Preserved flow-mediated dilation in the inactive legs of spinal cord-injured individuals

Groot, P.C.E. de; Poelkens, Fleur; Kooijman, M. A. P.; Hopman, Maria T. E.

doi:10.1152/ajpheart.00958.2003

Cited by 105 publications

(132 citation statements)

References 52 publications

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“…79,80 In the only study to investigate resistance artery remodeling in SCI, individuals with chronic SCI exhibited a 40-60% reduction in SFA-reactive hyperemia compared with AB individuals. 67 This far exceeds values that occur in healthy AB individuals who undergo acute 81 or chronic 82 bed rest. Remodeling of resistance arteries appears to be at least partly attributable to general muscle atrophy, as lower-limb-reactive hyperemia corrected per unit muscle volume is similar between SCI and AB.…”

Section: Resistance Arteries Structural Adaptationsmentioning

confidence: 90%

“…61 In the only study to investigate brachial artery FMD, it was reported that absolute brachial artery FMD is not different between SCI and AB individuals, whereas brachial artery FMD expressed relative to the shear rate stimulus (in this case the change in shear rate ratio from rest to peak hyperemic response) was reduced in SCI compared with AB. 67 Enhanced or preserved FMD below the lesion and a reduction in FMD above the lesion appears counterintuitive given the known positive relationship between the degree of physical activity and FMD in AB. [70][71][72] Such differences in FMD above and below the lesion may be attributed to the structural adaptations that occur following SCI.…”

Section: Conduit Arterial Function After Sci Structural Adaptationsmentioning

confidence: 99%

“…In individuals with SCI, FMD has been examined in the superficial femoral artery (SFA), 62,66,67 the posterior tibial artery, 68 brachial artery 67 and the radial artery. 68 In the SFA, individuals with SCI exhibit an increased absolute FMD compared with AB individuals; 69 however, this difference is no longer present when the degree of FMD is corrected for area under the shear rate curve, from the time of occluding cuff deflation to that of peak diameter attainment.…”

Section: Conduit Arterial Function After Sci Structural Adaptationsmentioning

confidence: 99%

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Peripheral vascular function in spinal cord injury: a systematic review

et al. 2012

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Background: During the past 20 years, significant advances in patient care have resulted in individuals with spinal cord injury (SCI) living longer than before. As lifespan increases, cardiovascular complications are emerging as the leading cause of mortality in this population, and individuals with SCI develop cardiovascular disease at younger ages than their able-bodied counterparts. To address this increasing clinical challenge, several recent studies investigated the central cardiovascular adaptations that occur following SCI. However, a somewhat less recognized component of cardiovascular dysfunction in this population is the peripheral vascular adaptations that also occur as a result of SCI. Study design: Literature review.Objective: To present a comprehensive overview of changes in arterial structure and function, which occur after SCI. Setting: Canada. Methods: A systematic literature review was conducted to extract studies that incorporated measures of arterial structure or function after SCI in animals or humans. Results: Individuals with SCI exhibit vascular dysfunction below the lesion that is characterized by a reduction in conduit artery diameter and blood flow, increased shear rate and leg vascular resistance, and adrenoceptor hyper-responsiveness. There is also recent alarming evidence for central arterial stiffening in individuals with SCI. Conclusion: Although physical deconditioning is the primary candidate responsible for the maladaptive remodeling of the peripheral vasculature after SCI, there is emerging evidence that blood pressure oscillations, such as those occurring in the large majority of individuals with SCI, also exacerbates vascular dysfunction in this population.

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Section: Resistance Arteries Structural Adaptationsmentioning

confidence: 90%

Section: Conduit Arterial Function After Sci Structural Adaptationsmentioning

confidence: 99%

Section: Conduit Arterial Function After Sci Structural Adaptationsmentioning

confidence: 99%

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Peripheral vascular function in spinal cord injury: a systematic review

et al. 2012

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“…Thus it is somewhat counterintuitive to have research show that with deconditioning flowmediated dilatation (FMD), a method of noninvasively assessing endothelial health, is actually increased in the legs of individuals with SCI and decreases to normal levels with training. 14,18 It has been suggested that this results from increased shear stress, a strong stimulator of NO release, in the leg vasculature of individuals with SCI, 18 which may increase endothelial nitric oxide synthase (eNOS). With larger arterial diameters following FES-LCE training, 19 shear stress is reduced which may decrease eNOS and FMD while concurrently increasing arterial compliance.…”

Section: Effects Of Fes-lce Training On Arterial Compliance D Zbogarmentioning

confidence: 99%

The effects of functional electrical stimulation leg cycle ergometry training on arterial compliance in individuals with spinal cord injury

et al. 2008

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Study design: A prospective intervention of functional electrical stimulation leg cycle ergometry (FES-LCE) of four women with spinal cord injury (SCI). Objective: To evaluate the effect of FES-LCE training on arterial compliance in individuals with chronic SCI of traumatic origin. Setting: Tertiary rehabilitation center in Canada. Methods: Large and small artery compliance were measured at the radial artery before and after a 3-month training program using FES-LCE. Results: There was no significant change in large artery compliance after FES-LCE (16.0 ± 4.2 to 16.8±6.1 ml mm Hg À1 Â 10, P ¼ NS). There was a marked (63%) increase in small artery compliance after the FES training program (4.2 ± 1.8 to 6.9 ± 3.2 ml mm Hg À1 Â 100, Po0.05).Conclusion: It appears that FES-LCE is effective in improving small artery compliance in females with SCI.

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“…[3][4][5] In humans with longstanding SCI, extensive adaptations occur in the peripheral circulation such as a 30% decrease in diameter, a reduction in blood flow, and an almost doubling of stress levels in the femoral artery. 1,[6][7][8] Results on vascular changes derived from other models of deconditioning like bedrest studies [9][10][11] conflict with some studies showing a decrease in leg blood flow and others showing no changes after a period of bedrest varying from 10 to 41 days. However, none of these studies provides information related to changes in diameter size, and the magnitude of physical inactivity during bedrest may vary, because movements of the legs are still possible.…”

mentioning

confidence: 99%

Rapid and Extensive Arterial Adaptations After Spinal Cord Injury

Groot¹,

Bleeker²,

Kuppevelt³

et al. 2006

Archives of Physical Medicine and Rehabilitation

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Objective: To assess the time course of adaptations in leg vascular dimension and function within the first 6 weeks after a spinal cord injury (SCI).Design: Longitudinal study design. Setting: University medical center and rehabilitation clinic. Participants: Six men were studied serially at 1, 2, 3, 4, and 6 weeks after SCI.Interventions: Not applicable. Main Outcome Measures: Diameter, blood flow, and shear rate levels of the common femoral artery (CFA), superficial femoral artery (SFA), brachial artery, and carotid artery were measured with echo Doppler ultrasound (diameter, blood flow, shear rate). Endothelial function in the SFA was measured with flow-mediated dilation (FMD). In addition, leg volume and blood pressure measurements were performed.Results: Femoral artery diameter (CFA, 25%; SFA, 16%; PϽ.01) and leg volume (22%, PϽ.01) decreased simultaneously, and these reductions were largely accomplished within 3 weeks postinjury. Significant increases were observed for basal shear rate levels (64% increase at week 3; 117% increase at week 6; PϽ.01), absolute FMD responses (8% increase at week 3, 23% increase at week 6; PϽ.05) and relative FMD responses (26% increase at week 3, 44% increase at week 6; PϽ.001).Conclusions: Our findings show a rapid onset of adaptations in arterial dimension and function to extreme inactivity in humans. Vascular adaptations include extensive reductions in femoral diameter and leg volume, as well as increased basal shear rate levels and FMD responses, which all appear to be largely accomplished within 3 weeks after an SCI.

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Preserved flow-mediated dilation in the inactive legs of spinal cord-injured individuals

Cited by 105 publications

References 52 publications

Peripheral vascular function in spinal cord injury: a systematic review

Peripheral vascular function in spinal cord injury: a systematic review

The effects of functional electrical stimulation leg cycle ergometry training on arterial compliance in individuals with spinal cord injury

Rapid and Extensive Arterial Adaptations After Spinal Cord Injury

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