table as shown in FIG. 3 recorded in the memory (for recording) 2123.
- the measurement date and time (“YY (year) / MM (month) / DD (day)” in FIG.
- SYS1 systolic blood pressure
- DIA1 diastolic blood pressure
- PLS1 pulse rate
- the CPU 2120 extracts from the measurement data recorded in this table the data that has the same measurement conditions as the current measurement date and time and / or indicates the medication status such as whether or not the medication has been taken. To do.
- the CPU 2120 sets the pressure obtained by adding 30 mmHg to the systolic blood pressure of the latest data among the measurement data meeting the above conditions as the pressurization value.
- “closest to the measurement date / time” means, for example, at least one of the following conditions: measurement month is the same, measurement is the same week, measurement is the same day of the week, measurement is the same time, etc. Indicates a match.
- a pressure obtained by adding 30 mmHg to the average value may be used as the pressurization value.
- a representative value of systolic blood pressure of a plurality of measurement data that meets the above conditions may be used, and a pressure obtained by adding 30 mmHg to the representative value may be used as the pressurization value.
- the representative value here may be a maximum value, a median value, or the like of a plurality of data.
- a predetermined pressure value for example, 180 mmHg
- a systolic blood pressure may be estimated during pressurization, and a pressure value obtained by adding 30 mmHg to the estimated value may be used.
- the decompression speed needs to be set to a speed at which the pulse wave amplitude information can be acquired without excess or deficiency in the number necessary for blood pressure calculation.
- the necessary number of pulse wave amplitude information is 5 or more as described in Japanese Patent No. 3149873.
- a decompression rate that satisfies this requirement can also be calculated from systolic blood pressure (SYS), diastolic blood pressure (DIA), and pulse rate (PLS), as described in the same patent number.
- a predetermined decompression speed for example, 5.5 mmHg / sec
- the systolic blood pressure, the diastolic blood pressure, and the pulse rate may be estimated during pressurization, and the decompression speed calculated from the estimated value may be used.
- the sphygmomanometer of the present embodiment is a method for calculating blood pressure during decompression, but can also be applied to a sphygmomanometer of a method for calculating blood pressure during pressurization. In that case, what is necessary is just to determine not a pressure reduction speed but a pressurization speed. Since the determination method is the same as the decompression speed, the description thereof is omitted.
- blood pressure varies depending on the surrounding environment, such as the temperature at the time of measurement. Therefore, in the above-described electronic sphygmomanometer, blood pressure is measured using the medication status as a measurement condition, but the measurement condition is not limited to the medication status, and may be, for example, the measurement date and time or the temperature at the time of measurement. In this case, for example, as shown in FIG. 4, a table in which the measurement date and time, the temperature at the time of measurement (measured temperature “25 ° C.” in the figure), and each measured value such as blood pressure value and pulse rate are associated with each other. Is recorded in the memory 2123. Since the temperature changes depending on the date (season) and time, the memory 2123 may record only the measurement date and time and each measurement value in association with each other.
- the user may input the temperature information using the measurement condition input switch 2641.
- the electronic sphygmomanometer 2600 may be provided with a temperature measuring unit and based on the detection result of the unit. It is good also as a structure which acquires the information of temperature.
- the measurement condition is not limited to the medication situation, but may be, for example, information related to medication such as the type of medication being taken, and further, the medication information, measurement location, disease information, and what kind of exercise You may comprise so that at least 1 may be used as a measurement condition among the exercise content information, such as how much exercise was performed, and the lifestyle information relevant to a meal, exercise, smoking, rest (rest), etc.
- the measurement condition input switch 2641 is configured so that the above-described various information can be input.
- blood pressure changes depending on various behaviors related to lifestyle habits, and there is a difference in blood pressure before and after meals, after exercise and at rest, and before and after smoking. Therefore, as a table to be recorded in the memory 2123, as shown in FIG. 5, the measurement date and time (“Y1 (year) / M1 (month) / D1 (day)”..., “H1 (hour)”: m1 (minutes) ) ”%), Lifestyle information (measurement conditions in the figure“ after meal ”,“ after exercise ”,“ after smoking ”,“ at rest ”%) and measured values such as blood pressure and pulse rate You may use what was related.
- the blood pressure varies depending on the mental stress that the user receives during measurement. For this reason, it is considered that a difference occurs in blood pressure depending on a measurement location which is one of measurement conditions. For example, when you are at home, you are in a relaxed state where there is not much stress, but at work, you are often in a state where you are heavily stressed, so when you measure blood pressure at home and at work There may be a difference in the measurement results from
- the measurement date and time the measurement location (measurement location "home”, “workplace”, “hospital” 8) in the figure, and blood pressure value / pulse rate You may use what linked
- biometric information acquisition means for measuring blood pressure values
- recording means for recording blood pressure values
- means for storing control programs for the sphygmomanometer for performing correction
- operations such as blood pressure measurement Operation means (operation unit 2630) for performing correction
- correction means CPU 2120
- correction means for correcting based on correction information for separately acquiring biological information acquired by the biological information acquisition means
- post-correction information blood pressure value
- Output means display unit 2121) for outputting the cuff, and a cuff 2101 attached to the blood pressure measurement site
- pressurization / decompression means 2104 and 2105 for adjusting the pressure applied to the cuff 2101, and the pressure in the cuff are detected.
- An electronic sphygmomanometer 2600 provided with pressure detection means (pressure sensor 2103) and blood pressure calculation means (CPU 2120) for calculating a blood pressure value by cuff pressure. And a condition information acquisition unit (measurement condition input switch 2641) for acquiring information related to a current blood pressure measurement condition, and the recording unit determines the blood pressure measurement condition acquired by the condition information acquisition unit as a blood pressure.
- Measurement record information is stored together with a value, and measurement record information acquisition means for acquiring past measurement record information close to the conditions at the time of blood pressure measurement from the recording means as the correction information (CPU 2120 that executes step S2606)
- the correction means (the CPU 2120 that executes step S2606) is configured to correct the blood pressure measurement parameter based on past measurement record information close to the conditions at the time of blood pressure measurement.
- the above configuration provides an effect that an optimum blood pressure measurement parameter can be set for each user.
- Blood pressure measurement parameters can be set.
- a measurement condition input switch 2641 as an input means for inputting the blood pressure measurement condition is provided in the operation unit 2630, and the condition input to the measurement condition input switch 2641 is set together with the blood pressure value.
- the blood pressure measurement parameter is corrected by focusing on one of the conditions of blood pressure measurement, such as the medication status, temperature, lifestyle information, and measurement location. It is not limited, and some of the various measurement conditions described above may be combined. In this case, more appropriate blood pressure measurement parameters can be set by using measurement record information that satisfies various measurement conditions.
- the measurement record information having more matching measurement conditions may be preferentially extracted.
- the blood pressure value Differences can occur.
- the measurement record information may be excluded from extraction if certain specific other conditions are different.
- a table in which the measurement conditions that match and the measurement conditions that are determined to be not subject to extraction when the conditions are different is recorded in the memory 2123 or the like, and the CPU 2121 determines that the measurement conditions that are not subject to extraction are determined. If they are different, the measurement record information may be determined not to be extracted.
- the electronic sphygmomanometer 2600 of this embodiment is provided with the input means (measurement condition input switch 2641) for inputting measurement conditions in the operation means (operation unit 2630), and the measurement location, disease information, and medication status. Measurement conditions such as exercise can be recorded in the recording means (memory 2122, 2123) together with the blood pressure value.
- the present invention is not limited to the configuration of the above-described embodiment, and many embodiments can be obtained.
- the electronic sphygmomanometer 2600 may be configured such that functions can be expanded by downloading appropriate parameters, threshold values, algorithms, and the like from a dedicated server. In this case, it is possible to easily upgrade the software without changing the hardware or to optimize the software for the user.
- the function expansion of the electronic sphygmomanometer 2600 may be executed from a user terminal such as a personal computer owned by the user without using the server.
- the configuration may be such that parameters, threshold values, algorithms, etc. are downloaded from a recording medium such as a CD-ROM.
- the electronic blood pressure monitor 2600 may be connected to another biological information acquisition device such as a body composition meter, a pedometer, or an electronic thermometer so as to be able to communicate directly or wirelessly. Also in this case, it is possible to improve the individual accuracy by transmitting / receiving data to / from each other.
- another biological information acquisition device such as a body composition meter, a pedometer, or an electronic thermometer
- the present invention can be used for an electronic sphygmomanometer that employs an oscillometric method using a cuff or a microphone method.
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Abstract
Description
これまでの血圧計では、(1)測定前に加圧値を切り替えスイッチにより設定する(下記特許文献1参照)、(2)加圧中に収縮期血圧を推定し、推定された収縮期血圧に所定圧(たとえば30mmHg)加算した圧を加圧値とする(下記特許文献2、3参照)、(3)前回までの測定の収縮期血圧値の平均値に所定圧(たとえば30mmHg)加算した圧を加圧値とする(下記特許文献4参照)、などの方法がとられていた。
前記血圧測定パラメータは、減圧速度とすることができる。
前記血圧測定パラメータは、加圧速度とすることができる。
前記血圧測定時の条件を設定する際に使用される測定記録は、現在の測定条件に近い測定記録のうち、最新より複数個の記録の統計演算結果によることを特徴とすることができる。
前記血圧測定時の条件を設定する際に使用される測定記録は、現在の測定条件に近い測定記録のうち、全ての記録の統計演算結果によることを特徴とすることができる。
この発明により、利用者ごとに最適な血圧測定パラメータを設定することができる。
前記生活習慣情報は、食事前、食事後、運動後、喫煙後、安静(休憩)時などの各種情報とすることができる。
この発明により、利用者ごとに最適な血圧測定パラメータを設定する処理を実行することができる。
なお、図1は、本実施例の電子血圧計2600の構成を示すブロック図である。
発振回路2111は、圧力センサ2103の容量値に応じた周波数の信号を出力する。
ポンプ駆動回路2112、及び、弁駆動回路2113は、それぞれポンプ2104、弁2105を駆動する。
電源2116は、各構成部に電力供給を行なう。
インターフェイス2171は、CPU2120の制御に従って記録媒体2172に対し血圧値を記録/読み出しを実行する。
なお、図2は、本実施例における血圧測定動作の一つを示すフローチャートである。
所定の加圧値まで加圧した後、CPU2120は、弁2105により徐々にカフ圧を減圧していく(ステップS2609)。CPU2120は、減圧中に得られるカフ圧に重畳した動脈の容積変化に伴う圧変化成分を抽出し、所定の演算により血圧を算出する(ステップS2610)。血圧を算出した後(ステップS2611:YES)、CPU2120は、弁2105を開放しカフ内の空気を排気する。CPU2120は、算出した血圧値を表示部2121に表示するとともに(ステップS2612)、日時・測定値・測定条件(服薬状況)と関連づけてメモリ(記録用)2123に記録する(ステップS2613)。
(血圧測定パラメータが加圧値である場合)
加圧値は一般的に収縮期血圧より十分に高いカフ圧に設定する必要がある。具体的には収縮期血圧+30mmHg程度まで加圧する必要がある。
そこで、記録されている測定データをもとに加圧値を設定する。詳しくは、CPU2120は、メモリ(記録用)2123に記録されている図3に示すようなテーブルを呼び出す。ここで、メモリ(記録用)2123に記録されているテーブルとしては、図3に示すように、測定日時(図中の「YY(年)/MM(月)/DD(日)」…、「hh(時):mm(分)」…)と、服薬状況(図中の測定条件「服薬後」)と、血圧値・脈拍数などの各測定値(図中の「SYS1(収縮期血圧)」、「DIA1(拡張期血圧)」、「PLS1(脈拍数)」)とを関連付けて記録したものが用いられている。
ここでの代表値とは、複数データの最大値、中央値などとすれば良い。
減圧速度は、脈波振幅情報が血圧算出に必要な数だけ過不足なく取得できる速度に設定する必要がある。この脈波振幅情報の必要な数は、特許第3149873号公報に記載されているように、5個以上が妥当である。これを満足する減圧速度も同特許番号に記載されているように、収縮期血圧(SYS)、拡張期血圧(DIA)、脈拍数(PLS)より算出可能である。
その場合、減圧速度ではなく加圧速度を決定すればよい。決定の方法は減圧速度と同様であるため、その説明を省略する。
Claims (6)
- 血圧測定部位に装着するカフと、カフに加える圧力を調整する加圧・減圧手段と、カフ内の圧力を検出する圧力検出手段と、カフ圧により血圧値を算出する血圧算出手段と、
血圧値を記録する記録手段と、血圧測定などの操作を行う操作手段を備えた電子血圧計であって、
現在の血圧測定時の条件に関連する情報を取得する条件情報取得手段を備え、
前記記録手段は、前記条件情報取得手段により取得した前記血圧測定時の条件を血圧値とともに測定記録情報として記憶する構成であり、
前記血圧測定時の条件に近い過去の測定記録情報を前記記録手段から取得する測定記録情報取得手段と、
該測定記録情報取得手段により前記血圧測定時の条件に近い過去の測定記録情報を取得した場合、該測定記録情報に基づいて血圧測定パラメータを補正する補正手段とを備えた
電子血圧計。 - 前記血圧測定時の条件を、測定日時、又は、測定時の気温とする構成である
請求項1記載の電子血圧計。 - 前記条件情報取得手段として、前記操作手段に、前記血圧測定時の条件を入力する入力手段を設け、
該入力手段に入力した前記条件を血圧値とともに前記記録手段に記憶する構成である
請求項1記載の電子血圧計。 - カフを血圧測定部位に装着した時に前記カフに加える圧力を加圧・減圧手段により調整し、圧力検出手段により検出したカフ圧に基づいて、血圧算出手段により血圧値を算出する血圧測定方法であって、
現在の血圧測定時の条件に関連する情報を条件情報取得手段により取得するステップと、
前記条件情報取得手段により取得した前記血圧測定時の条件を血圧値とともに測定記録情報として記録手段に記憶するステップと、
前記血圧測定時の条件に近い過去の測定記録情報を、測定記録情報取得手段により前記記録手段から取得した場合、補正手段により、前記測定記録情報に基づいて血圧測定パラメータを補正するステップとを有する
血圧測定方法。 - 前記補正手段により補正するステップは、前記血圧測定時の条件を、測定日時、又は、測定時の気温として、前記血圧測定パラメータを補正する
請求項4記載の血圧測定方法。 - 前記記録手段に記憶するステップは、前記条件情報取得手段としての操作手段に入力した前記血圧測定時の条件を血圧値とともに前記記録手段に記録する
請求項4記載の血圧測定方法。
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