In situ microdialysis of intramuscular prostaglandin and thromboxane in contracting skeletal muscle in humans

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Standard

In situ microdialysis of intramuscular prostaglandin and thromboxane in contracting skeletal muscle in humans. / Karamouzis, M; Langberg, Henning; Skovgaard, D; Bülow, J; Kjaer, M; Saltin, B.

I: Acta physiologica Scandinavica, Bind 171, Nr. 1, 2001, s. 71-6.

Publikation: Bidrag til tidsskriftTidsskriftartikelForskningfagfællebedømt

Harvard

Karamouzis, M, Langberg, H, Skovgaard, D, Bülow, J, Kjaer, M & Saltin, B 2001, 'In situ microdialysis of intramuscular prostaglandin and thromboxane in contracting skeletal muscle in humans', Acta physiologica Scandinavica, bind 171, nr. 1, s. 71-6.

APA

Karamouzis, M., Langberg, H., Skovgaard, D., Bülow, J., Kjaer, M., & Saltin, B. (2001). In situ microdialysis of intramuscular prostaglandin and thromboxane in contracting skeletal muscle in humans. Acta physiologica Scandinavica, 171(1), 71-6.

Vancouver

Karamouzis M, Langberg H, Skovgaard D, Bülow J, Kjaer M, Saltin B. In situ microdialysis of intramuscular prostaglandin and thromboxane in contracting skeletal muscle in humans. Acta physiologica Scandinavica. 2001;171(1):71-6.

Author

Karamouzis, M ; Langberg, Henning ; Skovgaard, D ; Bülow, J ; Kjaer, M ; Saltin, B. / In situ microdialysis of intramuscular prostaglandin and thromboxane in contracting skeletal muscle in humans. I: Acta physiologica Scandinavica. 2001 ; Bind 171, Nr. 1. s. 71-6.

Bibtex

@article{4288e0da7143419bab8200e084937f0a,
title = "In situ microdialysis of intramuscular prostaglandin and thromboxane in contracting skeletal muscle in humans",
abstract = "Arachidonic acid metabolites, especially prostacyclin I2, are regulators of vascular tone, and may be released from contracting muscle. In the present study, the influence of exercise on accumulation of prostaglandins and thromboxane in skeletal muscle was determined by the use of microdialysis technique using PGE2-3H as an internal reference. Interstitial tissue concentrations were determined both in m. gastrocnemius during intermittent static exercise (protocol A, 40 min, perfusion rate: 1 microL min-1) as well as in m. vastus lateralis during dynamic knee extension (protocol B, 20 W, 60 min, perfusion rate: 3 microL min-1). Relative recovery always rose with transition from rest to exercise (82 +/- 8% (A) and 75 +/- 7% (B), respectively) and returned to basal values during postexercise. Interstitial PGE2 concentrations rose 4-fold with dynamic exercise (0.95 +/- 0.26 ng mL-1 (rest) to 3.97 +/- 0.75 (exercise), P <0.05), but where unchanged in response to intermittent static exercise. TXB2 decreased during intermittent static exercise, whereas intramuscular PGI2 (6-keto-PGF1alpha) concentration did not change with intermittent static exercise. The present study demonstrates measurable amounts of prostaglandins and thromboxanes in the interstitial space of skeletal muscle. Furthermore, the concentration of prostaglandin E2 is unchanged during static calf exercise and increased markedly with dynamic thigh muscle exercise, which together with an exercise induced increase in muscle blood flow indicate, that prostaglandin E2 is released from skeletal muscle during exercise in humans.",
keywords = "Adult, Dinoprostone, Epoprostenol, Humans, Male, Microdialysis, Muscle Contraction, Muscle, Skeletal, Physical Exertion, Thigh, Thromboxane B2",
author = "M Karamouzis and Henning Langberg and D Skovgaard and J B{\"u}low and M Kjaer and B Saltin",
year = "2001",
language = "English",
volume = "171",
pages = "71--6",
journal = "Acta Physiologica Scandinavica",
issn = "0001-6772",
publisher = "Blackwell Science Ltd.",
number = "1",

}

RIS

TY - JOUR

T1 - In situ microdialysis of intramuscular prostaglandin and thromboxane in contracting skeletal muscle in humans

AU - Karamouzis, M

AU - Langberg, Henning

AU - Skovgaard, D

AU - Bülow, J

AU - Kjaer, M

AU - Saltin, B

PY - 2001

Y1 - 2001

N2 - Arachidonic acid metabolites, especially prostacyclin I2, are regulators of vascular tone, and may be released from contracting muscle. In the present study, the influence of exercise on accumulation of prostaglandins and thromboxane in skeletal muscle was determined by the use of microdialysis technique using PGE2-3H as an internal reference. Interstitial tissue concentrations were determined both in m. gastrocnemius during intermittent static exercise (protocol A, 40 min, perfusion rate: 1 microL min-1) as well as in m. vastus lateralis during dynamic knee extension (protocol B, 20 W, 60 min, perfusion rate: 3 microL min-1). Relative recovery always rose with transition from rest to exercise (82 +/- 8% (A) and 75 +/- 7% (B), respectively) and returned to basal values during postexercise. Interstitial PGE2 concentrations rose 4-fold with dynamic exercise (0.95 +/- 0.26 ng mL-1 (rest) to 3.97 +/- 0.75 (exercise), P <0.05), but where unchanged in response to intermittent static exercise. TXB2 decreased during intermittent static exercise, whereas intramuscular PGI2 (6-keto-PGF1alpha) concentration did not change with intermittent static exercise. The present study demonstrates measurable amounts of prostaglandins and thromboxanes in the interstitial space of skeletal muscle. Furthermore, the concentration of prostaglandin E2 is unchanged during static calf exercise and increased markedly with dynamic thigh muscle exercise, which together with an exercise induced increase in muscle blood flow indicate, that prostaglandin E2 is released from skeletal muscle during exercise in humans.

AB - Arachidonic acid metabolites, especially prostacyclin I2, are regulators of vascular tone, and may be released from contracting muscle. In the present study, the influence of exercise on accumulation of prostaglandins and thromboxane in skeletal muscle was determined by the use of microdialysis technique using PGE2-3H as an internal reference. Interstitial tissue concentrations were determined both in m. gastrocnemius during intermittent static exercise (protocol A, 40 min, perfusion rate: 1 microL min-1) as well as in m. vastus lateralis during dynamic knee extension (protocol B, 20 W, 60 min, perfusion rate: 3 microL min-1). Relative recovery always rose with transition from rest to exercise (82 +/- 8% (A) and 75 +/- 7% (B), respectively) and returned to basal values during postexercise. Interstitial PGE2 concentrations rose 4-fold with dynamic exercise (0.95 +/- 0.26 ng mL-1 (rest) to 3.97 +/- 0.75 (exercise), P <0.05), but where unchanged in response to intermittent static exercise. TXB2 decreased during intermittent static exercise, whereas intramuscular PGI2 (6-keto-PGF1alpha) concentration did not change with intermittent static exercise. The present study demonstrates measurable amounts of prostaglandins and thromboxanes in the interstitial space of skeletal muscle. Furthermore, the concentration of prostaglandin E2 is unchanged during static calf exercise and increased markedly with dynamic thigh muscle exercise, which together with an exercise induced increase in muscle blood flow indicate, that prostaglandin E2 is released from skeletal muscle during exercise in humans.

KW - Adult

KW - Dinoprostone

KW - Epoprostenol

KW - Humans

KW - Male

KW - Microdialysis

KW - Muscle Contraction

KW - Muscle, Skeletal

KW - Physical Exertion

KW - Thigh

KW - Thromboxane B2

M3 - Journal article

C2 - 11350265

VL - 171

SP - 71

EP - 76

JO - Acta Physiologica Scandinavica

JF - Acta Physiologica Scandinavica

SN - 0001-6772

IS - 1

ER -

ID: 38367021