JPH11128187A - Electrode for electrocardiogram, clothes for electrocardiogram measurement, and electrocardiogram measuring system - Google Patents

Electrode for electrocardiogram, clothes for electrocardiogram measurement, and electrocardiogram measuring system

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Publication number
JPH11128187A
JPH11128187A JP9293027A JP29302797A JPH11128187A JP H11128187 A JPH11128187 A JP H11128187A JP 9293027 A JP9293027 A JP 9293027A JP 29302797 A JP29302797 A JP 29302797A JP H11128187 A JPH11128187 A JP H11128187A
Authority
JP
Japan
Prior art keywords
electrocardiogram
subject
conductive
electrode
electricity conducting
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Granted
Application number
JP9293027A
Other languages
Japanese (ja)
Other versions
JP3663285B2 (en
Inventor
Masayuki Ishijima
正之 石島
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Gunze Ltd
Original Assignee
Gunze Ltd
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Filing date
Publication date
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Priority to JP29302797A priority Critical patent/JP3663285B2/en
Publication of JPH11128187A publication Critical patent/JPH11128187A/en
Application granted granted Critical
Publication of JP3663285B2 publication Critical patent/JP3663285B2/en
Anticipated expiration legal-status Critical
Expired - Fee Related legal-status Critical Current

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  • Measurement And Recording Of Electrical Phenomena And Electrical Characteristics Of The Living Body (AREA)

Abstract

PROBLEM TO BE SOLVED: To obtain electrocardiogram having excellent accuracy even if a subject moves without binding the subject by providing a flexible electricity conducting part in direct contact with an external electrode of which rear surface is in direct contact with a body surface of the subject and of which a front surface is connected with an electrocardiograph at least partially. SOLUTION: A clothlike electricity conducting material (flexible electricity conducting part or cloth having the electricity conducting property) 10 is incorporated in a place opposing to a shoulder part of a body of clothes 1 (clothes covering an upper half part of the body) which is an electrode for electrocardiogram. The electricity conducting material 10 is incorporated by sewing local parts together in the cut out shoulder part of the clothes 1 or the whole clothes is made of the electricity conducting material 10. Moreover, the electricity conducting material 10 is a woven body made of electricity conducting threads and non-electricity conducting threads and is in the form of a woven cloth or knitted cloth or nonwoven fabric cloth. Furthermore, it may be made of electricity conducting threads only or an electricity conducting film formed by plating, kneading in, and printing an electricity conducting substance in a resin film may be used.

Description

【発明の詳細な説明】DETAILED DESCRIPTION OF THE INVENTION

【0001】[0001]

【発明の属する技術分野】本発明は、被検者の心電図を
取得するための心電図用電極心電図測定用着衣及び心電
図測定システムに関する。
BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an electrocardiogram electrode electrocardiogram measurement garment and an electrocardiogram measurement system for obtaining an electrocardiogram of a subject.

【0002】[0002]

【従来の技術】例えば、安静時の心機能を測定する場
合、被検者の体表に生じる電圧の変化を記録した心電図
により行っている。ここで、心電図とは、心臓拍動にお
いて生じる電気的活動の記録であり、心収縮に先行して
刺激の生成と伝播により興奮する心筋による体表に生じ
る電圧を曲線として記録したものである。
2. Description of the Related Art For example, when measuring a heart function at rest, an electrocardiogram in which a change in a voltage generated on a body surface of a subject is recorded is performed. Here, the electrocardiogram is a record of electrical activity generated in a heart beat, and is a curve recorded of a voltage generated on a body surface by a myocardium excited by generation and propagation of a stimulus prior to a cardiac contraction.

【0003】即ち、心電図により心機能を測定する場
合、銀/塩化銀電極(固定電極)を被検者の手首や足首
の近くに粘着剤によって皮膚に接着させたり、減圧を利
用して体表に吸着させたりすることで固定し、各電極を
増幅器により増幅しこの増幅信号(心電図出力)を記録
計またはCRTに表示することで行っている。しかしこ
のような固定電極は、測定するごとに被検者に固定され
るものであり、しかも上記のように粘着剤を用いたり、
減圧したりして体表面に固定して測定に入るため、被検
者に意識させることなく計測するには限界がある。
That is, when cardiac function is measured by an electrocardiogram, a silver / silver chloride electrode (fixed electrode) is adhered to the skin near the wrist or ankle of the subject with an adhesive, or the body surface is reduced using reduced pressure. The electrodes are fixed by being adsorbed on the electrodes, and each electrode is amplified by an amplifier, and the amplified signal (electrocardiogram output) is displayed on a recorder or a CRT. However, such a fixed electrode is one that is fixed to the subject every time a measurement is performed, and furthermore, using an adhesive as described above,
Since the measurement is started after being fixed on the body surface by reducing the pressure, there is a limit to the measurement without making the subject aware.

【0004】また、場合によっては電極が体表面から脱
落してしまうこともあって、その際には固定し直さなけ
ればならないといった測定者の監視負担も増大せざるを
得ない。これに対して近年、繊維布帛に組み込んだ電極
を利用して無拘束下で体表の電気信号を取得する方法が
報告されている(IEEE TRANSACTION ON BIOMEDICAL ENG
INEERING, VOL., 40, NO6, P593-594 1993)。これは導
電性の繊維によって枕カバー及びシーツを作製し、これ
によって被検者が導電性繊維から構成される枕カバー及
びシーツ上で横になるだけで心拍信号を採取することが
できるものである。これによると、心臓ベクトルに対し
て定常的な位置関係にある電極配置を保ち得るので、心
電図の第二誘導の定常的な波形が取れる。そのため心機
能の診断に有効である。また、この方法によれば電極を
被検者の体表面に固定することなく心電図を採ることが
できるため、自然な状態での測定が可能となる。
[0004] In some cases, the electrodes may fall off the body surface, and in such a case, the monitoring burden on the measurer must be increased such that the electrodes must be fixed again. On the other hand, in recent years, there has been reported a method of acquiring an electric signal of a body surface without constraint using an electrode incorporated in a fiber cloth (IEEE TRANSACTION ON BIOMEDICAL ENG).
INEERING, VOL., 40, NO6, P593-594 1993). In this method, a pillow cover and sheets are made of conductive fibers, so that a subject can collect a heartbeat signal simply by lying down on the pillow cover and sheets made of conductive fibers. . According to this, the electrode arrangement in a stationary positional relationship with the heart vector can be maintained, so that a stationary waveform of the second lead of the electrocardiogram can be obtained. Therefore, it is effective for diagnosis of cardiac function. Further, according to this method, an electrocardiogram can be taken without fixing the electrode to the body surface of the subject, so that measurement can be performed in a natural state.

【0005】[0005]

【発明が解決しようとする課題】しかしながら、上記導
電性の枕カバー及びシーツでは、例えば、被検者の姿勢
如何によっては被検者の髪の毛等が身体と導電性枕カバ
ーの間に入ってしまって身体と電極との接触面積が低下
することで心拍信号を途切れさせ、結果としてはその間
は心電図が採取できなくなってしまい精度の点で問題が
ある。
However, in the above-mentioned conductive pillow cover and sheets, for example, depending on the posture of the subject, the hair of the subject may enter between the body and the conductive pillow cover. As a result, the contact area between the body and the electrode is reduced, thereby interrupting the heartbeat signal. As a result, an electrocardiogram cannot be collected during that time, and there is a problem in accuracy.

【0006】また、この場合には被検者と電極とが容易
に離間する状態にあるため、例えば、被検者が寝返りを
うつ場合にも、上記同様の問題が発生してしてしまうこ
ともある。特に、頭部に近い側に配する電極(枕カバ
ー)は、被検者の動きの影響が大きく身体との接触性が
低下し易いので十分に接触するよう配慮する必要があ
る。
Further, in this case, since the subject and the electrode are easily separated from each other, the same problem as described above may occur, for example, when the subject turns over. There is also. In particular, the electrode (pillow cover) disposed on the side close to the head is greatly affected by the movement of the subject, and the contact with the body is likely to be reduced.

【0007】このように電極と身体との接触性の低下に
起因して心電図の測定精度が低下するのは、上記導電性
の枕カバー及びシーツは身体との接触面積が小さくなる
とその部分での抵抗値が大きくなり、身体の微弱な電気
信号を取得する場合には精度に影響するからである。従
って、測定精度の向上を図るには接触面積を大きくとる
必要があるが、実際には上述したように被検者自身が原
因となって測定精度が低下せざるを得ない。
[0007] The decrease in the accuracy of the electrocardiogram measurement due to the decrease in the contact between the electrode and the body is caused by the fact that the conductive pillow cover and the sheets become smaller when the contact area with the body becomes smaller. This is because when the resistance value increases and a weak electric signal of the body is acquired, the accuracy is affected. Therefore, in order to improve the measurement accuracy, it is necessary to increase the contact area. However, in practice, as described above, the measurement accuracy must be reduced due to the subject himself.

【0008】そこで、本発明は上記課題に鑑みてなされ
たものであって、被検者を拘束することなく、被検者が
動いたとしても精度に優れた心電図を取得することが可
能な心電図用電極を提供することを目的とする。
Accordingly, the present invention has been made in view of the above problems, and an electrocardiogram capable of acquiring a highly accurate electrocardiogram even when the subject moves without restraining the subject. It is intended to provide an electrode for use.

【0009】[0009]

【課題を解決するための手段】上記目的を達成するため
に本発明は、被検者の体表から電気信号を取得する心電
計に用いられる心電図用電極であって、裏面が被検者の
体表面と直接接触し、表面が心電計につながる外部電極
と直接接触する可撓性導電部を、少なくとも一部に有す
る着衣であることを特徴とする。
According to the present invention, there is provided an electrocardiogram electrode used for an electrocardiograph for obtaining an electric signal from a body surface of a subject, the back surface of which is provided by the subject. Characterized in that it is a garment having at least a portion of a flexible conductive portion that directly contacts the body surface of the subject and that directly contacts an external electrode connected to the electrocardiograph.

【0010】この電極を用いれば被検者を拘束すること
なく、被検者が動いたとしても精度に優れた心電図を採
取することができる。上記可撓性導電部には、具体的に
は導電性繊維から構成された織布、編布、不織布又は導
電性を有するフィルムを用いることができる。ここで上
記可撓性導電部を導電性繊維と非導電性繊維とを配列し
て構成すれば、吸湿性、着用感等に優れた風合いの適切
な着衣とすることができる。
With the use of this electrode, a highly accurate electrocardiogram can be obtained even if the subject moves without restraining the subject. Specifically, a woven fabric, a knitted fabric, a nonwoven fabric, or a film having conductivity can be used for the flexible conductive portion. Here, if the flexible conductive portion is configured by arranging conductive fibers and non-conductive fibers, it is possible to provide appropriate clothing having a good texture with excellent moisture absorption and wearing feeling.

【0011】[0011]

【発明の実施の形態】以下実施の形態に係る心電図用電
極について図面を参照しながら具体的に説明する。図1
は、本発明の心電図用電極である着衣1(上半身に纏う
衣服)の正面及び背面方向から見た斜視図である。
DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An electrocardiogram electrode according to an embodiment will be specifically described below with reference to the drawings. FIG.
FIG. 1 is a perspective view of clothing 1 (clothing worn on the upper body), which is an electrocardiogram electrode of the present invention, as viewed from the front and back directions.

【0012】この図1に示すように、当該着衣1は、身
体の肩部と対峙する場所に布状の導電生地10(特許請
求の範囲では、可撓性導電部或は導電性を有する布体と
記載してある。)が組み込まれている。この導電生地1
0は、着衣1の切り抜かれた肩部に周部を縫い合わせる
ことにより組み込まれている。なお、導電生地10が組
み込まれる位置は、被検者の身体の体表面と直接常時接
触可能な位置であれば肩部に限定されない。また、着衣
全体を導電生地10で作製してもよい。
As shown in FIG. 1, the garment 1 is provided with a cloth-like conductive cloth 10 (a flexible conductive part or a cloth having conductivity) in a place facing the shoulder of the body. Described as the body). This conductive cloth 1
0 is incorporated by sewing the periphery to the cut-out shoulder of the garment 1. The position where the conductive cloth 10 is incorporated is not limited to the shoulder as long as it can be always in direct contact with the body surface of the subject's body. Further, the entire garment may be made of the conductive cloth 10.

【0013】図2は、上記導電生地10の一部拡大図で
ある。この図2に示すように導電生地10は、導電性糸
S1と非導電性糸S2との織成体である。導電性糸S1
は、導電性繊維からなる所定の太さ(例えば、130デ
ニール)を有する糸であって、例えば金、銀、銅等の金
属糸、ポリアニリン、ポリアセチレン等の導電性ポリマ
ー、銀メッキされたナイロンフィラメントの束であるマ
ルチフィラメントからなる銀メッキナイロン糸(例え
ば、Sauqoit社製のX−STATIC(商品名))や、硫化銅及
びニッケルを含有したアクリル繊維或はナイロン繊維、
ポリエステル繊維からなるフィラメント糸や紡績糸(撚
糸)や、導電性の糸と非導電性の綿糸、アクリル、ナイ
ロン、ポリエステル糸とのコアヤーン、合糸、合撚糸、
混繊糸、紡績糸(撚糸)を用いることができる。
FIG. 2 is a partially enlarged view of the conductive cloth 10. As shown in FIG. 2, the conductive cloth 10 is a woven body of a conductive yarn S1 and a non-conductive yarn S2. Conductive thread S1
Is a thread made of a conductive fiber having a predetermined thickness (for example, 130 denier), such as a metal thread such as gold, silver, and copper; a conductive polymer such as polyaniline and polyacetylene; and a silver-plated nylon filament. Silver-plated nylon yarn (for example, X-STATIC (trade name) manufactured by Sauqoit Co.) made of multifilament which is a bundle of acrylic fibers or nylon fibers containing copper sulfide and nickel;
Filament yarns and spun yarns (twisted yarns) made of polyester fibers, core yarns, plying yarns, ply twisting yarns of conductive yarns and non-conductive cotton yarns, acrylic, nylon, polyester yarns,
Mixed fiber and spun yarn (twisted yarn) can be used.

【0014】非導電性糸S2は非導電性繊維からなる糸
であって、綿糸、アクリル、ナイロン、ポリエステル糸
等を用いることができる。そして、導電生地10は、上
記導電性糸S1と非導電性糸S2とを織成により配列し
て作製される。この導電生地10の柔軟性は、これを構
成する導電性糸S1、非導電性糸S2の太さ、それらの
織り込む密度等によって規定されるが、可撓圧(体重圧
など)が掛からなくても着衣1を着用した被検者の動き
に伴って常時被検者の身体に接触するように変形が可能
なように設定されている。
The non-conductive yarn S2 is a yarn made of a non-conductive fiber, and may be a cotton yarn, acrylic, nylon, polyester yarn or the like. The conductive cloth 10 is produced by arranging the conductive yarn S1 and the non-conductive yarn S2 by weaving. The flexibility of the conductive cloth 10 is determined by the thickness of the conductive yarn S1 and the non-conductive yarn S2 constituting the conductive cloth 10 and the density of their weaving, but the flexible pressure (weight pressure or the like) is not applied. Also, it is set such that it can be deformed so as to always contact the subject's body with the movement of the subject wearing the clothing 1.

【0015】尤も、着衣1の被検者身体への密着性が高
いものでないと、このように導電生地10を常時身体に
接触させることは困難となるので、被検者の体格に応じ
て着衣の寸法を適宜設定することが望ましい。また、導
電生地10の表裏両面から導電性の繊維が露出するよう
に織成されてある。これは、裏面を被検者の身体に接触
させて心拍信号を採取し、表面を外部電極(後述する布
帛電極22)と容易に接続可能とするためである。
If the clothes 1 do not have high adhesion to the body of the subject, it is difficult to always bring the conductive cloth 10 into contact with the body as described above. It is desirable to appropriately set the dimensions of. The conductive fabric 10 is woven so that conductive fibers are exposed from both front and back surfaces. This is because the back surface is brought into contact with the body of the subject to collect a heartbeat signal, and the front surface can be easily connected to an external electrode (a cloth electrode 22 described later).

【0016】なお、導電生地10の形態は、織布に限ら
ず上記導電性糸S1と非導電性糸S2とを交編した編布
や、導電性繊維S1を絡ませた不織布などの形態を挙げ
ることができるが、導電性糸S1のみによって構成して
もよく、又導電物質が樹脂フィルムにメッキ、練り込
み、プリント等された導電性フィルムを用いることもで
きる。
The form of the conductive cloth 10 is not limited to a woven cloth, but may be a knitted cloth in which the conductive yarn S1 and the non-conductive yarn S2 are knitted, or a nonwoven fabric in which the conductive fiber S1 is entangled. However, a conductive film formed by plating, kneading, and printing a conductive material on a resin film may also be used.

【0017】図3は、この着衣1を心電図測定に適応し
た例である心電図測定システム20の構成を示す模式図
である。この図3に示すように、心電図測定システム2
0は、上記着衣1と、電気的絶縁性のフィラメントの束
からなるマルチフィラメント或は紡績糸を織成したシー
ツ本体21と、このシーツ本体21の上面の被検者の首
部に対応した部位に配置された布帛電極22と、被検者
の足部に対応した部位に配置された布帛電極23と、シ
ーツ本体21の下側に置かれた外来電気雑音を抑制する
ための外来電気雑音抑制用導電性布帛24と、取得した
心拍信号を増幅する増幅器25とから構成される。
FIG. 3 is a schematic diagram showing the configuration of an electrocardiogram measurement system 20 which is an example in which the clothing 1 is adapted for electrocardiogram measurement. As shown in FIG. 3, the electrocardiogram measurement system 2
Reference numeral 0 denotes the above-mentioned clothes 1, a sheet main body 21 woven of a multifilament or a spun yarn composed of a bundle of electrically insulating filaments, and an upper surface of the sheet main body 21 disposed at a position corresponding to the neck of the subject. Fabric electrode 22, a fabric electrode 23 disposed at a site corresponding to the foot of the subject, and a conductive material for suppressing external electric noise placed under the sheet body 21 for suppressing external electric noise. And an amplifier 25 that amplifies the acquired heartbeat signal.

【0018】上記布帛電極22、23には、上記導電生
地10と同様にして作製された織布、編布或は不織布を
用いることができるが、ここで布を構成する糸の強度は
やや強めであって、布の柔軟性があまりないようなもの
であってもかまわない。何故なら、当該布帛電極22、
23には被検者の体重圧がかかるからである。上記外来
電気雑音抑制用導電性布帛24には、金属糸などの導電
糸からなる織布、編布或は不織布を用いることができ、
シーツ本体21との間には当該シーツ本体21と同様の
絶縁性シート(不図示)が介挿されてある。
As the fabric electrodes 22 and 23, a woven fabric, a knitted fabric or a non-woven fabric made in the same manner as the conductive fabric 10 can be used, but the strength of the yarns constituting the fabric is slightly higher. However, the cloth may not be very flexible. Because the fabric electrode 22,
This is because the weight of the subject is applied to 23. The woven, knitted or non-woven fabric made of a conductive yarn such as a metal yarn can be used as the external electric noise suppressing conductive cloth 24,
An insulating sheet (not shown) similar to the sheet body 21 is interposed between the sheet body 21.

【0019】上記電気信号増幅器25は、心電図の検出
に適した周波数帯域特性を持ち、心電図以外の電気雑音
を抑制する電気フィルターが組み込まれている。そし
て、上記布帛電極22は、上記増幅器25のマイナス極
に接続され、布帛電極23は、上記増幅器25のプラス
極に接続されており、被検者の着衣に組み込まれた導電
生地10との電気的な接触によって、被検者の心臓拍動
が電気的に採取される。そして増幅器25から発せられ
る増幅された心拍信号が図示しない記録装置に記録され
るようになっている。
The electric signal amplifier 25 has a frequency band characteristic suitable for detecting an electrocardiogram, and incorporates an electric filter for suppressing electric noise other than the electrocardiogram. The cloth electrode 22 is connected to the negative pole of the amplifier 25, and the cloth electrode 23 is connected to the positive pole of the amplifier 25. The cloth electrode 23 is electrically connected to the conductive cloth 10 incorporated in the clothes of the subject. The heart beat of the subject is electrically collected by the physical contact. Then, the amplified heartbeat signal emitted from the amplifier 25 is recorded in a recording device (not shown).

【0020】この心電図測定システム20では、被検者
の身体の動きに合わせて柔軟に変形が可能な導電生地1
0を、身体の体表面と常時接触可能な位置に配置して心
電図を採取するため、仰臥状態からある程度身体を動か
したとしても、電極と身体との接触面積は確保されるの
で精度の高い心電図を採取することができる。なお、導
電生地10と布帛電極22との電気的な接触性は、心拍
信号を取得するために被検者の体表に直接的に接触する
必要がある心電図用電極とは事情が異なり、接触面積が
僅かでも確保されていれば導電可能であるので心電図用
電極の場合のような問題は生じない。
In the electrocardiogram measuring system 20, the conductive cloth 1 can be flexibly deformed in accordance with the movement of the subject's body.
0 is placed in a position where it can always contact the body surface of the body, and the ECG is collected. Even if the body is moved to some extent from the supine position, the contact area between the electrode and the body is secured, so the ECG is highly accurate. Can be collected. The electrical contact between the conductive cloth 10 and the cloth electrode 22 is different from that of an electrocardiogram electrode which needs to be in direct contact with the subject's body surface in order to acquire a heartbeat signal. If a small area is ensured, it is possible to conduct electricity, so that there is no problem as in the case of an electrocardiogram electrode.

【0021】また、このように被検者は身体をある程度
動かしても測定には悪影響を与えないので被検者が抱く
拘束感が軽減される、つまり、被検者は、リラックスし
た自然な状態で検査に臨むことができる。加えて、測定
者の監視負担の軽減も図ることができるといった効果も
ある。本発明に係る着衣としては、パジャマの他、シャ
ツ、肌着、ネグリジェ(図4(a)参照、図4は、着衣
の別な態様を表す正面図である。)、浴衣(図4(b)
参照)、ねまき、ガウンが挙げられ、これが長袖であっ
ても、半袖であってもよい。又、サポータ、マフラー
(首まき、図4(c)参照)として用いることもでき
る。尚、これらの着衣は、前述した交編織布、布織布自
体を用い或はこれらを部分的に縫着、接着しても、導電
性樹脂をプリントしたり、導電性フィルムを貼合せても
よい。更に、縫糸として導電性糸を用いてもよい。
In addition, since the subject does not adversely affect the measurement even if the subject moves to some extent, the feeling of restraint held by the subject is reduced, that is, the subject is in a relaxed natural state. The inspection can be started. In addition, there is an effect that the monitoring burden on the measurer can be reduced. As the clothing according to the present invention, in addition to pajamas, a shirt, underwear, negligee (see FIG. 4 (a), FIG. 4 is a front view showing another mode of clothing), yukata (FIG. 4 (b))
), Sleepwear and gown, which may be long-sleeved or short-sleeved. Further, it can also be used as a supporter and a muffler (neck wrapping, see FIG. 4C). In addition, these clothes may use the above-mentioned knitted or woven cloth, the cloth or woven cloth itself, or even partially sew and bond them, or print a conductive resin or paste a conductive film. Good. Further, a conductive thread may be used as the sewing thread.

【0022】〔実施例〕上記心電図測定システム20を
用いて心電図を採取した場合について例示的に説明す
る。 「実験区」上記導電生地10には、直径3.3μm/1
フィラメントのフィラメント34本からなる太さ130
デニールで、抵抗値2.86Ω/cm(P−P)のSauq
oit社製のX−STATIC(商品名)(銀メッキナイロン糸)
と40番手の綿糸の織布を用い、これを着衣の肩部に組
み込んだ。
[Embodiment] An example in which an electrocardiogram is collected using the electrocardiogram measuring system 20 will be described by way of example. "Experiment area" The conductive cloth 10 has a diameter of 3.3 μm / 1.
Thickness 130 consisting of 34 filaments
Denier, Sauq with a resistance value of 2.86 Ω / cm (PP)
oit X-STATIC (trade name) (silver plated nylon thread)
And a woven fabric of 40th cotton thread, which was incorporated into the shoulder of the garment.

【0023】上記布帛電極22及び23には導電性の糸
と綿糸とを4対2で配列した織布を用いた。そして、被
検者の心電図を採取した。この結果を図5に示した。 「対象区」対象実験として、導電性繊維からなる布帛電
極を枕に組み込んで被検者の首筋と接触させ心電図を採
取した。この結果を図6に示した。
The fabric electrodes 22 and 23 used were woven fabrics in which conductive yarns and cotton yarns were arranged in a ratio of 4: 2. Then, an electrocardiogram of the subject was collected. The result is shown in FIG. As a target experiment, a fabric electrode made of a conductive fiber was incorporated into a pillow and brought into contact with the neck of a subject to collect an electrocardiogram. The result is shown in FIG.

【0024】図5に示すように着衣に組み込まれた布状
電極(導電生地10)を用いて心電図を採取した場合に
は、心電波形は途切れることなく採取することができた
が、図6に示すように枕に組み込まれた布状電極を用い
た場合には、約85s〜170sの間で採取不能であっ
た。この結果は、双方の精度の差をはっきりと表してい
ると言える。
As shown in FIG. 5, when the electrocardiogram was collected using the cloth-like electrode (conductive cloth 10) incorporated in the clothes, the electrocardiogram waveform could be collected without interruption, but FIG. As shown in the figure, when the cloth-like electrode incorporated in the pillow was used, sampling was not possible in about 85 s to 170 s. This result clearly indicates the difference between the two precisions.

【0025】つまり、対象区の電極は、被検者の頭部が
位置する枕に組み込まれたものであるので、場合によっ
ては首筋と当該電極との間に髪の毛が介在してしまった
り、或は、被検者が寝返りをうってしまうことがあり、
こうなれば身体と電極との接触不良により導電性が低下
してしまい心電図測定に支障を来す。微弱な身体の電気
信号を採取するものであるからこの接触不良の影響は顕
著に顕れる。
That is, since the electrodes in the target area are incorporated in the pillow where the head of the subject is located, hair may be interposed between the neck and the electrodes in some cases, May cause the subject to turn over,
In such a case, the poor conductivity between the body and the electrodes causes the conductivity to decrease, which hinders the ECG measurement. Since a weak electrical signal of the body is collected, the influence of the poor contact is remarkably manifested.

【0026】一方、実験区の電極は、体表面との接触が
遮断されにくい位置(肩部)に組み込まれているのに加
えて、被検者の身体の動きに合わせて変形する柔軟な布
体であるので、当該電極と被検者の皮膚面とは常時大き
な接触面積で接触されることになるので、電気信号が途
切れるといったことは起こり難い。なお、上記実験を被
検者を代えて何回か実施しても上記と同様の差が認めら
れたことを考慮すると、本発明の心電図用電極は従来の
もに比べて精度が高いのは明らかである。
On the other hand, the electrodes in the experimental section are built in a position (shoulder) where contact with the body surface is difficult to be interrupted, and in addition to a flexible cloth which is deformed in accordance with the movement of the subject's body. Since the body is a body, the electrode and the skin surface of the subject are always in contact with a large contact area, so that interruption of an electric signal is unlikely to occur. Considering that the same difference was observed even when the above experiment was performed several times while changing the subject, the electrocardiogram electrode of the present invention is higher in accuracy than the conventional one. it is obvious.

【0027】〔変形例〕本発明は、上記実施の形態に限
定されないのは言うまでもなく、本発明の要旨を逸脱し
ない範囲内において種々の形態で実施可能であり、以下
の変形例が考えられる。 (1) 被検者の対象(年齢や性別)は問わないが、動
きの激しい赤子を被検対象とする場合にその有用性は特
に高いと解される。
[Modifications] Needless to say, the present invention is not limited to the above-described embodiment, and can be implemented in various forms without departing from the gist of the present invention, and the following modifications are conceivable. (1) The subject (age and gender) of the subject does not matter, but it is understood that its usefulness is particularly high when the subject is a rapidly moving baby.

【0028】また、着衣にて電気信号を取得するので、
従前のように仰臥状態で測定する必要性はなく、心臓拍
動に影響を与えない程度であれば椅子に座った状態でも
測定することもできる。 (2) 上記実施の形態は、上半身では肩部でのみ接触
するように導電生地10を配置し、下半身ではシーツ本
体21上の布帛電極23と接触させた場合であったが、
下半身での身体との接触も上半身と同様にスボン、スト
ッキング、ソックス、タイツ、サポーター、レッグウォ
ーマー、指先部分を切除したソックス等の着衣に上記同
様に導電生地10を組み込み、上記布帛電極23を介し
てこれら着衣から直接電気信号を取得するようにするこ
ともできる。
In addition, since an electric signal is acquired by clothes,
It is not necessary to measure in a supine state as before, and it is possible to measure even in a chair as long as it does not affect the heart beat. (2) In the above embodiment, the conductive cloth 10 is arranged so as to be in contact only with the shoulder in the upper body, and is in contact with the cloth electrode 23 on the sheet body 21 in the lower body.
The contact with the body in the lower body also includes the conductive cloth 10 in the same manner as in the upper body, such as trousers, stockings, socks, tights, supporters, leg warmers, socks with fingertips cut off, and the like. Alternatively, an electric signal can be directly obtained from these clothes.

【0029】このようにすれば赤子などの検査にあって
は特に有用である。何故なら、赤子には仰臥を強いて、
測定を行うケースが多いからであるが、この構成であれ
ば普通の状態で測定することもできるからである。又、
特に、老人にあっては足の皮膚が老化して角質化し硬く
なるため上記の方法によって下半身より信号を取り出す
のが効果的である。
This is particularly useful in the inspection of babies and the like. Because I forced my baby to supine,
This is because there are many cases where measurement is performed, but with this configuration, measurement can be performed in a normal state. or,
In particular, in the case of elderly people, the skin of the feet ages and becomes keratinized and hard, so that it is effective to extract a signal from the lower body by the above method.

【0030】[0030]

【発明の効果】上述したように本発明の心電図用電極
は、裏面が被検者の体表面と直接接触し、表面が心電計
につながる外部電極と直接接触する可撓性導電部を、少
なくとも一部に有する着衣であるので、被検者が例えば
仰臥状態からある程度身体を動かしたとしても、電極と
身体との接触面積は確保されるので精度の高い心電図を
採取することができる。
As described above, the electrocardiogram electrode of the present invention has a flexible conductive portion in which the back surface is in direct contact with the body surface of the subject and the front surface is in direct contact with the external electrode connected to the electrocardiograph. Since the clothes are included in at least a part of the body, even if the subject moves to some extent from, for example, a supine state, a contact area between the electrodes and the body is secured, so that a highly accurate electrocardiogram can be collected.

【0031】また、このように被検者は身体をある程度
動かしても測定には悪影響を与えないので被検者が抱く
拘束感が軽減される、つまり、被検者は、リラックスし
た自然な状態で検査に臨むことができる。更に、測定者
の監視負担の軽減も図ることができるといった効果もあ
る。
In addition, since the subject does not adversely affect the measurement even if the subject moves to some extent, the feeling of restraint held by the subject is reduced, that is, the subject is in a relaxed natural state. The inspection can be started. Further, there is an effect that the monitoring burden on the measurer can be reduced.

【図面の簡単な説明】[Brief description of the drawings]

【図1】上記実施の形態に係る心電図用電極である着衣
の正面図と背面図である。
FIG. 1 is a front view and a rear view of a garment which is an electrode for an electrocardiogram according to the embodiment.

【図2】上記実施の形態に係る着衣の導電部の構成を示
す拡大図である。
FIG. 2 is an enlarged view showing a configuration of a conductive portion of the clothes according to the embodiment.

【図3】上記実施の形態に係る心電図を取得するための
心電図測定システムの構成を示す模式図である。
FIG. 3 is a schematic diagram showing a configuration of an electrocardiogram measurement system for acquiring an electrocardiogram according to the embodiment.

【図4】上記着衣の別な態様を表す正面図である。FIG. 4 is a front view showing another mode of the clothing.

【図5】上記心電図測定システムを用いて取得された被
検者の心電図の波形である。
FIG. 5 is a waveform of an electrocardiogram of the subject obtained using the electrocardiogram measurement system.

【図6】従来の電極を用いた心電図測定システムにおい
て取得された被検者の心電図の波形である。
FIG. 6 is a waveform of an electrocardiogram of a subject acquired in a conventional electrocardiogram measurement system using electrodes.

【符号の説明】[Explanation of symbols]

1 着衣 10 導電生地 21 シーツ本体 22 布帛電極 23 布帛電極 24 外来電気雑音抑制用導電性布帛 25 増幅器 S1 導電性糸 S2 非導電性糸 DESCRIPTION OF SYMBOLS 1 Clothing 10 Conductive cloth 21 Sheet body 22 Fabric electrode 23 Fabric electrode 24 Conductive cloth for suppressing external electric noise 25 Amplifier S1 Conductive thread S2 Non-conductive thread

Claims (7)

【特許請求の範囲】[Claims] 【請求項1】 被検者の体表から電気信号を取得する心
電計に用いられる心電図用電極であって、 裏面が被検者の皮膚面と直接接触し、表面が心電計につ
ながる外部電極と直接接触する可撓性導電部を、少なく
とも一部に有する着衣であることを特徴とする心電図用
電極。
1. An electrocardiogram electrode used for an electrocardiograph for acquiring an electric signal from a body surface of a subject, wherein the back surface directly contacts the skin surface of the subject, and the front surface is connected to the electrocardiograph. An electrode for an electrocardiogram, which is a garment having at least a portion of a flexible conductive portion that directly contacts an external electrode.
【請求項2】 前記可撓性導電部は、導電性繊維から構
成された織布、編布、不織布又は導電性を有するフィル
ムであることを特徴とする請求項1記載の心電図用電
極。
2. The electrocardiogram electrode according to claim 1, wherein the flexible conductive portion is a woven fabric, a knitted fabric, a nonwoven fabric, or a conductive film made of conductive fibers.
【請求項3】 前記可撓性導電部は、導電性繊維と非導
電性繊維とが配列され構成されていることを特徴とする
請求項2記載の心電図用電極。
3. The electrocardiogram electrode according to claim 2, wherein the flexible conductive portion is formed by arranging conductive fibers and non-conductive fibers.
【請求項4】 被検者の着衣の一部又は全部が表裏両面
にわたって導電性を有する布体で構成されていることを
特徴とする心電図測定用着衣。
4. Clothing for measuring an electrocardiogram, wherein part or all of the clothing of a subject is made of a cloth having conductivity on both front and back surfaces.
【請求項5】 前記導電性を有する部分は、導電性繊維
から構成された織布、編布、不織布又は導電性を有する
フィルムであることを特徴とする請求項4記載の心電図
測定用着衣。
5. The ECG measurement garment according to claim 4, wherein the conductive portion is a woven fabric, a knitted fabric, a nonwoven fabric, or a conductive film made of conductive fibers.
【請求項6】 前記導電性を有する部分は、導電性繊維
と非導電性繊維とが配列され構成されていることを特徴
とする請求項5記載の心電図測定用着衣。
6. The electrocardiogram measurement garment according to claim 5, wherein the conductive portion is formed by arranging conductive fibers and non-conductive fibers.
【請求項7】 離間して配され、心電計につながる一対
の布帛電極と、 裏面が被検者の皮膚面と直接接触し、表面が前記布帛電
極のうちの一と直接接触する可撓性導電部を、少なくと
も一部に有する着衣とからなる心電図測定システム。
7. A pair of fabric electrodes which are spaced apart and are connected to an electrocardiograph, and a flexible member whose back surface is in direct contact with the skin surface of the subject and whose surface is in direct contact with one of the fabric electrodes. An electrocardiogram measurement system comprising: clothing having at least a part of a conductive unit.
JP29302797A 1997-10-24 1997-10-24 Electrocardiogram electrode, electrocardiogram measurement clothing, and electrocardiogram measurement system Expired - Fee Related JP3663285B2 (en)

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