Comparison of the reflex reactivity of skin and muscle veins in the human forearm
To determine the relative participation of skin and muscle capacitance beds of the forearm in venomotor reflexes, epinephrine iontophoresis was combined with forearm plethysmography so that the volume of muscle veins could be estimated simultaneously with the volume of cutaneous veins, at a constant...
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| Published in | The Journal of clinical investigation Vol. 48; no. 10; pp. 1870 - 1877 |
|---|---|
| Main Authors | , |
| Format | Journal Article |
| Language | English |
| Published |
United States
01.10.1969
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| Subjects | |
| Online Access | Get full text |
| ISSN | 0021-9738 |
| DOI | 10.1172/JCI106153 |
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| Abstract | To determine the relative participation of skin and muscle capacitance beds of the forearm in venomotor reflexes, epinephrine iontophoresis was combined with forearm plethysmography so that the volume of muscle veins could be estimated simultaneously with the volume of cutaneous veins, at a constant venous pressure. With this technique not only are the cutaneous veins markedly constricted but they also are prevented from filling since skin blood flow is abolished. In 10 normal subjects, the venous volume in the elevated control forearm at a congesting pressure of 30 mm Hg (VV[30]) was 3.16 +/-0.30 SEM cc/100 cc, while in the iontophoresed arm it was 2.54 +/-0.31 cc/100 cc. Thus the forearm cutaneous VV[30] was 1.62 cc/100 cc. With a deep breath, ice to the forehead, and leg exercise, and cutaneous VV[30] decreased 19.8% (P < 0.01), 36.6% (P < 0.01), and 32.6% (P < 0.02), respectively, whereas the muscle VV[30] was not altered significantly. Similar results were observed using the isolated forearm technique and a deep muscle vein. The infusion of epinephrine intra-arterially did not decrease reflex venomotor reactivity until cutaneous blood flow was completely suppressed, indicating that the inability of the veins to react in the iontophoresed arm was not the result of epinephrine diffusion into the muscle bed. Thus, these results indicate that, in the forearm, only cutaneous veins participate in venomotor reflexes. Further, since the forearm is principally composed of skeletal muscle and the hand skin, an explanation is provided for the observation that veins of the forearm, studied as a whole, appear less reactive to stimuli than veins of the hand. An explanation also is provided for fainting which occurs during motionless standing despite intense venoconstriction, thereby emphasizing the importance of the skeletal muscle pump in the legs in preventing postural syncope. |
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| AbstractList | To determine the relative participation of skin and muscle capacitance beds of the forearm in venomotor reflexes, epinephrine iontophoresis was combined with forearm plethysmography so that the volume of muscle veins could be estimated simultaneously with the volume of cutaneous veins, at a constant venous pressure. With this technique not only are the cutaneous veins markedly constricted but they also are prevented from filling since skin blood flow is abolished. In 10 normal subjects, the venous volume in the elevated control forearm at a congesting pressure of 30 mm Hg (VV[30]) was 3.16 +/-0.30 SEM cc/100 cc, while in the iontophoresed arm it was 2.54 +/-0.31 cc/100 cc. Thus the forearm cutaneous VV[30] was 1.62 cc/100 cc. With a deep breath, ice to the forehead, and leg exercise, and cutaneous VV[30] decreased 19.8% (P < 0.01), 36.6% (P < 0.01), and 32.6% (P < 0.02), respectively, whereas the muscle VV[30] was not altered significantly. Similar results were observed using the isolated forearm technique and a deep muscle vein. The infusion of epinephrine intra-arterially did not decrease reflex venomotor reactivity until cutaneous blood flow was completely suppressed, indicating that the inability of the veins to react in the iontophoresed arm was not the result of epinephrine diffusion into the muscle bed. Thus, these results indicate that, in the forearm, only cutaneous veins participate in venomotor reflexes. Further, since the forearm is principally composed of skeletal muscle and the hand skin, an explanation is provided for the observation that veins of the forearm, studied as a whole, appear less reactive to stimuli than veins of the hand. An explanation also is provided for fainting which occurs during motionless standing despite intense venoconstriction, thereby emphasizing the importance of the skeletal muscle pump in the legs in preventing postural syncope.To determine the relative participation of skin and muscle capacitance beds of the forearm in venomotor reflexes, epinephrine iontophoresis was combined with forearm plethysmography so that the volume of muscle veins could be estimated simultaneously with the volume of cutaneous veins, at a constant venous pressure. With this technique not only are the cutaneous veins markedly constricted but they also are prevented from filling since skin blood flow is abolished. In 10 normal subjects, the venous volume in the elevated control forearm at a congesting pressure of 30 mm Hg (VV[30]) was 3.16 +/-0.30 SEM cc/100 cc, while in the iontophoresed arm it was 2.54 +/-0.31 cc/100 cc. Thus the forearm cutaneous VV[30] was 1.62 cc/100 cc. With a deep breath, ice to the forehead, and leg exercise, and cutaneous VV[30] decreased 19.8% (P < 0.01), 36.6% (P < 0.01), and 32.6% (P < 0.02), respectively, whereas the muscle VV[30] was not altered significantly. Similar results were observed using the isolated forearm technique and a deep muscle vein. The infusion of epinephrine intra-arterially did not decrease reflex venomotor reactivity until cutaneous blood flow was completely suppressed, indicating that the inability of the veins to react in the iontophoresed arm was not the result of epinephrine diffusion into the muscle bed. Thus, these results indicate that, in the forearm, only cutaneous veins participate in venomotor reflexes. Further, since the forearm is principally composed of skeletal muscle and the hand skin, an explanation is provided for the observation that veins of the forearm, studied as a whole, appear less reactive to stimuli than veins of the hand. An explanation also is provided for fainting which occurs during motionless standing despite intense venoconstriction, thereby emphasizing the importance of the skeletal muscle pump in the legs in preventing postural syncope. To determine the relative participation of skin and muscle capacitance beds of the forearm in venomotor reflexes, epinephrine iontophoresis was combined with forearm plethysmography so that the volume of muscle veins could be estimated simultaneously with the volume of cutaneous veins, at a constant venous pressure. With this technique not only are the cutaneous veins markedly constricted but they also are prevented from filling since skin blood flow is abolished. In 10 normal subjects, the venous volume in the elevated control forearm at a congesting pressure of 30 mm Hg (VV[30]) was 3.16 ±0.30 SEM cc/100 cc, while in the iontophoresed arm it was 2.54 ±0.31 cc/100 cc. Thus the forearm cutaneous VV[30] was 1.62 cc/100 cc. With a deep breath, ice to the forehead, and leg exercise, and cutaneous VV[30] decreased 19.8% ( P < 0.01), 36.6% ( P < 0.01), and 32.6% ( P < 0.02), respectively, whereas the muscle VV[30] was not altered significantly. Similar results were observed using the isolated forearm technique and a deep muscle vein. The infusion of epinephrine intra-arterially did not decrease reflex venomotor reactivity until cutaneous blood flow was completely suppressed, indicating that the inability of the veins to react in the iontophoresed arm was not the result of epinephrine diffusion into the muscle bed. Thus, these results indicate that, in the forearm, only cutaneous veins participate in venomotor reflexes. Further, since the forearm is principally composed of skeletal muscle and the hand skin, an explanation is provided for the observation that veins of the forearm, studied as a whole, appear less reactive to stimuli than veins of the hand. An explanation also is provided for fainting which occurs during motionless standing despite intense venoconstriction, thereby emphasizing the importance of the skeletal muscle pump in the legs in preventing postural syncope. To determine the relative participation of skin and muscle capacitance beds of the forearm in venomotor reflexes, epinephrine iontophoresis was combined with forearm plethysmography so that the volume of muscle veins could be estimated simultaneously with the volume of cutaneous veins, at a constant venous pressure. With this technique not only are the cutaneous veins markedly constricted but they also are prevented from filling since skin blood flow is abolished. In 10 normal subjects, the venous volume in the elevated control forearm at a congesting pressure of 30 mm Hg (VV[30]) was 3.16 +/-0.30 SEM cc/100 cc, while in the iontophoresed arm it was 2.54 +/-0.31 cc/100 cc. Thus the forearm cutaneous VV[30] was 1.62 cc/100 cc. With a deep breath, ice to the forehead, and leg exercise, and cutaneous VV[30] decreased 19.8% (P < 0.01), 36.6% (P < 0.01), and 32.6% (P < 0.02), respectively, whereas the muscle VV[30] was not altered significantly. Similar results were observed using the isolated forearm technique and a deep muscle vein. The infusion of epinephrine intra-arterially did not decrease reflex venomotor reactivity until cutaneous blood flow was completely suppressed, indicating that the inability of the veins to react in the iontophoresed arm was not the result of epinephrine diffusion into the muscle bed. Thus, these results indicate that, in the forearm, only cutaneous veins participate in venomotor reflexes. Further, since the forearm is principally composed of skeletal muscle and the hand skin, an explanation is provided for the observation that veins of the forearm, studied as a whole, appear less reactive to stimuli than veins of the hand. An explanation also is provided for fainting which occurs during motionless standing despite intense venoconstriction, thereby emphasizing the importance of the skeletal muscle pump in the legs in preventing postural syncope. |
| Author | Zelis, Robert Mason, Dean T. |
| AuthorAffiliation | Cardiology Branch, National Heart Institute, National Institutes of Health, Bethesda, Maryland 20014 Department of Medicine and Physiology, Section of Cardiopulmonary Medicine, University of California at Davis, School of Medicine, Davis, California 95616 |
| AuthorAffiliation_xml | – name: Cardiology Branch, National Heart Institute, National Institutes of Health, Bethesda, Maryland 20014 – name: Department of Medicine and Physiology, Section of Cardiopulmonary Medicine, University of California at Davis, School of Medicine, Davis, California 95616 |
| Author_xml | – sequence: 1 givenname: Robert surname: Zelis fullname: Zelis, Robert – sequence: 2 givenname: Dean T. surname: Mason fullname: Mason, Dean T. |
| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/5822592$$D View this record in MEDLINE/PubMed |
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| References | 5904421 - Circulation. 1966 Mar;33(3):484-91 14347281 - Acta Physiol Scand. 1965 May-Jun;64:75-86 5649078 - Circulation. 1968 Apr;37(4):524-33 5688017 - Circ Res. 1968 Nov;23(5):653-61 14192526 - J Clin Invest. 1964 Jul;43:1449-63 14392606 - J Physiol. 1955 May 27;128(2):258-67 5638349 - N Engl J Med. 1968 Feb 8;278(6):317-22 5641631 - J Clin Invest. 1968 Apr;47(4):960-70 5904317 - Circ Res. 1966 Mar;18(3):263-77 5665160 - Am J Physiol. 1968 Aug;215(2):299-307 16991876 - J Physiol. 1949 Jun 15;108(4):451-7 13313448 - Am Heart J. 1956 Jun;51(6):807-28 13398947 - J Physiol. 1956 Dec 28;134(3):612-9 5903941 - J Appl Physiol. 1966 Jan;21(1):341-6 5786786 - Circ Res. 1969 Jun;24(6):799-806 13715356 - Am Heart J. 1961 Aug;62:194-205 6061640 - Circ Res. 1967 Sep;21(3):319-25 13911416 - Br Med J. 1961 Dec 16;2(5267):1589-95 16695936 - J Clin Invest. 1968 Jan;47(1):139-52 13897284 - Physiol Rev Suppl. 1962 Jul;5:283-308 13687404 - Circ Res. 1960 Sep;8:1059-76 5916662 - J Appl Physiol. 1966 Jul;21(4):1265-72 13491711 - J Clin Invest. 1958 Jan;37(1):41-50 14209658 - Am Heart J. 1964 Sep;68:397-408 13051828 - Circulation. 1953 Jun;7(6):869-73 |
| References_xml | – reference: 13398947 - J Physiol. 1956 Dec 28;134(3):612-9 – reference: 13491711 - J Clin Invest. 1958 Jan;37(1):41-50 – reference: 5638349 - N Engl J Med. 1968 Feb 8;278(6):317-22 – reference: 5665160 - Am J Physiol. 1968 Aug;215(2):299-307 – reference: 13897284 - Physiol Rev Suppl. 1962 Jul;5:283-308 – reference: 14347281 - Acta Physiol Scand. 1965 May-Jun;64:75-86 – reference: 5688017 - Circ Res. 1968 Nov;23(5):653-61 – reference: 14209658 - Am Heart J. 1964 Sep;68:397-408 – reference: 5641631 - J Clin Invest. 1968 Apr;47(4):960-70 – reference: 5904421 - Circulation. 1966 Mar;33(3):484-91 – reference: 16991876 - J Physiol. 1949 Jun 15;108(4):451-7 – reference: 5649078 - Circulation. 1968 Apr;37(4):524-33 – reference: 5916662 - J Appl Physiol. 1966 Jul;21(4):1265-72 – reference: 14192526 - J Clin Invest. 1964 Jul;43:1449-63 – reference: 13911416 - Br Med J. 1961 Dec 16;2(5267):1589-95 – reference: 13715356 - Am Heart J. 1961 Aug;62:194-205 – reference: 5904317 - Circ Res. 1966 Mar;18(3):263-77 – reference: 13687404 - Circ Res. 1960 Sep;8:1059-76 – reference: 16695936 - J Clin Invest. 1968 Jan;47(1):139-52 – reference: 5786786 - Circ Res. 1969 Jun;24(6):799-806 – reference: 14392606 - J Physiol. 1955 May 27;128(2):258-67 – reference: 13051828 - Circulation. 1953 Jun;7(6):869-73 – reference: 6061640 - Circ Res. 1967 Sep;21(3):319-25 – reference: 5903941 - J Appl Physiol. 1966 Jan;21(1):341-6 – reference: 13313448 - Am Heart J. 1956 Jun;51(6):807-28 |
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| SubjectTerms | Adult Blood Pressure Blood Volume Epinephrine - pharmacology Forearm - blood supply Humans Iontophoresis Male Muscles - blood supply Physical Exertion Plethysmography Reflex Respiration Skin - blood supply Veins |
| Title | Comparison of the reflex reactivity of skin and muscle veins in the human forearm |
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