OBJECTIVES: This study sought to assess radiation exposure and operator discomfort when using left radial approach (LRA) versus right radial approach (RRA) for coronary diagnostic and percutaneous interventions. BACKGROUND: The transradial approach is increasingly being adopted as the preferred vascular access for coronary interventions. Currently, most are performed using an RRA. This is in part due to the perceived increased operator physical discomforts as well increased radiation exposure with an LRA. METHODS:One hundred patients were randomized to an LRA or RRA. Each operator (n = 5) had an independent randomization process, and patients were stratified according to obesity status. Operator radiation was measured using separate sets of radiation dosimeter badges placed externally on the head and thyroid and internally on the sternum. Operator physical discomfort was surveyed at 2 time points: during vascular access and at the end of the procedure. Moderate to severe physical discomfort was defined as a score of >4. RESULTS: There were no significant differences in baseline and procedural variables between groups. There was a significant increase in external radiation exposure using the RRA versus LRA (head: median: 6.12 [interquartile range (IQR): 2.6 to 16.6] mRems vs. median: 12.0 [IQR: 6.4 to 22.0] mRems, p = 0.02; thyroid: median: 10.10 [IQR: 4.3 to 25] mRems vs. median: 18.70 [IQR: 11.0 to 38] mRems, p = 0.001). More discomfort was reported with the LRA during access (LRA: 22% vs. RRA: 4%; p = 0.017), but not during the procedure (LRA: 10.0% vs. RRA: 4.0%, p = 0.43). This difference was almost entirely noted in obese patients (LRA: 30.0% vs. RRA: 3.7%, p = 0.005). CONCLUSIONS:LRA is as effective as RRA, showing a safer profile with decreased radiation exposure to the operator, at the expense of more operator discomfort only during vascular access and limited to obese patients.
RCT Entities:
OBJECTIVES: This study sought to assess radiation exposure and operator discomfort when using left radial approach (LRA) versus right radial approach (RRA) for coronary diagnostic and percutaneous interventions. BACKGROUND: The transradial approach is increasingly being adopted as the preferred vascular access for coronary interventions. Currently, most are performed using an RRA. This is in part due to the perceived increased operator physical discomforts as well increased radiation exposure with an LRA. METHODS: One hundred patients were randomized to an LRA or RRA. Each operator (n = 5) had an independent randomization process, and patients were stratified according to obesity status. Operator radiation was measured using separate sets of radiation dosimeter badges placed externally on the head and thyroid and internally on the sternum. Operator physical discomfort was surveyed at 2 time points: during vascular access and at the end of the procedure. Moderate to severe physical discomfort was defined as a score of >4. RESULTS: There were no significant differences in baseline and procedural variables between groups. There was a significant increase in external radiation exposure using the RRA versus LRA (head: median: 6.12 [interquartile range (IQR): 2.6 to 16.6] mRems vs. median: 12.0 [IQR: 6.4 to 22.0] mRems, p = 0.02; thyroid: median: 10.10 [IQR: 4.3 to 25] mRems vs. median: 18.70 [IQR: 11.0 to 38] mRems, p = 0.001). More discomfort was reported with the LRA during access (LRA: 22% vs. RRA: 4%; p = 0.017), but not during the procedure (LRA: 10.0% vs. RRA: 4.0%, p = 0.43). This difference was almost entirely noted in obesepatients (LRA: 30.0% vs. RRA: 3.7%, p = 0.005). CONCLUSIONS: LRA is as effective as RRA, showing a safer profile with decreased radiation exposure to the operator, at the expense of more operator discomfort only during vascular access and limited to obesepatients.
Authors: Yongcheol Kim; Youngkeun Ahn; Inna Kim; Doo Hwan Lee; Min Chul Kim; Doo Sun Sim; Young Joon Hong; Ju Han Kim; Myung Ho Jeong Journal: Korean Circ J Date: 2018-08-06 Impact factor: 3.243