A Systematic Evaluation of Cutaneous Microcirculation in the Foot Using Post-Occlusive Reactive Hyperemia
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Balasubramanian, Gayathri, CHOCKALINGAM, Nachiappan and NAEMI, Roozbeh (2021) A Systematic Evaluation of Cutaneous Microcirculation in the Foot Using Post-Occlusive Reactive Hyperemia. Microcirculation. ISSN 1073-9688
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micc.12692.pdf - Publisher's typeset copy Available under License Creative Commons Attribution 4.0 International (CC BY 4.0) . Download (27MB) | Preview |
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Balasubramanian et al 2021 Author Accepted version.pdf - AUTHOR'S ACCEPTED Version (default) Available under License All Rights Reserved. Download (1MB) | Preview |
Abstract or description
Objectives: Cutaneous microcirculatory impairments are associated with skin injury to the foot. Post Occlusive Reactive Hyperemia (PORH) is one of the quick and easy methods to assess microcirculatory function. However, there are variations in the protocols currently used. Hence, this study aimed to systematically investigate the reproducibility of PORH protocols with minimal occlusion time in the foot.
Methods: PORH was measured using 12 different protocols (3 occlusion times, 2 occlusion sites and with or without temperature control) in 25 healthy adults. Each of the 12 different protocols was tested 3 times and the Intraclass correlation coefficient (ICC) was calculated.
Results: ICC showed that that ankle level occlusion produced moderate to excellent reproducibility for most PORH measures. In the right foot, 30- and 60- seconds ankle level occlusion without temperature control showed ICC of >0.40 for all parameters except the area of hyperemia (ICC = -0.36) and biological zero to peak flow percent change (ICC = -0.46). In the left foot, 30 seconds ankle level occlusion without temperature control showed ICC of >0.40 for all parameters except time to latency (ICC = 0.29), after hyperemia (ICC = 0.37), and max (ICC = -0.01), and area of hyperemia (ICC =-0.36). But the 60- seconds protocol showed ICC >0.40 for all except time to max (ICC = 0.38). In the hallux protocols, all three 10-, 30- and 60-seconds protocols without temperature control showed moderate to excellent reproducibility (ICC >0.40). In most cases, the temporal and area under the perfusion-time curve parameters showed poor reproducibility.
Conclusion: PORH can be tested efficiently with a minimal occlusion time of 10-seconds with hallux occlusion and 30-seconds with ankle occlusion in the foot. This can suggest that microcirculatory assessment is feasible in routine practice and can potentially be included for routine assessment of foot in people with diabetes.
| Item Type: | Article |
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| Faculty: | School of Life Sciences and Education > Education |
| Depositing User: | Roozbeh NAEMI |
| Date Deposited: | 29 Mar 2021 13:47 |
| Last Modified: | 24 Feb 2023 14:01 |
| URI: | https://eprints.staffs.ac.uk/id/eprint/6850 |
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