Comparison of exogenous adenosine and voluntary exercise on human skeletal muscle perfusion and perfusion heterogeneity

Ilkka H.A. Heinonen; Jukka Kemppainen; Kimmo Kaskinoro; Juha E. Peltonen; Ronald Borra; Markus Lindroos; Vesa Oikonen; Pirjo Nuutila; Juhani Knuuti; Ylva Hellsten; Robert Boushel; Kari K. Kalliokoski

doi:10.1152/japplphysiol.00745.2009

Comparison of exogenous adenosine and voluntary exercise on human skeletal muscle perfusion and perfusion heterogeneity

Ilkka H.A. Heinonen, Jukka Kemppainen, Kimmo Kaskinoro, Juha E. Peltonen, Ronald Borra, Markus Lindroos, Vesa Oikonen, Pirjo Nuutila, Juhani Knuuti, Ylva Hellsten, Robert Boushel, Kari K. Kalliokoski

Torekov Group

48 Citations (Scopus)

Abstract

Adenosine is a widely used pharmacological agent to induce a "high-flow" control condition to study the mechanisms of exercise hyperemia, but it is not known how well an adenosine infusion depicts exercise-induced hyperemia, especially in terms of blood flow distribution at the capillary level in human muscle. Additionally, it remains to be determined what proportion of the adenosine-induced flow elevation is specifically directed to muscle only. In the present study, we measured thigh muscle capillary nutritive blood flow in nine healthy young men using PET at rest and during the femoral artery infusion of adenosine (1 mgmin^-1l thigh volume ^-1), which has previously been shown to induce a maximal whole thigh blood flow of ∼8 1/min. This response was compared with the blood flow induced by moderate- to high-intensity one-leg dynamic knee extension exercise. Adenosine increased muscle blood flow on average to 40 ± 7 ml,min ^-1,100 g muscle^-1 with an aggregate value of 2.3 ± 0.61/min for the whole thigh musculature. Adenosine also induced a substantial change in blood flow distribution within individuals. Muscle blood flow during the adenosine infusion was comparable with blood flow in moderate- to high-intensity exercise (36 ± 9 ml.min^-1.100 g muscle ^-1), but flow heterogeneity was significantly higher during the adenosine infusion than during voluntary exercise. In conclusion, a substantial part of the flow increase in the whole limb blood flow induced by a high-dose adenosine infusion is conducted through the physiological non-nutritive shunt in muscle and/or also through tissues of the limb other than muscle. Additionally, an intra-arterial adenosine infusion does not mimic exercise hyperemia, especially in terms of muscle capillary flow heterogeneity, while the often-observed exercise-induced changes in capillary blood flow heterogeneity likely reflect true changes in nutritive flow linked to muscle fiber and vascular unit recruitment.

Original language	English
Journal	Journal of Applied Physiology
Volume	108
Issue number	2
Pages (from-to)	378-386
Number of pages	9
ISSN	8750-7587
DOIs	https://doi.org/10.1152/japplphysiol.00745.2009
Publication status	Published - Feb 2010

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

Access to Document

10.1152/japplphysiol.00745.2009

Cite this

Heinonen, I. H. A., Kemppainen, J., Kaskinoro, K., Peltonen, J. E., Borra, R., Lindroos, M., Oikonen, V., Nuutila, P., Knuuti, J., Hellsten, Y., Boushel, R., & Kalliokoski, K. K. (2010). Comparison of exogenous adenosine and voluntary exercise on human skeletal muscle perfusion and perfusion heterogeneity. Journal of Applied Physiology, 108(2), 378-386. https://doi.org/10.1152/japplphysiol.00745.2009

Heinonen, IHA, Kemppainen, J, Kaskinoro, K, Peltonen, JE, Borra, R, Lindroos, M, Oikonen, V, Nuutila, P, Knuuti, J, Hellsten, Y, Boushel, R & Kalliokoski, KK 2010, 'Comparison of exogenous adenosine and voluntary exercise on human skeletal muscle perfusion and perfusion heterogeneity', Journal of Applied Physiology, vol. 108, no. 2, pp. 378-386. https://doi.org/10.1152/japplphysiol.00745.2009

@article{80dd43b005b811df825d000ea68e967b,

title = "Comparison of exogenous adenosine and voluntary exercise on human skeletal muscle perfusion and perfusion heterogeneity",

abstract = "Adenosine is a widely used pharmacological agent to induce a {"}high-flow{"} control condition to study the mechanisms of exercise hyperemia, but it is not known how well an adenosine infusion depicts exercise-induced hyperemia, especially in terms of blood flow distribution at the capillary level in human muscle. Additionally, it remains to be determined what proportion of the adenosine-induced flow elevation is specifically directed to muscle only. In the present study, we measured thigh muscle capillary nutritive blood flow in nine healthy young men using PET at rest and during the femoral artery infusion of adenosine (1 mgmin-1l thigh volume -1), which has previously been shown to induce a maximal whole thigh blood flow of ∼8 1/min. This response was compared with the blood flow induced by moderate- to high-intensity one-leg dynamic knee extension exercise. Adenosine increased muscle blood flow on average to 40 ± 7 ml,min -1,100 g muscle-1 with an aggregate value of 2.3 ± 0.61/min for the whole thigh musculature. Adenosine also induced a substantial change in blood flow distribution within individuals. Muscle blood flow during the adenosine infusion was comparable with blood flow in moderate- to high-intensity exercise (36 ± 9 ml.min-1.100 g muscle -1), but flow heterogeneity was significantly higher during the adenosine infusion than during voluntary exercise. In conclusion, a substantial part of the flow increase in the whole limb blood flow induced by a high-dose adenosine infusion is conducted through the physiological non-nutritive shunt in muscle and/or also through tissues of the limb other than muscle. Additionally, an intra-arterial adenosine infusion does not mimic exercise hyperemia, especially in terms of muscle capillary flow heterogeneity, while the often-observed exercise-induced changes in capillary blood flow heterogeneity likely reflect true changes in nutritive flow linked to muscle fiber and vascular unit recruitment.",

author = "Heinonen, {Ilkka H.A.} and Jukka Kemppainen and Kimmo Kaskinoro and Peltonen, {Juha E.} and Ronald Borra and Markus Lindroos and Vesa Oikonen and Pirjo Nuutila and Juhani Knuuti and Ylva Hellsten and Robert Boushel and Kalliokoski, {Kari K.}",

note = "CURIS 2010 5200 007",

year = "2010",

month = feb,

doi = "10.1152/japplphysiol.00745.2009",

language = "English",

volume = "108",

pages = "378--386",

journal = "Journal of Applied Physiology",

issn = "8750-7587",

publisher = "American Physiological Society",

number = "2",

}

TY - JOUR

T1 - Comparison of exogenous adenosine and voluntary exercise on human skeletal muscle perfusion and perfusion heterogeneity

AU - Heinonen, Ilkka H.A.

AU - Kemppainen, Jukka

AU - Kaskinoro, Kimmo

AU - Peltonen, Juha E.

AU - Borra, Ronald

AU - Lindroos, Markus

AU - Oikonen, Vesa

AU - Nuutila, Pirjo

AU - Knuuti, Juhani

AU - Hellsten, Ylva

AU - Boushel, Robert

AU - Kalliokoski, Kari K.

N1 - CURIS 2010 5200 007

PY - 2010/2

Y1 - 2010/2

N2 - Adenosine is a widely used pharmacological agent to induce a "high-flow" control condition to study the mechanisms of exercise hyperemia, but it is not known how well an adenosine infusion depicts exercise-induced hyperemia, especially in terms of blood flow distribution at the capillary level in human muscle. Additionally, it remains to be determined what proportion of the adenosine-induced flow elevation is specifically directed to muscle only. In the present study, we measured thigh muscle capillary nutritive blood flow in nine healthy young men using PET at rest and during the femoral artery infusion of adenosine (1 mgmin-1l thigh volume -1), which has previously been shown to induce a maximal whole thigh blood flow of ∼8 1/min. This response was compared with the blood flow induced by moderate- to high-intensity one-leg dynamic knee extension exercise. Adenosine increased muscle blood flow on average to 40 ± 7 ml,min -1,100 g muscle-1 with an aggregate value of 2.3 ± 0.61/min for the whole thigh musculature. Adenosine also induced a substantial change in blood flow distribution within individuals. Muscle blood flow during the adenosine infusion was comparable with blood flow in moderate- to high-intensity exercise (36 ± 9 ml.min-1.100 g muscle -1), but flow heterogeneity was significantly higher during the adenosine infusion than during voluntary exercise. In conclusion, a substantial part of the flow increase in the whole limb blood flow induced by a high-dose adenosine infusion is conducted through the physiological non-nutritive shunt in muscle and/or also through tissues of the limb other than muscle. Additionally, an intra-arterial adenosine infusion does not mimic exercise hyperemia, especially in terms of muscle capillary flow heterogeneity, while the often-observed exercise-induced changes in capillary blood flow heterogeneity likely reflect true changes in nutritive flow linked to muscle fiber and vascular unit recruitment.

AB - Adenosine is a widely used pharmacological agent to induce a "high-flow" control condition to study the mechanisms of exercise hyperemia, but it is not known how well an adenosine infusion depicts exercise-induced hyperemia, especially in terms of blood flow distribution at the capillary level in human muscle. Additionally, it remains to be determined what proportion of the adenosine-induced flow elevation is specifically directed to muscle only. In the present study, we measured thigh muscle capillary nutritive blood flow in nine healthy young men using PET at rest and during the femoral artery infusion of adenosine (1 mgmin-1l thigh volume -1), which has previously been shown to induce a maximal whole thigh blood flow of ∼8 1/min. This response was compared with the blood flow induced by moderate- to high-intensity one-leg dynamic knee extension exercise. Adenosine increased muscle blood flow on average to 40 ± 7 ml,min -1,100 g muscle-1 with an aggregate value of 2.3 ± 0.61/min for the whole thigh musculature. Adenosine also induced a substantial change in blood flow distribution within individuals. Muscle blood flow during the adenosine infusion was comparable with blood flow in moderate- to high-intensity exercise (36 ± 9 ml.min-1.100 g muscle -1), but flow heterogeneity was significantly higher during the adenosine infusion than during voluntary exercise. In conclusion, a substantial part of the flow increase in the whole limb blood flow induced by a high-dose adenosine infusion is conducted through the physiological non-nutritive shunt in muscle and/or also through tissues of the limb other than muscle. Additionally, an intra-arterial adenosine infusion does not mimic exercise hyperemia, especially in terms of muscle capillary flow heterogeneity, while the often-observed exercise-induced changes in capillary blood flow heterogeneity likely reflect true changes in nutritive flow linked to muscle fiber and vascular unit recruitment.

U2 - 10.1152/japplphysiol.00745.2009

DO - 10.1152/japplphysiol.00745.2009

M3 - Journal article

C2 - 19940098

SN - 8750-7587

VL - 108

SP - 378

EP - 386

JO - Journal of Applied Physiology

JF - Journal of Applied Physiology

IS - 2

ER -

Comparison of exogenous adenosine and voluntary exercise on human skeletal muscle perfusion and perfusion heterogeneity

Abstract

UN SDGs

Access to Document

Fingerprint

Cite this