Human calf precapillary resistance decreases in response to small cumulative increases in venous congestion pressure

Gamble, J.; Christ, F.; Gartside, I B

doi:10.1111/j.1469-7793.1998.611bt.x

Cited by 44 publications

(64 citation statements)

References 17 publications

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“…The lower vascular resistance for the whole limb after minutes of venous congestion is analogous to the findings of Gamble et al [13] who increased venous congestion pressure in small (<10 mm Hg) increments each lasting 5 min, so that cuff pressure of 50 mm Hg was not achieved for approximately 45 min. In this protocol, calf blood flow determined by brief transient further cuff inflations, similar to those used in the present study, showed no decrease at all, and this was confirmed by measurements of flow velocity in the popliteal artery using ultrasound.…”

Section: Discussionsupporting

confidence: 62%

“…Subjects rested supine with the legs supported so that the widest part of the calf lay horizontal with the right atrium [13, 20]. Arterial blood flow to the non-dominant calf was estimated using a non-mercury strain gauge incorporated into the Filtrass 2001 system (DOMED Medizintechnik, Krailling, Germany) during brief (<12 s) venous occlusion thigh cuff inflations.…”

Section: Methodsmentioning

confidence: 99%

“…A constrictor response is thus evoked when venous congestion is sustained for minutes, as shown for cutaneous tissues [5, 8, 12], but not when held only for seconds, e.g. for the plethysmographic determination of limb arterial blood flow [13]. …”

Section: Introductionmentioning

confidence: 99%

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Evaluation of the Time Course of Vascular Responses to Venous Congestion in the Human Lower Limb

Oldfield

Brown²

2006

J Vasc Res

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This study examined the time course of changes in blood flow to the lower leg in response to venous distension – the veni-arteriolar vasoconstrictor response – in 31 healthy males. During a 5-min period of venous distension (thigh cuff pressure 50 mm Hg), calf blood flow (venous occlusion plethysmography) decreased more rapidly (within 30 s) compared to skin perfusion (after 2 min, Laser Doppler flowmetry), consistent with disparate filling times of superficial and deeper veins and a greater increase in deep vein volume. On completion of venous filling, vascular resistance in the skin was unchanged from baseline, implying that the reduction in perfusion was solely the result of reduced perfusion pressure. For the whole calf, vascular resistance was unchanged after 1 min but decreased thereafter by 35–45% from baseline, indicating adjustment of pre- or post-capillary resistances to maintain flow. Repeated plethysmographic flow measurements assisted the decrease in resistance, most likely by intermittent compression of the thigh cuff acting to displace blood volume centrally and alleviate congestion. These findings do not support an active veni-arteriolar vasoconstrictor mechanism in response to venous distension alone in the lower leg, and provide evidence of dynamic flow adjustments that should be acknowledged during procedures that involve prolonged periods of venous congestion.

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Section: Discussionsupporting

confidence: 62%

Section: Methodsmentioning

confidence: 99%

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Evaluation of the Time Course of Vascular Responses to Venous Congestion in the Human Lower Limb

Oldfield

Brown²

2006

J Vasc Res

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“…A biphasic response is observed consisting of an initial rapid increase in calf circumference attributable to venous filling when cuff pressure exceeds venous pressure, followed by a gradual increase in volume caused by fluid filtration which occurs when cuff pressure exceeds filtration pressure at the microvascular interface. The slope of the linear relationship between cuff pressure and limb volume (and thus fluid filtration) is termed Kf [26]. The xaxis intercept of filtration capacity slope with the pressure axis is PVi, which is therefore the pressure at which there is neither net filtration nor reabsorption.…”

Section: Microcirculatory Functionmentioning

confidence: 99%

The insulin sensitiser pioglitazone does not influence skin microcirculatory function in patients with type 2 diabetes treated with insulin

et al. 2006

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Aims/hypothesis: Insulin resistance is associated with abnormal microvascular function. Treatment with insulin sensitisers may provoke oedema, suggesting microvascular effects. The mechanisms underlying the peripheral oedema observed during glucose-lowering treatment with thiazolidinediones are unclear. Therefore we examined the effect of pioglitazone on microvascular variables involved in oedema formation. Methods:: Subjects (40-80 years) with type 2 diabetes and on insulin were randomised to 9 weeks of pioglitazone therapy (30 mg/day; n=14) or placebo (n=15). The following assessments were performed at baseline and 9 weeks: microvascular filtration capacity; isovolumetric venous pressure; capillary pressure; capillary recruitment following venous or arterial occlusion; postural vasoconstriction; and maximum blood flow. A number of haematological variables were also measured including vascular endothelium growth factor (VEGF), IL-6 and C-reactive protein (CRP). Results: Pioglitazone did not significantly influence any microcirculatory variable as compared with placebo (analysis of covariance [ANCOVA] for microvascular filtration capacity for the two groups, p=0.26). Mean VEGF increased with pioglitazone (61.1 pg/ml), but not significantly more than placebo (9.76 pg/ml, p=0.94).HbA 1c levels and the inflammatory markers IL-6 and CRP decreased with pioglitazone compared with placebo (ANCOVA: p=0.009, p=0.001 and p=0.004, respectively). Conclusions/interpretation: Pioglitazone improved glycaemic control and inflammatory markers over 9 weeks but had no effect on microcirculatory variables associated with oedema or insulin resistance in type 2 diabetic patients treated with insulin.

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“…32 Assuming tissue pressure, reflection coefficient, and oncotic pressures are unchanged during cuff occlusion, the rate of change in limb volume, dVol t /dt, is a function of P vasc and lymphatic drainage, where P vasc is determined by venous occlusion pressure. Most generally, one expects lymphatic drainage to change as P vasc changes.…”

Section: Linear Filtration Relation and Lymph Flowmentioning

confidence: 99%

Microvascular Filtration Is Increased in Postural Tachycardia Syndrome

Stewart

2003

Circulation

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Background— Postural tachycardia syndrome (POTS) is related to defective peripheral vasoconstriction of dependent extremities with redistributive hypovolemia. Methods and Results— To test whether enhanced microvascular filtration produces leg enlargement, we studied 12 patients 13 to 19 years of age with POTS and defective leg vasoconstriction and 13 age-matched healthy control subjects, with strain-gauge plethysmography used to measure venous pressure (P v ), forearm and calf blood flow, vascular capacitance, and the microvascular filtration coefficient (K f ). Measurements were made while the patient was supine and at steady state during upright tilt to 35°. Supine P v was not different in POTS, but upright leg P v tended to be increased above control. Arm and leg peripheral arterial resistance was decreased in the supine and upright positions in patients with POTS compared with control subjects ( P =0.01, upright legs). Supine K f was not significantly increased in the forearm in patients with POTS but was increased in the calf (9.3±2.2 versus 5.7±2.4 [10 −3 ] mL/100 mL per minute per mm Hg, P =0.04), correlating with calf blood flow (r s =0.84, P =0.002). K f was invariant with orthostasis. The hydraulic contribution to upright filtered flow at 35° tilt, the product of K f and P v , was approximately twice that of control (0.41±0.09 versus 0.19±0.04 mL/100 mL per minute, P =0.04). Conclusions— Increased microvascular filtration accounts for enhanced leg swelling in patients with POTS with increased arterial blood flow.

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Human calf precapillary resistance decreases in response to small cumulative increases in venous congestion pressure

Cited by 44 publications

References 17 publications

Evaluation of the Time Course of Vascular Responses to Venous Congestion in the Human Lower Limb

Evaluation of the Time Course of Vascular Responses to Venous Congestion in the Human Lower Limb

The insulin sensitiser pioglitazone does not influence skin microcirculatory function in patients with type 2 diabetes treated with insulin

Microvascular Filtration Is Increased in Postural Tachycardia Syndrome

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