Evaluation of radial and ulnar artery blood flow after radial artery decannulation using colour Doppler ultrasound

Compensatory response of the radial and ulnar arteries after radial artery cannulation in hypertensive patients

BACKGROUND

Limited literature exists on the vascular reactivity of the radial and ulnar arteries in hypertensive patients following radial artery cannulation. This study assessed the vascular reactivity of the radial and ulnar arteries by comparing Doppler images and laser speckle contrast imaging (LSCI) obtained from both normotensive and hypertensive patients after radial artery cannulation under general anesthesia.

METHODS

This study recruited 99 normotensive and 99 hypertensive patients who required arterial cannulation under general anesthesia. In the course of research, to evaluate the impact of hypertension on arterial reactivity, we employed duplex Doppler ultrasonography to measure the inner diameter (ID), resistance index (RI) and mean volume flow (MVF) of both arteries at five different time points. We equally performed perfusion of thumb and little finger by laser speckle contrast imaging.

RESULTS

After radial artery cannulation, the hypertensive group showed less increase in radial ID and less decrease in RI compared to the normotensive group. The MVF increase was also less pronounced in hypertensive patients, while both groups demonstrated equivalent ulnar ID changes, and the normotensive group exhibited a more significant decrease in RI and a greater MVF increase. Thumb perfusion decreased post-cannulation in both groups, with the hypertensive group showing a less robust recovery. Little finger perfusion increased after artery cannulation in both groups, but the hypertensive group's increase was lower. The incidence of vasospasm in the hypertensive group is higher than that in the normotensive group.

CONCLUSIONS

The radial and ulnar arteries in hypertensive patients may lack a compensatory response to radial artery cannulation during general anesthesia.

Does the resistive index of the radial artery change after arterial cannulation in patients undergoing abdominal surgery? A prospective observational study

Background and Aims

To evaluate the flow at the cannulation site in the radial artery, the resistive indices (RIs) before cannula insertion and 6 h after decannulation were measured (primary outcome). The secondary outcomes were measurement of the artery size by anteroposterior (AP) diameter at the insertion site, RI and AP diameter at a point 4 cm proximal and in the ipsilateral ulnar artery before insertion and 6 h after cannula removal.

Methods

In 96 patients requiring an arterial line during surgery, peak systolic velocity (PSV) and end-diastolic velocity (EDV) were measured to derive RI using a linear ultrasound transducer. The RI was measured at R1 (insertion point), R2, 4 cm proximal to R1, and U1 on the ipsilateral ulnar artery. The AP diameter of the arteries at baseline R10, R20 and U10 was measured and repeated 6 h after removal of the cannula, R16, R26 and U16.

Results

RI or AP diameter in R1 or R2 did not differ pre- and post-cannulation. Mean R10 1.143 [standard deviation (SD: 0.239)] versus R16 1.181 (SD: 0.260) m/sec [mean difference (MD): -0.0372 (95% confidence interval (CI): -0.098, 0.023), P = 0.230]. Mean AP diameter at baseline versus 6 h decannulation 0.177 (SD: 0.042) versus 0.172 (SD: 0.045) cm [MD: 0.005 (95% CI: 0.003, 0.013), P = 0.222] was also similar. The mean PSV in U10 versus U16 was higher: 0.480 (SD: 0.178) versus 0.528 (SD: 0.316) m/sec [MD: 0.120 (95% CI: -0.185, -0.054), P = 0.002] and AP diameter was also higher than baseline (P = 0.001).

Conclusion

The flow in the radial artery did not change following cannulation. The PSV and AP diameter in the ulnar artery increased after decannulation, suggesting a compensatory increase in flow.

Risk factors for arterial catheter failure and complications during critical care hospitalisation: a secondary analysis of a multisite, randomised trial

OBJECTIVES

Arterial catheters (ACs) are critical for haemodynamic monitoring and blood sampling but are prone to complications. We investigated the incidence and risk factors of AC failure.

METHODS

Secondary analysis of a multi-centre randomised controlled trial (ACTRN 12610000505000). Analysis included a subset of adult intensive care unit patients with an AC. The primary outcome was all-cause device failure. Secondary outcomes were catheter associated bloodstream infection (CABSI), suspected CABSI, occlusion, thrombosis, accidental removal, pain, and line fracture. Risk factors associated with AC failure were investigated using Cox proportional hazards and competing-risk models.

RESULTS

Of 664 patients, 173 (26%) experienced AC failure (incidence rate [IR] 37/1000 catheter days). Suspected CABSI was the most common failure type (11%; IR 15.3/1000 catheter days), followed by occlusion (8%; IR 11.9/1,000 catheter days), and accidental removal (4%; IR 5.5/1000 catheter days). CABSI occurred in 16 (2%) patients. All-cause failure and occlusion were reduced with ultrasound-assisted insertion (failure: adjusted hazard ratio [HR] 0.43, 95% CI 0.25, 0.76; occlusion: sub-HR 0.11, 95% CI 0.03, 0.43). Increased age was associated with less AC failure (60-74 years HR 0.63, 95% CI 0.44 to 0.89; 75 + years HR 0.36, 95% CI 0.20, 0.64; referent 15-59 years). Females experienced more occlusion (adjusted sub-HR 2.53, 95% CI 1.49, 4.29), while patients with diabetes had less (SHR 0.15, 95% CI 0.04, 0.63). Suspected CABSI was associated with an abnormal insertion site appearance (SHR 2.71, 95% CI 1.48, 4.99).

CONCLUSIONS

AC failure is common with ultrasound-guided insertion associated with lower failure rates. Trial registration Australian New Zealand Clinical Trial Registry (ACTRN 12610000505000); date registered: 18 June 2010.

Application of ultrasound in cardiovascular intervention via the distal radial artery approach: New wine in old bottles?

The distal radial artery (DRA) approach has emerged as a new approach in cardiovascular intervention. In recent years, ultrasound has been widely used in cardiovascular intervention via the DRA approach. This article systematically discusses the progress of ultrasound in the preoperative vascular assessment, intraoperative guided puncture and postoperative observation of complications via the DRA approach.

Preventing radial arterial catheter failure in critical care - Factoring updated clinical strategies and techniques

Radial artery catheterization is a frequently performed procedure for critically ill patients. The correct function of arterial catheters is essential to provide accurate and continuous hemodynamic monitoring, facilitating intermittent blood sampling and helping to optimize the workload for critical care nurses and physicians. However, they are not without their own problems. This narrative practice review discusses several clinical aspects that are not frequently considered but may contribute to enhanced catheter functionality, less device-related failure and more acceptable dwell times. Ultrasound has demonstrated unequivocal efficacies and safety with the procedure, improving first attempt success rates with children, the obese or patients with unstable clinical vital signs and shock. Moreover, anatomic variations of the radial artery are not rare, and ultrasound-guided catheterization reduces the incidence of insertion-related complications such as hematoma, posterior wall puncture, intimal dissection, and radial nerve injury. Ultrasound guidance offers several immediate benefits by enhancing the most appropriate insertion techniques, allows for the correct catheter to vessel ratio measurements to be performed and reduces the angle of insertion, which may affect catheter failure due to inappropriate catheter length. A deeper and more proximal cannulation site at least 4 cm from wrist joint, avoiding the area of wrist flexion, reduces mechanical complications related to patient movements and may improve catheter functionality and dwell along with a better area for stabilization and securement.