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Abstract

Background:

Radial artery catheterization is commonly used for continuous blood pressure monitoring, arterial blood gas analysis, and routine blood sampling during the perioperative period. However, the small diameter of the radial artery and potential complications make catheterization challenging. This study was aimed to investigate the efficacy and safety of preoperative prolonged occlusion flow-mediated dilation (PO-FMD) in enhancing radial artery catheterization.

Methods:

A total of 144 patients scheduled for elective surgery requiring radial artery catheterization were enrolled in this study. Patients were randomly assigned to either the PO-FMD group or the sham PO-FMD group. For patients in PO-FMD group, the blood pressure was first measured, then inflated cuffs to 50 mmHg above the patients’ systolic pressure and maintained for 5 min to induce radial artery dilation. The same procedure was performed for the sham PO-FMD group, except that the cuff was not inflated. Use an ultrasound machine to measure the diameter and depth of the radial artery at baseline, 5 min after the cuff was placed, and after catheter placement. The successful rate, numbers of attempt, durations, and complications of the cannulation were recorded.

Results:

One hundred and thirty-one patients completed the trial and were included in final statistical analysis. The PO-FMD group showed a significant increase in radial artery diameter compared to sham PO-FMD group and baseline. After catheterization, this diameter remained stable in the PO-FMD group but decreased in the sham PO-FMD group. No significant differences in radial artery depth were observed between groups. Then, the first-attempt success rate for radial artery cannulation was 86% in the PO-FMD group, significantly higher than the 64% success rate in the sham PO-FMD group. In the PO-FMD group, both the duration of cannulation and the number of attempts were lower compared to the sham PO-FMD group. Additionally, complications related to radial artery cannulation, such as arterial spasm, loss of pulsation and occlusion, occurred less frequently in the PO-FMD group than in the sham PO-FMD group.

Conclusions:

Our data suggested that the PO-FMD significantly increased and stabilized the radial artery diameter, improved the success rates of radial artery cannulation, shortens the time to successful catheterization, and decreases the incidence of cannulation-related complications.

Keywords

Radial artery catheterization prolonged occlusion flow-mediated dilation continuous blood pressure monitoring arterial blood gas analysis arterial dilation

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References

Zhang

Zhao

Bai

, et al Enhancing first-attempt success in radial artery cannulation: a PDCA-driven approach for anesthesiology residency training. Front Surg 2025; 12: 1564760.

Lee

Kwon

, et al Simulation-based training using a vessel phantom effectively improved first attempt success and dynamic needle-tip positioning ability for ultrasound-guided radial artery cannulation in real patients: an assessor-blinded randomized controlled study. PLoS One 2020; 15(6): e0234567.

Tangwiwat

Pankla

Rushatamukayanunt

, et al Comparing the success rate of radial artery cannulation under ultrasound guidance and palpation technique in adults. J Med Assoc Thai 2016; 99(5): 505–510.

Kumar

Gupta

Kaushik

, et al Longitudinal axis approach versus longitudinal oblique axis approach for ultrasound-guided radial artery cannulation in adult patients: a comparative study. J Anaesthesiol Clin Pharmacol 2024; 40(3): 504–509.

Singla

Mangla

Agarwal

, et al Comparative evaluation of three different techniques of radial artery cannulation: a prospective randomised study. Cureus 2024; 16(1): e52326.

Wang

Hendin

Millington

, et al Better with ultrasound: arterial line placement. Chest 2020; 157(3): 574–579.

Cho

Jang

, et al Ultrasound-guided arterial catheterization. Anesth Pain Med 2021; 16(2): 119–132.

Tang

Wang

, et al Ultrasound guidance for radial artery catheterization: an updated meta-analysis of randomized controlled trials. PLoS One 2014; 9(11): e111527.

Peters

Schwarz

Yarnold

, et al Ultrasound guidance versus direct palpation for radial artery catheterization by expert operators: a randomized trial among Canadian cardiac anesthesiologists. Can J Anaesth 2015; 62(11): 1161–1168.

10.

Chase

Fretz

Warburton

, et al Association of the arterial access site at angioplasty with transfusion and mortality: the M.O.R.T.A.L study (Mortality benefit Of Reduced Transfusion after percutaneous coronary intervention via the Arm or Leg). Heart 2008; 94(8): 1019–1025.

11.

Abumayyaleh

Thiele

Rassaf

, et al Femoral vs. radial approach for primary percutaneous intervention in cardiogenic shock: a subanalysis from the ECLS-SHOCK trial. Eur Heart J Acute Cardiovasc Care 2025; 14(6): 351–358.

12.

Quinaglia

Matos-Souza

Feinstein

, et al Flow-mediated dilation: an evolving method. Atherosclerosis 2015; 241(1): 143–144.

13.

Mullen

Kharbanda

Cross

, et al Heterogenous nature of flow-mediated dilatation in human conduit arteries in vivo: relevance to endothelial dysfunction in hypercholesterolemia. Circ Res 2001; 88(2): 145–151.

14.

Doubell

Kyriakakis

Weich

, et al Radial artery dilatation to improve access and lower complications during coronary angiography: the RADIAL trial. EuroIntervention 2021; 16(16): 1349–1355.

15.

Celermajer

Sorensen

Gooch

, et al Non-invasive detection of endothelial dysfunction in children and adults at risk of atherosclerosis. Lancet 1992; 340(8828): 1111–1115.

16.

Spencer

Imbriaco

Bardin-Spencer

, et al Safe Insertion of Arterial Catheters (SIA): an ultrasound-guided protocol to minimize complications for arterial cannulation. J Vasc Access 2024; 25(5): 1403–1408.

17.

Roy

Kabach

Patel

, et al Radial artery access complications: prevention, diagnosis and management. Cardiovasc Revasc Med 2022; 40: 163–171.

18.

Ying

Gong

, et al Flow-mediated dilatation to relieve puncture-induced radial artery spasm: a pilot study. Cardiol J 2018; 25(1): 1–6.

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Effect of preoperative prolonged occlusion flow-mediated dilation on radial artery cannulation: A prospective randomized controlled trail