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European Journal of Applied Physiology
Published in: European Journal of Applied Physiology 4/2016

01-04-2016 | Original Article

Investigating the impact of passive external lower limb compression on central and peripheral hemodynamics during exercise

Authors: Jennifer Book, Chekema N. Prince, Rodrigo Villar, Richard L. Hughson, Sean D. Peterson

Published in: European Journal of Applied Physiology | Issue 4/2016

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Abstract

Purpose

The objective of this study was to assess the effectiveness of graduated compression socks (GCS) on enhancing muscle blood flow and oxygenation during exercise and recovery in healthy subjects.

Methods

Twelve healthy volunteers completed a protocol involving baseline, exercise, and recovery periods with and without GCS. Each test was repeated twice to assess repeatability of the results. The applied sock pressure was measured prior to experimentation using a custom pressure sensing system, and modified as necessary using tensor bandages to control the applied load. During each of the experimental phases, blood velocity in the popliteal artery, calf muscle tissue oxygenation, muscle activity, heart rate, blood pressure, cardiac output, and applied pressure from the sock were measured. Popliteal artery diameter was measured during baseline and recovery periods.

Results

The GCS significantly reduced deoxyhemoglobin (HHb) in the leg during baseline (HHb, p = 0.001) and total blood volume and HHb in the leg during exercise (total hemoglobin, p = 0.01; HHb, p = 0.02). However, there were no differences in leg muscle blood flow velocity or any other variables with and without GCS at baseline, exercise, or recovery. Interestingly, it was found that the local applied sock pressure was very sensitive to the sock application process and, furthermore, the pressure varied considerably during exercise.

Conclusions

No significant changes were observed in measures reflecting oxygen delivery for healthy subjects using GCS during exercise and recovery. Applied sock pressure was carefully controlled, thus eliminating the sock application process as a variable.
Literature
Agu O, Baker D, Seifalian AM (2004) Effect of graduated compression stockings on limb oxygenation and venous function during exercise in patients with venous insufficiency. Vascular 12:69–76CrossRefPubMed
Ali A, Caine MP, Snow BG (2007) Graduated compression stockings: physiological and perceptual responses during and after exercise. J Sports Sci 25:413–419CrossRefPubMed
Ali A, Creasy RH, Edge JA (2010) Physiological effects of wearing graduated compression stockings during running. Eur J Appl Physiol 109:1017–1025CrossRefPubMed
Born DP, Sperlich B, Holmberg HC (2013) Bringing light into the dark: effects of compression clothing on performance and recovery. Int J Sports Physiol Perform 8:4–18PubMed
Bringard A, Denis R, Belluye N, Perrey S (2006) Effects of compression tights on calf muscle oxygenation and venous pooling during quiet resting in supine and standing positions. J Sports Med Phys Fitness 46:548–554PubMed
Buhs CL, Bendick PJ, Glover JL (1999) The effect of graded compression elastic stockings on the lower leg venous system during daily activity. J Vasc Surg 30:830–835CrossRefPubMed
Delis KT, Azizi ZA, Stevens RJG et al (2000) Optimum intermittent pneumatic compression stimulus for lower-limb venous emptying. Eur J Vasc Endovasc Surg 269:261–269CrossRef
Downie SP, Firmin DN, Wood NB, Thom SA, Hughes AD, Wolfe JN, Xu XY (2007) Role of MRI in investigating the effects of elastic compression stockings on the deformation of the superficial and deep veins in the lower leg. J Magn Reson Imaging 26:80–85CrossRefPubMed
Duffield R, Edge J, Merrells R, Hawke E, Barnes M, Simcock D, Gill N (2008) The effects of compression garments on intermittent exercise performance and recovery on consecutive days. Int J Sports Physiol Perform 3:454–468PubMed
Kemmler W, von Stengel S, Köckritz Mayhew J, Wassermann A, Zapf J (2009) Effect of compression stockings on running performance in men runners. J Strength Cond Res 23:101–105CrossRefPubMed
Kumar B, Das A, Alagirusamy R (2012) Analysis of sub-bandage pressure of compression bandages during exercise. J Tissue Viability 21:115–124CrossRefPubMed
Lurie F, Scott V, Yoon H-CC, Kistner RL (2008) On the mechanism of action of pneumatic compression devices: combined magnetic resonance imaging and duplex ultrasound investigation. J Vasc Surg 48:1000–1006CrossRefPubMed
Ma H, Blebea J, Malgor RD, Taubman KE (2015) Variability in leg compression provided by gradient commercial stockings. J Vasc Surg Venous Lymphat Disord 3:431–437CrossRefPubMed
MacDonald MJ, Shoemaker JK, Tschakovsky ME, Hughson RL (1998) Alveolar oxygen uptake and femoral artery blood flow dynamics in upright and supine leg exercise in humans. J Appl Physiol 85:1622–1628PubMed
MacRae BA, Cotter JD, Laing RM (2011) Compression garments and exercise: garment considerations, physiology, and performance. Sports Med 41:815–843CrossRefPubMed
McLaren J, Helmer RJN, Horne SL, Blanchonette I (2010) Preliminary development of a wearable device for dynamic pressure measurement in garments. Procedia Eng 2:3041–3046CrossRef
Myles PS, Cui J (2007) Using the Bland-Altman method to measure agreement with repeated measures. Br J Anaesth 99:309–311CrossRefPubMed
Peat J (2002) Health science research: a handbook of quantitative methods. SAGE Publications Ltd, Beverly Hills
Rowell LB (1993) Human cardiovascular control. Oxford University Press, New York
Stein PD, Matta F, Yaekoub AY, Ahsan ST, Badshah A, Younas F, Denier JE (2010) Effect of compression stockings on venous blood velocity and blood flow. Thromb Haemost 103:138–144CrossRefPubMed
Stick C, Jaeger H, Witzleb E (1992) Measurements of volume changes and venous pressure in the human lower leg during walking and running. J Appl Physiol 72:2063–2068CrossRefPubMed
Varela-Sanz A, España J, Carr N, Boullosa DA, Esteve-Lanao J (2011) Effects of gradual-elastic compression stocking on running economy, kinematics, and performance in runners. J Strength Cond Res 25:2902–2910CrossRefPubMed
Vercruyssen F, Easthope C, Bernard T, Hausswirth C, Bieuzen F, Gruet M, Brisswalter J (2014) The influence of wearing compression stockings on performance indicators and physiological responses following a prolonged trail running exercise. Eur J Sport Sci 14:144–150CrossRefPubMed
Villar R, Hughson RL (2013) Effect of altered arterial perfusion pressure on vascular conductance and muscle blood flow dynamic response during exercise in humans. J Appl Physiol 114:620–627CrossRefPubMed
Welman KE (2011) The value of graduated compression socks as a post-exercise recovery modality in long distance models. Ph.D. dissertation, Department of Sport Science, University of Stellenbosch
Metadata
Title
Investigating the impact of passive external lower limb compression on central and peripheral hemodynamics during exercise
Authors
Jennifer Book
Chekema N. Prince
Rodrigo Villar
Richard L. Hughson
Sean D. Peterson
Publication date
01-04-2016
Publisher
Springer Berlin Heidelberg
Published in
European Journal of Applied Physiology / Issue 4/2016
Print ISSN: 1439-6319
Electronic ISSN: 1439-6327
DOI
https://doi.org/10.1007/s00421-016-3331-0

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