Paradoxical hypotension following increased hematocrit and blood viscosity

Martini, Judith; Carpentier, B.; Negrete, Adolfo Chávez; Frangos, John A.; Intaglietta, Marcos

doi:10.1152/ajpheart.00490.2005

Cited by 96 publications

(113 citation statements)

References 36 publications

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“…Concerning the interaction between viscosity and blood flow velocity, elevated blood viscosity could increase peripheral vascular hindrance, but usually for marked increases (Martini et al 2005); this, in turn, might contribute to reduce blood flow and blood flow velocity. About the relationship between viscosity and arterial diameter, it has been reported that in acute hemoconcentration experiments, the nitric oxide system is activated in order to increase the arterial diameter and finally keep shear stress constant (Martini et al 2005;Giannattasio et al 2002). Despite this, we could notice that viscosity elevation should not be the only cause of the increase of arterial diameter with aging in our population since we have recorded a shear stress decrease with aging.…”

Section: Discussionmentioning

confidence: 99%

Human common carotid wall shear stress as a function of age and gender: a 12-year follow-up study

Irace

Carallo

Franceschi

et al. 2011

AGE

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Hemodynamic forces play a role in the development of atherosclerosis. Their variations with age have been assessed in cross-sectional, but not longitudinal, studies. The aim of the present study was to investigate in both sexes the age-dependent change in wall shear stress and arterial stiffness in subjects studied twice 12 years apart. Forty-eight subjects (15 women and 33 men) were studied twice 12 years apart. Subjects underwent blood viscosity measurement and echo-Doppler of carotid arteries, from which the intima-media thickness (IMT) was measured and the wall shear stress and Peterson's elastic modulus were calculated. Blood viscosity increased in both sexes, more markedly in women (+13.2%) than men (+7.2%). Common carotid diameter increased in both sexes, but in men (+7.4%) more than in women (+5.5%). Peak and mean velocity decreased at follow-up by 10.7% and 18.9% in women and by 14.2% and 18.1% in men. Peak and mean shear stress significantly decreased in men by 13.0% and 17.5%, respectively, while in women only the mean shear stress was reduced (−11.8%). The IMT of the common carotid artery increased by 29% in women and 20% in men. Arterial stiffness significantly increased (+74.5% in women and +28.0% in men). The percent change in mean shear stress was significantly and inversely associated with the percent change in IMT. The data of this study show that, in a middle-aged population observed for almost 12 years, the mean shear stress decreases significantly in both sexes, while peak shear stress decreases significantly only in men. The change in mean shear stress is inversely associated with changes in IMT. Arterial stiffness, on the other hand, increases with aging.

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Section: Discussionmentioning

confidence: 99%

Human common carotid wall shear stress as a function of age and gender: a 12-year follow-up study

Irace

Carallo

Franceschi

et al. 2011

AGE

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“…However, in normal experimental animals subjected to small Hct changes, MAP decreased and cardiac output increased significantly as Hct was initially raised. This suggests that the oxygen autoregulatory control may not have a large gain for small changes in Hct (Martini et al 2005).…”

Section: Discussionmentioning

confidence: 99%

“…Under physiological conditions, the variability of blood viscosity is not sufficient to produce anomalous changes in MAP (Salazar-Vázquez et al 2006). However, Martini et al (2005) found that MAP decreased significantly when Hct was raised acutely in healthy hamsters, leading to a U-shaped MAP versus Hct distribution-a finding attributed to the competition between nitric oxide (NO) production by shear stress due to changes in blood viscosity and changes in resistance due to changes in blood viscosity. Salazar-Vázquez et al (2006) found a similar relationship in type 2 diabetic patients, when MAP was plotted as a function of the naturally occurring variability of Hct in the sampled population.…”

Section: Introductionmentioning

confidence: 99%

Mean arterial pressure nonlinearity in an elastic circulatory system subjected to different hematocrits

Branigan

Bolster

Vázquez

et al. 2010

Biomech Model Mechanobiol

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The level of hematocrit (Hct) is known to affect mean arterial pressure (MAP) by influencing blood viscosity. In the healthy population, an increase in Hct (and corresponding increase in viscosity) tends to raise MAP. However, data from a clinical study of type 2 diabetic patients indicate that this relationship is not universal. Instead, individuals in the lower levels of Hct range display a decrease in MAP for a given rise in Hct. After reaching a minimum, this trend is reversed, so that further increases in Hct lead to increases in MAP. We hypothesize that this anomalous behavior occurs due to changes in the circulatory autoregulation mechanism. To substantiate this hypothesis, we develop a physically based mathematical model that incorporates autoregulation mechanisms. Our model replicates the anomalous U-shaped relationship between MAP and Hct found in diabetic patients in the same range of Hct variability.

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“…NO is a strong vasodilator, which diffuses from the endothelium and acts on soluble guanylyl cyclase in the vascular smooth muscle of blood vessels (Fleming and Busse, 2003;Ruschitzka et al, 2000). Endothelial NO production is stimulated by increases in viscosity-induced shear stress on vascular tissues (Furchgott and Vanhoutte, 1989;Martini et al, 2005). Consequently, moderate increases in Hct can lower blood pressure via NO-mediated vasodilatation (Martini et al, 2005;Salazar Vázquez et al, 2010;Wilcox et al, 1993).…”

Section: Hematology and Serum Chemistrymentioning

confidence: 99%

“…Endothelial NO production is stimulated by increases in viscosity-induced shear stress on vascular tissues (Furchgott and Vanhoutte, 1989;Martini et al, 2005). Consequently, moderate increases in Hct can lower blood pressure via NO-mediated vasodilatation (Martini et al, 2005;Salazar Vázquez et al, 2010;Wilcox et al, 1993). The suggestion that otters may enhance NO production in response to increased blood viscosity is supported by the observation that the one dehydrated SJI individual showed exceedingly high levels of NO, coinciding with an elevated concentration of RBCs and raised Hct.…”

Section: Hematology and Serum Chemistrymentioning

confidence: 99%

High-altitude diving in river otters: coping with combined hypoxic stresses

Crait

Prange

Marshall

et al. 2012

Journal of Experimental Biology

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SUMMARY River otters (Lontra canadensis) are highly active, semi-aquatic mammals indigenous to a range of elevations and represent an appropriate model for assessing the physiological responses to diving at altitude. In this study, we performed blood gas analyses and compared blood chemistry of river otters from a high-elevation (2357 m) population at Yellowstone Lake with a sea-level population along the Pacific coast. Comparisons of oxygen dissociation curves (ODC) revealed no significant difference in hemoglobin-oxygen (Hb-O2) binding affinity between the two populations - potentially because of demands for tissue oxygenation. Instead, high-elevation otters had greater Hb concentrations (18.7 g dl-1) than sea-level otters (15.6 g dl-1). Yellowstone otters displayed higher levels of the vasodilator nitric oxide (NO), and half the concentration of the serum protein albumin, possibly to compensate for increased blood viscosity. Despite compensation in several hematological and serological parameters, theoretical aerobic dive limits (ADL) were similar between high-elevation and sea-level otters because of the lower availability of O2 at altitude. Our results suggest that recent disruptions to the Yellowstone Lake food web could be detrimental to otters because at this high elevation, constraints on diving may limit their ability to switch to prey in a deep-water environment.

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Paradoxical hypotension following increased hematocrit and blood viscosity

Cited by 96 publications

References 36 publications

Human common carotid wall shear stress as a function of age and gender: a 12-year follow-up study

Human common carotid wall shear stress as a function of age and gender: a 12-year follow-up study

Mean arterial pressure nonlinearity in an elastic circulatory system subjected to different hematocrits

High-altitude diving in river otters: coping with combined hypoxic stresses

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