Forearm arterial pressure-volume relationships in man
Pressure-volume (p-V) relationships of a segment of the forearm circulation have been measured in nine male healthy subjects. Forearm volume was measured using electrical impedance plethysmography, arterial transmural pressure by subtracting mean arterial pressure measured contralaterally in a finge...
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| Published in | Clinical physics and physiological measurement Vol. 9; no. 2; pp. 123 - 132 |
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| Main Authors | , |
| Format | Journal Article |
| Language | English |
| Published |
England
IOP Publishing
01.05.1988
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| Subjects | |
| Online Access | Get full text |
| ISSN | 0143-0815 |
| DOI | 10.1088/0143-0815/9/2/004 |
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| Abstract | Pressure-volume (p-V) relationships of a segment of the forearm circulation have been measured in nine male healthy subjects. Forearm volume was measured using electrical impedance plethysmography, arterial transmural pressure by subtracting mean arterial pressure measured contralaterally in a finger from the pressure in a cuff placed over the sensing electrodes of the plethysmograph. A special two-phase measurement waveform was designed with which cuff pressure was first increased step wise to a suprasystolic level and held at that level for 120 s, then ramped down to zero pressure in another 300 s. The step phase inflation allowed us to estimate the parameters of the interstitial liquids and total blood compartments. The total blood compartment amounted to 6.2 ml per 100 ml of tissue. The ramp phase deflation allowed us to discriminate between a first phase in which only the arteries refilled and a second phase in which the veins also distended. An arctangent function was fitted to the first phase arterial p-V relationship, describing it in model form. Total arterial volume per 100 ml of tissue amounted to 3.8 ml at physiological pressures, total arterial compliance of the forearm per centimetre length to 19.5 microliter kPa-1 cm-1 (2.6 microliter mmHg-1 cm-1) at physiological pressures, and to 340 microliter kPa-1 cm-1 (45 microliter mmHg-1 cm-1) maximum compliance at the lower, inflection point pressures. These values are in general agreement with the literature. Pulse wave velocity cannot be computed reliably from these data. |
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| AbstractList | Pressure-volume (p-V) relationships of a segment of the forearm circulation have been measured in nine male healthy subjects. Forearm volume was measured using electrical impedance plethysmography, arterial transmural pressure by subtracting mean arterial pressure measured contralaterally in a finger from the pressure in a cuff placed over the sensing electrodes of the plethysmograph. A special two-phase measurement waveform was designed with which cuff pressure was first increased step wise to a suprasystolic level and held at that level for 120 s, then ramped down to zero pressure in another 300 s. The step phase inflation allowed us to estimate the parameters of the interstitial liquids and total blood compartments. The total blood compartment amounted to 6.2 ml per 100 ml of tissue. The ramp phase deflation allowed us to discriminate between a first phase in which only the arteries refilled and a second phase in which the veins also distended. An arctangent function was fitted to the first phase arterial p-V relationship, describing it in model form. Total arterial volume per 100 ml of tissue amounted to 3.8 ml at physiological pressures, total arterial compliance of the forearm per centimetre length to 19.5 microliter kPa-1 cm-1 (2.6 microliter mmHg-1 cm-1) at physiological pressures, and to 340 microliter kPa-1 cm-1 (45 microliter mmHg-1 cm-1) maximum compliance at the lower, inflection point pressures. These values are in general agreement with the literature. Pulse wave velocity cannot be computed reliably from these data.Pressure-volume (p-V) relationships of a segment of the forearm circulation have been measured in nine male healthy subjects. Forearm volume was measured using electrical impedance plethysmography, arterial transmural pressure by subtracting mean arterial pressure measured contralaterally in a finger from the pressure in a cuff placed over the sensing electrodes of the plethysmograph. A special two-phase measurement waveform was designed with which cuff pressure was first increased step wise to a suprasystolic level and held at that level for 120 s, then ramped down to zero pressure in another 300 s. The step phase inflation allowed us to estimate the parameters of the interstitial liquids and total blood compartments. The total blood compartment amounted to 6.2 ml per 100 ml of tissue. The ramp phase deflation allowed us to discriminate between a first phase in which only the arteries refilled and a second phase in which the veins also distended. An arctangent function was fitted to the first phase arterial p-V relationship, describing it in model form. Total arterial volume per 100 ml of tissue amounted to 3.8 ml at physiological pressures, total arterial compliance of the forearm per centimetre length to 19.5 microliter kPa-1 cm-1 (2.6 microliter mmHg-1 cm-1) at physiological pressures, and to 340 microliter kPa-1 cm-1 (45 microliter mmHg-1 cm-1) maximum compliance at the lower, inflection point pressures. These values are in general agreement with the literature. Pulse wave velocity cannot be computed reliably from these data. Pressure-volume (p-V) relationships of a segment of the forearm circulation have been measured in nine male healthy subjects. Forearm volume was measured using electrical impedance plethysmography, arterial transmural pressure by subtracting mean arterial pressure measured contralaterally in a finger from the pressure in a cuff placed over the sensing electrodes of the plethysmograph. A special two-phase measurement waveform was designed with which cuff pressure was first increased step wise to a suprasystolic level and held at that level for 120 s, then ramped down to zero pressure in another 300 s. The step phase inflation allowed us to estimate the parameters of the interstitial liquids and total blood compartments. The total blood compartment amounted to 6.2 ml per 100 ml of tissue. The ramp phase deflation allowed us to discriminate between a first phase in which only the arteries refilled and a second phase in which the veins also distended. An arctangent function was fitted to the first phase arterial p-V relationship, describing it in model form. Total arterial volume per 100 ml of tissue amounted to 3.8 ml at physiological pressures, total arterial compliance of the forearm per centimetre length to 19.5 microliter kPa-1 cm-1 (2.6 microliter mmHg-1 cm-1) at physiological pressures, and to 340 microliter kPa-1 cm-1 (45 microliter mmHg-1 cm-1) maximum compliance at the lower, inflection point pressures. These values are in general agreement with the literature. Pulse wave velocity cannot be computed reliably from these data. |
| Author | Wesseling, K H Gizdulich, P |
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| CitedBy_id | crossref_primary_10_1111_j_1475_097X_2005_00636_x crossref_primary_10_1002_jbm_b_31424 crossref_primary_10_1016_0273_1177_94_90423_5 crossref_primary_10_3951_biomechanisms_15_17 crossref_primary_10_1515_BMT_2009_020 crossref_primary_10_1109_TBME_2007_900815 crossref_primary_10_1016_j_medengphy_2012_08_021 crossref_primary_10_1007_s11517_006_0090_9 crossref_primary_10_5369_JSST_2013_22_1_38 crossref_primary_10_1007_BF02530049 |
| Cites_doi | 10.1113/jphysiol.1961.sp006686 10.1109/TBME.1986.325906 10.1093/cvr/12.7.407 10.1137/0111030 10.1007/BF02478660 10.1088/0143-0815/5/1/006 10.1016/0021-9290(84)90034-4 10.1016/0021-9290(73)90033-X 10.1007/BF02444026 10.1161/01.RES.20.3.354 10.1007/BF02474537 10.1152/jappl.1968.24.1.73 10.1161/01.CIR.2.6.811 10.1161/01.RES.8.3.622 |
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| References | 22 Shimazu H (20) 1986; BME-33 Bergel D H (3) 1961; 156 Peterson L H (17) 1960; 8 McDonald D A (13) 1968; 24 Gizdulich P (5) 1984; 5 Gow B S (8) 1980; vol 2 Wesseling K H (25) 1986 Geddes L A (4) 1967; 5 Wesseling K H (24) 1982; 1 Peñáz J (16) 1973 Gizdulich P (7) 1988; 4 12 Greenwald S E (9) 1978; 12 14 Shimazu H (19) 1985; 23 Kubicek W G (10) 1974; 9 Altman P L (1) 1971 Wesseling K H (23) 1973; 11 Wagner R (21) 1954; 107 Langewouters G J (11) 1982 Gizdulich P (6) 1985; 23 Shankar T M R (18) 1981 Bader H (2) 1967; 20 Nyboer J (15) 1950; 2 |
| References_xml | – volume: 156 start-page: 445 year: 1961 ident: 3 publication-title: J. Physiol. doi: 10.1113/jphysiol.1961.sp006686 – volume: BME-33 start-page: 795 issn: 0018-9294 year: 1986 ident: 20 publication-title: IEEE Trans. Biomed. Eng. doi: 10.1109/TBME.1986.325906 – volume: 12 start-page: 407 issn: 0008-6363 year: 1978 ident: 9 publication-title: Cardiovasc. Res. doi: 10.1093/cvr/12.7.407 – ident: 14 doi: 10.1137/0111030 – volume: 11 start-page: 724 issn: 0025-696X year: 1973 ident: 23 publication-title: Med. Biol. Eng. doi: 10.1007/BF02478660 – volume: 5 start-page: 33 issn: 0143-0815 year: 1984 ident: 5 publication-title: Clin. Phys. Physiol. Meas. doi: 10.1088/0143-0815/5/1/006 – year: 1982 ident: 11 – start-page: 355 year: 1986 ident: 25 – start-page: 104 year: 1973 ident: 16 – ident: 12 doi: 10.1016/0021-9290(84)90034-4 – ident: 22 doi: 10.1016/0021-9290(73)90033-X – volume: 23 start-page: 43 issn: 0140-0118 year: 1985 ident: 19 publication-title: Med. Biol. Eng. Comput. doi: 10.1007/BF02444026 – start-page: 379 year: 1971 ident: 1 – volume: 20 start-page: 354 year: 1967 ident: 2 publication-title: Circ. Res. doi: 10.1161/01.RES.20.3.354 – volume: 107 start-page: 29 issn: 0372-8366 year: 1954 ident: 21 publication-title: Z. Biol. – volume: 5 start-page: 271 issn: 0025-696X year: 1967 ident: 4 publication-title: Med. Biol. Eng. doi: 10.1007/BF02474537 – volume: 24 start-page: 73 year: 1968 ident: 13 publication-title: J. Appl. Physiol. doi: 10.1152/jappl.1968.24.1.73 – start-page: 307 year: 1981 ident: 18 – volume: 4 issn: 0766-138X year: 1988 ident: 7 publication-title: Phys. Med. – volume: 23 start-page: 1011 issn: 0140-0118 year: 1985 ident: 6 publication-title: Med. Biol. Eng. Comput. – volume: 9 start-page: 410 year: 1974 ident: 10 publication-title: Biomed. Eng. – volume: 2 start-page: 811 year: 1950 ident: 15 publication-title: Circulation doi: 10.1161/01.CIR.2.6.811 – volume: 8 start-page: 622 year: 1960 ident: 17 publication-title: Circ. Res. doi: 10.1161/01.RES.8.3.622 – volume: vol 2 start-page: 353 year: 1980 ident: 8 – volume: 1 start-page: 245 issn: 0722-3684 year: 1982 ident: 24 publication-title: Funkt. Biol. Med. |
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| SubjectTerms | Adult Blood Pressure Blood Pressure Determination - methods Blood Volume Blood Volume Determination - methods Forearm - blood supply Humans Male Middle Aged Models, Cardiovascular Plethysmography, Impedance Reference Values |
| Title | Forearm arterial pressure-volume relationships in man |
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