Role of Nitric Oxide in the Regulation of the Mechanical Properties of Peripheral Conduit Arteries in Humans

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Hypertension. 1997;30:1465-1470

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(Hypertension. 1997;30:1465-1470.)
© 1997 American Heart Association, Inc.

Articles

Role of Nitric Oxide in the Regulation of the Mechanical Properties of Peripheral Conduit Arteries in Humans

Robinson Joannides; Vincent Richard; Walter E. Haefeli; Agathe Benoist; Lilly Linder; Thomas F. Lüscher; ; Christian Thuillez

From the Department of Pharmacology, Vacomed, IFRMP 23, Rouen University Medical School and Rouen Hospital, Rouen, France (R.J., V.R., A.B., C.T.); the Division of Clinical Pharmacology, Basel University Hospital, Basel (W.E.H., L.L.), and Cardiology, Cardiovascular Research, Zurich University Hospital, Zurich, Switzerland (T.F.L.).

Abstract Whether nitric oxide (NO) contributes to the regulationof the mechanical properties of large arteries in humans is notknown. We measured the effect of local administration of the inhibitorof NO synthesis N^G-monomethyl-L-arginine (L-NMMA; 1 and 4 µmol· L^-1 · min^-1 for 5 minutes) and acetylcholine(3 and 30 nmol · L^-1 · min^-1 for 3 minutes) on radialartery diameter and wall thickness in 11 healthy volunteers usingan echo-tracking system coupled to a measurement of radial blood flow(Doppler) and arterial pressure. At the highest dose, L-NMMAreduced radial blood flow but surprisingly decreased incrementalelastic modulus (from 1.36±0.22 to 1.00±0.22 kPa· 10³; P<.05) and increased arterial compliance (from3.20±0.46 to 4.07±0.45 m² · kPa ·10^-8, P<.05), without affecting radial artery internal diameter,wall thickness or midwall stress, thus reflecting a decrease invascular tone. Acetylcholine decreased incremental elastic modulus (from1.27±0.08 to 0.88±0.07 kPa · 10³; P<.05)and increased arterial diameter, radial blood flow, and compliance(from 2.82±0.16 to 5.30±0.62 m² · kPa ·10^-8; P<.05). These results demonstrate in vivo that NO is involvedin the regulation of the mechanical properties of large arteriesin humans. However, the effects of L-NMMA, ie, a decrease in arterialwall rigidity and an increase in arterial compliance, whichoccur in the absence of any changes in blood pressure or arterialgeometry, suggest that inhibition of NO synthesis is associatedin humans with a paradoxical isometric smooth muscle relaxation.This effect could be due to the development of compensatoryvasodilating mechanisms after NO synthesis inhibition.

Key Words: arteries • endothelium-derived factors • endothelium • elasticity • stress

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