DIFFERENCES OF ARTERIAL ELASTIC PROPERTIES IN HUMAN LIMBS MEASURED BY VOLUME-OSCILLOMETRIC METHOD.

Manabu Hosoya, A. Kawarada, Masahiro Shibata, J. Ando, K. Yamakoshi, A. Kamiya, H. Shimazu, H. Ito

研究成果: Conference contribution

抄録

Arterial elastic properties in various sites of human limb segments were noninvasively measured by a volume-oscillometric method which was previously proposed as a new sphygmomanometry. The vascular volume change (V) and its pulsation ( DELTA V) following the application of counterpressure (cuff pressure) were detected by electrical admittance or photoelectrical plethysmography. Arterial compliance (C//a equals DELTA V/ DELTA P: DELTA P, pulse pressure) and volume elastic modulus (E//v equals DELTA P/ DELTA V/V) as a function of transmural pressure were calculated from the volume variations thus measured and the simultaneously determined indirect arterial pressure. The measurements were successfully made on human limb segments of fingers, forearms, upper arms, toes, calves and thighs. The difference of elastic properties among these segments were also discussed.

元の言語English
ホスト出版物のタイトルJapanese Journal of Medical Electronics and Biological Engineering
出版者Japan Soc of Medical Electronics & Biological Engineering
ページ218-219
ページ数2
22
出版物ステータスPublished - 1984 4
外部発表Yes

Fingerprint

Plethysmography
Elastic moduli
Compliance

ASJC Scopus subject areas

  • Electrical and Electronic Engineering

これを引用

Hosoya, M., Kawarada, A., Shibata, M., Ando, J., Yamakoshi, K., Kamiya, A., ... Ito, H. (1984). DIFFERENCES OF ARTERIAL ELASTIC PROPERTIES IN HUMAN LIMBS MEASURED BY VOLUME-OSCILLOMETRIC METHOD.Japanese Journal of Medical Electronics and Biological Engineering (巻 22, pp. 218-219). Japan Soc of Medical Electronics & Biological Engineering.

DIFFERENCES OF ARTERIAL ELASTIC PROPERTIES IN HUMAN LIMBS MEASURED BY VOLUME-OSCILLOMETRIC METHOD. / Hosoya, Manabu; Kawarada, A.; Shibata, Masahiro; Ando, J.; Yamakoshi, K.; Kamiya, A.; Shimazu, H.; Ito, H.

Japanese Journal of Medical Electronics and Biological Engineering. 巻 22 Japan Soc of Medical Electronics & Biological Engineering, 1984. p. 218-219.

研究成果: Conference contribution

Hosoya, M, Kawarada, A, Shibata, M, Ando, J, Yamakoshi, K, Kamiya, A, Shimazu, H & Ito, H 1984, DIFFERENCES OF ARTERIAL ELASTIC PROPERTIES IN HUMAN LIMBS MEASURED BY VOLUME-OSCILLOMETRIC METHOD.Japanese Journal of Medical Electronics and Biological Engineering. 巻. 22, Japan Soc of Medical Electronics & Biological Engineering, pp. 218-219.
Hosoya M, Kawarada A, Shibata M, Ando J, Yamakoshi K, Kamiya A その他. DIFFERENCES OF ARTERIAL ELASTIC PROPERTIES IN HUMAN LIMBS MEASURED BY VOLUME-OSCILLOMETRIC METHOD. : Japanese Journal of Medical Electronics and Biological Engineering. 巻 22. Japan Soc of Medical Electronics & Biological Engineering. 1984. p. 218-219
Hosoya, Manabu ; Kawarada, A. ; Shibata, Masahiro ; Ando, J. ; Yamakoshi, K. ; Kamiya, A. ; Shimazu, H. ; Ito, H. / DIFFERENCES OF ARTERIAL ELASTIC PROPERTIES IN HUMAN LIMBS MEASURED BY VOLUME-OSCILLOMETRIC METHOD. Japanese Journal of Medical Electronics and Biological Engineering. 巻 22 Japan Soc of Medical Electronics & Biological Engineering, 1984. pp. 218-219
@inproceedings{0891b572fba64e15a4c8af96bc141845,
title = "DIFFERENCES OF ARTERIAL ELASTIC PROPERTIES IN HUMAN LIMBS MEASURED BY VOLUME-OSCILLOMETRIC METHOD.",
abstract = "Arterial elastic properties in various sites of human limb segments were noninvasively measured by a volume-oscillometric method which was previously proposed as a new sphygmomanometry. The vascular volume change (V) and its pulsation ( DELTA V) following the application of counterpressure (cuff pressure) were detected by electrical admittance or photoelectrical plethysmography. Arterial compliance (C//a equals DELTA V/ DELTA P: DELTA P, pulse pressure) and volume elastic modulus (E//v equals DELTA P/ DELTA V/V) as a function of transmural pressure were calculated from the volume variations thus measured and the simultaneously determined indirect arterial pressure. The measurements were successfully made on human limb segments of fingers, forearms, upper arms, toes, calves and thighs. The difference of elastic properties among these segments were also discussed.",
author = "Manabu Hosoya and A. Kawarada and Masahiro Shibata and J. Ando and K. Yamakoshi and A. Kamiya and H. Shimazu and H. Ito",
year = "1984",
month = "4",
language = "English",
volume = "22",
pages = "218--219",
booktitle = "Japanese Journal of Medical Electronics and Biological Engineering",
publisher = "Japan Soc of Medical Electronics & Biological Engineering",

}

TY - GEN

T1 - DIFFERENCES OF ARTERIAL ELASTIC PROPERTIES IN HUMAN LIMBS MEASURED BY VOLUME-OSCILLOMETRIC METHOD.

AU - Hosoya, Manabu

AU - Kawarada, A.

AU - Shibata, Masahiro

AU - Ando, J.

AU - Yamakoshi, K.

AU - Kamiya, A.

AU - Shimazu, H.

AU - Ito, H.

PY - 1984/4

Y1 - 1984/4

N2 - Arterial elastic properties in various sites of human limb segments were noninvasively measured by a volume-oscillometric method which was previously proposed as a new sphygmomanometry. The vascular volume change (V) and its pulsation ( DELTA V) following the application of counterpressure (cuff pressure) were detected by electrical admittance or photoelectrical plethysmography. Arterial compliance (C//a equals DELTA V/ DELTA P: DELTA P, pulse pressure) and volume elastic modulus (E//v equals DELTA P/ DELTA V/V) as a function of transmural pressure were calculated from the volume variations thus measured and the simultaneously determined indirect arterial pressure. The measurements were successfully made on human limb segments of fingers, forearms, upper arms, toes, calves and thighs. The difference of elastic properties among these segments were also discussed.

AB - Arterial elastic properties in various sites of human limb segments were noninvasively measured by a volume-oscillometric method which was previously proposed as a new sphygmomanometry. The vascular volume change (V) and its pulsation ( DELTA V) following the application of counterpressure (cuff pressure) were detected by electrical admittance or photoelectrical plethysmography. Arterial compliance (C//a equals DELTA V/ DELTA P: DELTA P, pulse pressure) and volume elastic modulus (E//v equals DELTA P/ DELTA V/V) as a function of transmural pressure were calculated from the volume variations thus measured and the simultaneously determined indirect arterial pressure. The measurements were successfully made on human limb segments of fingers, forearms, upper arms, toes, calves and thighs. The difference of elastic properties among these segments were also discussed.

UR - http://www.scopus.com/inward/record.url?scp=0021406911&partnerID=8YFLogxK

UR - http://www.scopus.com/inward/citedby.url?scp=0021406911&partnerID=8YFLogxK

M3 - Conference contribution

AN - SCOPUS:0021406911

VL - 22

SP - 218

EP - 219

BT - Japanese Journal of Medical Electronics and Biological Engineering

PB - Japan Soc of Medical Electronics & Biological Engineering

ER -