Henry Persson scite author profile

Cinthio, Magnus, Å sa Rydén Ahlgren, Jonas Bergkvist, Tomas Jansson, Hans W. Persson, and Kjell Lindström. Longitudinal movements and resulting shear strain of the arterial wall. Am J Physiol Heart Circ Physiol 291: H394 -H402, 2006. First published February 10, 2006 doi:10.1152/ajpheart.00988.2005.-There has been little interest in the longitudinal movement of the arterial wall. It has been assumed that this movement is negligible compared with the diameter change. Using a new high-resolution noninvasive ultrasonic method, we measured longitudinal movements and diameter change of the common carotid artery of 10 healthy humans. During the cardiac cycle, a distinct bidirectional longitudinal movement of the intimamedia complex could be observed in all the subjects. An antegrade longitudinal movement, i.e., in the direction of blood flow, in early systole [0.39 mm (SD 0.26)] was followed by a retrograde longitudinal movement, i.e., in the direction opposite blood flow [Ϫ0.52 mm (SD 0.27)], later in systole and a second antegrade longitudinal movement [0.41 mm (SD 0.33)] in diastole. The corresponding diameter change was 0.65 mm (SD 0.19). The adventitial region showed the same basic pattern of longitudinal movement; however, the magnitude of the movements was smaller than that of the intimamedia complex, thereby introducing shear strain and, thus, shear stress within the wall [maximum shear strain between the intima-media complex and the adventitial region was 0.36 rad (SD 0.26). These phenomena have not previously been described. Measurements were also performed on the abdominal aorta (n ϭ 3) and brachial (n ϭ 3) and popliteal (n ϭ 3) arteries. Our new information seems to be of fundamental importance for further study and evaluation of vascular biology and hemodynamics and, thus, for study of atherosclerosis and vascular diseases. carotid artery; vascular mechanics; arterial wall movements; shearing strain in arteries; vascular ultrasound IN CARDIOVASCULAR RESEARCH, radial movement of the arterial wall, i.e., diameter change, has been the subject of extensive research. Measurement of radial movements of arteries is an established tool in cardiovascular research (8,13,17,23), forming the basis for estimation of arterial wall stiffness. Increased stiffness of large central arteries has recently been shown to be an independent risk factor for cardiovascular mortality (4). In contrast to radial movements, there has been little interest in longitudinal movements of the arterial wall, i.e., along the vessel. It has been assumed that the longitudinal movement of the arterial wall during the cardiac cycle is negligible compared with the radial movement (21). Longitudinal movement of the arterial wall has not been studied, because, until the most recent improvements in ultrasound systems, it has not been possible to detect longitudinal movement in vivo. In the 1950s, using cinematographic observations of beads sutured to the surface of exposed vessels, Lawton and Greene (15) measured the longitudinal movement of the abd...

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Evaluation of an ultrasonic echo-tracking method for measurements of arterial wall movements in two dimensions

Cinthio

Ahlgren

Jansson

et al. 2005

IEEE Trans. Ultrason., Ferroelect., Freq. Contr.

126

110

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Doppler tomography for vector fields

Sparr¹,

Stråhlén²,

Lindström³

et al. 1995

Inverse Problems

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The problem considered is to reconstruct a vector eld in the case when for each line the distribution of the vector eld components along the line is known. Such data are obtained from spectral analysis of signals, a ected by Doppler shifts, caused by re ections on moving particles (\velocity spectra"). In the general setting, the problem is unsolved. Using only integrated data along lines, one encounters the same problem as when reconstructing vector elds by means of time-of-ight measurements. Reconstruction formulas are given in this case, establishing the known fact that only the curl of the vector eld can be reconstructed without additional information. Inspired by the application to which the paper is most devoted, ultrasound Doppler measurements on blood ows, the case where the ow takes place in narrow channels is investigated in simulations and experiments.

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Differentiation of cardiac chronotropic and inotropic effects of ?-adrenoceptor agonists

Carlsson

Dahlöf

Hedberg

et al. 1977

Naunyn-Schmiedeberg's Arch. Pharmacol.

253

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The relative inotropic and chronotropic activity of beta-adrenoceptor agonists was studied in the noradrenaline-depleted, anaesthetized cat. Terbutaline, a selective beta2-adrenoceptor agonist, gave at a certain dose a more pronounced chronotropic than inotropic response, while a new beta1-selective adrenoceptor agonist (-)-H 80/62 produced the same degree of chronotropic and inotropic stimulation. The results indicate that there is some difference between the beta-adrenoceptors in the sinus node mediating chronotropic stimulation and beta-adrenoceptors in the ventricular myocardium mediating stimulation of the contractile force. It has been shown that there are both beta1- and beta2-adrenoceptors in the heart (Carlsson et al., 1972). In the light of this finding it is hypothetized that there are differences in the relative distribution of beta1- and beta2-adrenoceptors in the sinus node and in the myocardium. Athough beta1 is the predominant type of beta-adrenoceptor in both regions, the beta1:beta2 concentration ratio seems to be higher in the myocardium, than in the sinus node.

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A new non‐invasive ultrasonic method for simultaneous measurements of longitudinal and radial arterial wall movements: first in vivo trial

Persson

Ahlgren

Jansson

et al. 2003

Clin Physio Funct Imaging

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A new non-invasive ultrasonic method for simultaneous measurements of longitudinal and radial arterial wall movements: first in vivo trial. General rights Copyright and moral rights for the publications made accessible in the public portal are retained by the authors and/or other copyright owners and it is a condition of accessing publications that users recognise and abide by the legal requirements associated with these rights.• Users may download and print one copy of any publication from the public portal for the purpose of private study or research.• You may not further distribute the material or use it for any profit-making activity or commercial gain • You may freely distribute the URL identifying the publication in the public portal SummaryDuring recent years, the radial movement of the arterial wall has been extensively studied, and measurements of the radial movement are now an important tool in cardiovascular research for characterizing the mechanical properties of the arterial wall. In contrast, the longitudinal movement of vessels has gained little or no attention as it has been presumed that this movement is negligible. With modern high-resolution ultrasound, it can, however, be seen that the intima-media complex of the arterial wall moves not only in the radial direction, but also in the longitudinal direction during pulse-wave propagation. This paper describes a new non-invasive ultrasonic method that is able to measure simultaneously two dimensionally arterial vessel wall movements. The method is demonstrated in a limited in vivo trial. Results from the in vivo trial show that, apart from the well-known radial movement, there is a distinct longitudinal movement in the human common carotid artery with, in this case, the intima-media complex moving substantially as compared with the region of the tunica adventitia. Two-dimensional evaluation of the vessel-wall movements, taking not only the radial movement, but also the longitudinal movement into account, may provide novel information of importance in the evaluation of vesselwall function.

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Henry Persson

Longitudinal movements and resulting shear strain of the arterial wall

Evaluation of an ultrasonic echo-tracking method for measurements of arterial wall movements in two dimensions

Doppler tomography for vector fields

Differentiation of cardiac chronotropic and inotropic effects of ?-adrenoceptor agonists

A new non‐invasive ultrasonic method for simultaneous measurements of longitudinal and radial arterial wall movements: first in vivo trial

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