1997

DOI: 10.1291/hypres.20.175

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Ultrasonographic Assessment of Regional Differences in Atherosclerotic Lesions in Patients with Hypertension, Diabetes Mellitus, or Both.

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Abstract: We evaluated risk factors involved in regional differences in atherosclerotic lesions in patients with hypertension, diabetes mellitus, or both. Using ultrasonography, we examined the brachial, common carotid, and common femoral arteries in 65 hospitalized Japanese patients (15 controls, 18 patients with hypertension, 16 with diabetes mellitus, and 16 with both hypertension and diabetes mellitus). They ranged in age from 39 to 81 yr, mean 60.3 yr. The thickness of the intima-media complex of the far wall was m… Show more

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Echo-doppler Examination O F Carotid Artery1

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Cited by 21 publications

(16 citation statements)

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“…2011 a ), and although FMD is commonly interpreted to reflect eNOS function, other vasodilators contribute to the hyperaemic response following occlusion of the artery (Tschakovsky & Pyke, 2005). Atherosclerosis and peripheral artery disease can specifically affect one leg or be more pronounced in the leg compared to the arm (Fukudome et al . 1997; Tendera et al .…”

Section: Discussionmentioning

confidence: 99%

The hyperaemic response to passive leg movement is dependent on nitric oxide: a new tool to evaluate endothelial nitric oxide function

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et al. 2012

The Journal of Physiology

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Key points• Passive leg movement is associated with a ∼3-fold increase in blood flow to the leg, but the underlying mechanisms remain unknown.• Passive leg movement increased venous levels of metabolites of nitric oxide (NO) in young subjects, whereas they remained unaltered in the muscle interstitial space. Inhibition of NO synthesis lowered the vasodilatory response to passive leg movement by ∼90%.• The increase in leg blood flow was lower in elderly subjects compared to young subjects and leg blood flow did not increase when passive leg movement was performed by elderly with peripheral artery disease.• The results suggest that the hyperaemia induced by passive leg movement is NO dependent.The hyperaemic response to passive leg movement and to ACh was also assessed in elderly subjects and patients with peripheral artery disease.Abstract Passive leg movement is associated with a ∼3-fold increase in blood flow to the leg but the underlying mechanisms remain unknown. The objective of the present study was to examine the role of nitric oxide (NO) for the hyperaemia observed during passive leg movement. Leg haemodynamics and metabolites of NO production (nitrite and nitrate; NOx) were measured in plasma and muscle interstitial fluid at rest and during passive leg movement with and without inhibition of NO formation in healthy young males. The hyperaemic response to passive leg movement and to ACh was also assessed in elderly subjects and patients with peripheral artery disease. Passive leg movement (60 r.p.m.) increased leg blood flow from 0.3 ± 0.1 to 0.9 ± 0.1 litre min −1 at 20 s and 0.5 ± 0.1 litre min −1 at 3 min (P < 0.05). Mean arterial pressure remained unchanged during the trial. When passive leg movement was performed during inhibition of NO formation (N G -mono-methyl-L-arginine; 29-52 mg min −1 ), leg blood flow and vascular conductance were increased after 20 s (P < 0.05) and then returned to baseline levels, despite an increase in arterial pressure (P < 0.05). Passive leg movement increased the femoral venous NOx levels from 35 ± 5 at baseline to 62 ± 11 μmol l −1 during passive leg movement (P < 0.05), whereas muscle interstitial NOx levels remained unchanged. The hyperaemic response to passive leg movement were correlated with the vasodilatation induced by ACh (r 2 = 0.704, P < 0.001) and with age (r 2 = 0.612, P < 0.001). Leg blood flow did not increase during passive leg movement in individuals with peripheral arterial disease. These results suggest that the hypaeremia induced by passive leg movement is NO dependent and that the source of NO is likely to be the endothelium. Passive leg movement could therefore be used as a non-invasive tool to evaluate NO dependent endothelial function of the lower limb.

“…2011 a ), and although FMD is commonly interpreted to reflect eNOS function, other vasodilators contribute to the hyperaemic response following occlusion of the artery (Tschakovsky & Pyke, 2005). Atherosclerosis and peripheral artery disease can specifically affect one leg or be more pronounced in the leg compared to the arm (Fukudome et al . 1997; Tendera et al .…”

Section: Discussionmentioning

confidence: 99%

The hyperaemic response to passive leg movement is dependent on nitric oxide: a new tool to evaluate endothelial nitric oxide function

¹

,

²

,

³

et al. 2012

The Journal of Physiology

View full text Add to dashboard Cite

Key points• Passive leg movement is associated with a ∼3-fold increase in blood flow to the leg, but the underlying mechanisms remain unknown.• Passive leg movement increased venous levels of metabolites of nitric oxide (NO) in young subjects, whereas they remained unaltered in the muscle interstitial space. Inhibition of NO synthesis lowered the vasodilatory response to passive leg movement by ∼90%.• The increase in leg blood flow was lower in elderly subjects compared to young subjects and leg blood flow did not increase when passive leg movement was performed by elderly with peripheral artery disease.• The results suggest that the hyperaemia induced by passive leg movement is NO dependent.The hyperaemic response to passive leg movement and to ACh was also assessed in elderly subjects and patients with peripheral artery disease.Abstract Passive leg movement is associated with a ∼3-fold increase in blood flow to the leg but the underlying mechanisms remain unknown. The objective of the present study was to examine the role of nitric oxide (NO) for the hyperaemia observed during passive leg movement. Leg haemodynamics and metabolites of NO production (nitrite and nitrate; NOx) were measured in plasma and muscle interstitial fluid at rest and during passive leg movement with and without inhibition of NO formation in healthy young males. The hyperaemic response to passive leg movement and to ACh was also assessed in elderly subjects and patients with peripheral artery disease. Passive leg movement (60 r.p.m.) increased leg blood flow from 0.3 ± 0.1 to 0.9 ± 0.1 litre min −1 at 20 s and 0.5 ± 0.1 litre min −1 at 3 min (P < 0.05). Mean arterial pressure remained unchanged during the trial. When passive leg movement was performed during inhibition of NO formation (N G -mono-methyl-L-arginine; 29-52 mg min −1 ), leg blood flow and vascular conductance were increased after 20 s (P < 0.05) and then returned to baseline levels, despite an increase in arterial pressure (P < 0.05). Passive leg movement increased the femoral venous NOx levels from 35 ± 5 at baseline to 62 ± 11 μmol l −1 during passive leg movement (P < 0.05), whereas muscle interstitial NOx levels remained unchanged. The hyperaemic response to passive leg movement were correlated with the vasodilatation induced by ACh (r 2 = 0.704, P < 0.001) and with age (r 2 = 0.612, P < 0.001). Leg blood flow did not increase during passive leg movement in individuals with peripheral arterial disease. These results suggest that the hypaeremia induced by passive leg movement is NO dependent and that the source of NO is likely to be the endothelium. Passive leg movement could therefore be used as a non-invasive tool to evaluate NO dependent endothelial function of the lower limb.

“…Carotid arteries were evaluated using SSD-2000 (Aloka Co., Ltd., Tokyo, Japan) and a 7.5-MHz probe equipped with a Doppler system as previously described (15)(16)(17)(18). In brief, subjects inclined their necks in a slight hyperextended position for determination of the optimal approach for visualization of the common carotid arteries.…”

Section: Echo-doppler Examination O F Carotid Arterymentioning

confidence: 99%

Low Wall Shear Stress Contributes to Atherosclerosis of the Carotid Artery in Hypertensive Patients.

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1999

Hypertens Res

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Numerous in vitro studies have indicated that low shear stress may contribute to intimal thickening and development of atherosclerosis.In the present study, we investigated wall shear stress in hypertensive patients and its relevance to atherosclerosis in the carotid arteries by means of a non-invasive technique. Fifty-five hypertensive patients and 23 normotensive controls were investigated. Intima-media thickness, number of plaques, internal dimension and blood flow velocity of the carotid artery were evaluated. Wall shear stress was calculated using the Poiseuillean parabolic model of velocity distribution as follows: shear stress = 4 X blood viscosity X central line flow velocity/internal dimension. Hypertensive patients showed increased intima-media thickness and dilated common carotid arterial dimension relative to normotensive controls. There was no difference in blood viscosity between the two groups. Both the mean shear stress and systolic peak shear stress were significantly lower in hypertensive patients than normotensive controls. Further, wall shear stress at both mean and peak velocity was significantly and negatively related to intima-media thickness and number of plaques in hypertensive patients, as well as in the total study population.These findings indicate that structural and functional alterations in the common carotid artery of hypertensive patients further precipitates atherosclerosis through low shear stress. (Hypertens Res 1999; 22: 203-207)

“…11 Some familial hypercholesterolemic patients have higher femoral artery IMT whereas in others the carotid artery is more affected. 12 Autopsy studies by Bosing at el 13 , concluded that “a generalized uniform involvement of atherosclerosis in different vascular segments is rare and there exists a considerable intra-individual differences.”…”

Section: Introductionmentioning

confidence: 99%

Contrast of the impact of multiple cardiovascular risk factors on the femoral and carotid intima-media thickness in asymptomatic young adults: The Bogalusa Heart Study

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et al. 2011

Atherosclerosis

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Objective Impact of multiple cardiovascular (CV) risk factors on the intima-media thickness (IMT) of femoral and carotid artery segments measured simultaneously has not been studied in asymptomatic adults. This study examined the impact of multiple CV risk factors on the IMT in asymptomatic adults. Methods Femoral and carotid IMT were measured by B-mode ultrasonography in 1080 asymptomatic subjects (aged 24–43 years) of the Bogalusa Heart Study. Results In multivariate analyses, systolic blood pressure, age, male, total cholesterol/HDL cholesterol ratio and smoking were common independent predictor variables for the femoral and carotid IMT. Systolic blood pressure followed by age were the major determinant risk factors for the IMT of all arterial segments except carotid bulb for which age was the major predictor. The independent variables listed explained 11% of the variability in femoral IMT, 28% in common carotid, 18% in carotid bulb, 10% in internal carotid and 27% in composite carotid segments. Mean IMT increased with increasing number of risk factors in all arterial segments; p for trend = 0.003 for femoral and 0.001 for all carotid segments. Conclusions The observed deleterious trend of increasing IMT of the femoral and different segments of the carotid artery with increasing number of CV risk factors provide evidence of silent systemic atherosclerosis in asymptomatic young adults. These findings underscore the importance of multiple for risk factors profiling in early life. Studies of the femoral and carotid IMT may be helpful along with measurements of risk factors for evaluation of asymptomatic atherosclerotic disease.

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