Potential considerations with estimating blood flow restriction pressure in the lower body using a narrower cuff

Eur J Appl Physiol. 2023 May;123(5):937-943. doi: 10.1007/s00421-022-05122-y. Epub 2022 Dec 29.

Abstract

Blood flow restriction pressures are typically set as a percentage of the arterial occlusion pressure. For those who do not have the ability to measure the arterial occlusion pressure, estimation equations are available. However, notable considerations are needed when estimating pressure with a narrow cuff (5 cm) in the lower body. A previously published equation in this journal was developed but was created only using 55% of the sample because the arterial occlusion of the others could not be obtained within the manufacturer's pressure limit. The purpose of this article was twofold: (1) to investigate how previous studies have implemented the equation and (2) to highlight potential concerns of using this equation. Two databases were used to locate articles that used the equation from Loenneke et al. (2015). We found that this equation had been cited 10 times to estimate arterial occlusion pressure with some notable concerns. Some did not use a 5 cm wide cuff, while others used it for participants who had arterial occlusion pressures exceeding 300 mmHg. To highlight the latter, we also applied the Loenneke et al. (2015) lower body equation to participants with arterial occlusion pressures known to exceed 300 mmHg to demonstrate potential concerns. This retrospective analysis found that 52% of the sample with known pressures over 300 mmHg (40 out of 77) would be estimated below 300 mmHg. This paper highlighted important considerations for those trying to estimate arterial occlusion pressure in the lower body with a narrow cuff (5 cm).

Keywords: Arterial occlusion; Blood pressure; Cuff width; Limb occlusion.

Publication types

  • Review

MeSH terms

  • Adaptation, Physiological*
  • Arterial Pressure* / physiology
  • Blood Flow Restriction Therapy* / statistics & numerical data
  • Blood Pressure Determination*
  • Humans
  • Lower Extremity / blood supply