Abstract
A two centre clinical study was performed to analyse exposure levels of cardiac physicians performing electrophysiology and haemodynamic procedures with the use of state of the art Zero-Gravity™ radiation protective system (ZG). The effectiveness of ZG was compared against the commonly used ceiling suspended lead shield (CSS) in a haemodynamic lab. The operator’s exposure was assessed using thermoluminescent dosimeters (TLDs) during both ablation (radiofrequency ablation (RFA) and cryoablation (CRYA)) and angiography and angioplasty procedures (CA/PCI). The dosimeters were placed in multiple body regions: near the left eye, on the left side of the neck, waist and chest, on both hands and ankles during each measurement performed with the use of ZG. In total 29 measurements were performed during 105 procedures. To compare the effectiveness of ZG against CSS an extra 80 measurements were performed with the standard lead apron, thyroid collar and ceiling suspended lead shield during CA/PCI procedures. For ZG, the upper values for the average eye lens and whole body doses per procedure were 4 µSv and 16 µSv for the left eye lens in electrophysiology lab (with additionally used CSS) and haemodynamic lab (without CSS), respectively, and about 10 µSv for the remaining body parts (neck, chest and waist) in both labs. The skin doses to hands and ankles non-protected by the ZG were 5 µSv for the most exposed left finger and left ankle in electrophysiology lab, while in haemodynamic lab 150 µSv and 17 µSv, respectively. The ZG performance was 3 times (p < 0.05) and at least 15 times (p < 0.05) higher for the eye lenses and thoracic region, respectively, compared to CSS (with dosimeters on the apron/collar). However, when only ZG was used slightly higher normalised doses were observed for the left finger compared to CSS (5.88e − 2 Sv/Gym2 vs. 4.31 e − 2 Sv/Gym2, p = 0.016). The study results indicate that ZG performance is superior to CSS. It can be simultaneously used with the ceiling suspended lead shield to ensure the protection to the hands as long as this is not obstructive for the work.
Highlights
Due to both high doses from single procedure and a considerable workload, interventional cardiology practices involve relatively high doses for physicians performing the procedures (Vaño 2003, 2006; Kim and Miller 2009; Martin 2009; Domienik-Andrzejewska et al 2018)
While the radiation protective cabin is mainly dedicated for radiofrequency ablations (RFA) procedures the Zero-Gravity system (ZG) system can be successfully used during all fluoroscopy guided procedures
The aim of the paper was to determine the typical exposure levels of physician’s working with a ZG system during electrophysiology procedures [such as radiofrequency ablations (RFAs) or cryoablations (CRYAs)] and haemodynamic procedures [such as angiography (CA) and angioplasty (PCI)] and to compare the protective effectiveness of this system with standard solutions such as the ceiling suspended lead shield used in most interventional rooms
Summary
Due to both high doses from single procedure and a considerable workload, interventional cardiology practices involve relatively high doses for physicians performing the procedures (Vaño 2003, 2006; Kim and Miller 2009; Martin 2009; Domienik-Andrzejewska et al 2018). The two latter ones reduce exposure of the operator while eliminating orthopaedic injuries (Dragusin et al 2007; Savage et al 2013; Haussen et al 2016; Maleux et al 2016) These systems are a good solution for the problem of physicians’ chronic back pain due to working in a standard lead apron. The aim of the paper was to determine the typical exposure levels of physician’s working with a ZG system during electrophysiology procedures [such as radiofrequency ablations (RFAs) or cryoablations (CRYAs)] and haemodynamic procedures [such as angiography (CA) and angioplasty (PCI)] and to compare the protective effectiveness of this system with standard solutions such as the ceiling suspended lead shield used in most interventional rooms
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