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Shielding effectiveness of X-ray protective garments
H. Eder a, H. Schlattl b - Published:March 22, 2021DOI:https://doi.org/10.1016/j.ejmp.2021.01.081
16 enero, 2024 por
Shielding effectiveness of X-ray protective garments
ROTHBAND, Paul Dixon

The study delves into the complex attenuation properties of X-ray protective garments, particularly aprons, during practical clinical use. 

Past research mainly focused on material properties of lead-free and lead-composite protective clothing. The study highlights a gap in understanding the actual attenuation efficacy of these materials in real-world clinical scenarios, as opposed to standardised test environments. The international standard IEC 61331-3:2014 specifies standard lead equivalence values for these garments, which are tested under specific beam geometries defined in IEC 61331-1:2014. However, these test conditions do not accurately reflect the clinical environment where scatter radiation from patients hits the staff at various angles and intensities. This discrepancy suggests that the effectiveness of protective garments might be underestimated in standard tests.

Recent studies have shown mixed results regarding the shielding effectiveness of these aprons in clinical settings. Some findings indicate minimal differences in protection levels among aprons with different lead equivalence values, while others suggest reduced efficacy due to material wear and poor fit. Additionally, research on patient shielding in procedures like CT scans has begun exploring targeted protection for sensitive body parts.

This work focuses on the impact of realistic spatial incidence of scatter radiation on protective clothing. The study employed two approaches: measuring attenuation factors of aprons on a male phantom under various conditions and calculating the effect of inclined radiation incidence on a female phantom using simulations. The findings indicate that attenuation factors and lead equivalence values in practical use are higher than those measured under IEC standard conditions. This suggests a potential for optimizing protective garment design to enhance efficacy, particularly around radiosensitive organs. The study concludes that X-ray protective aprons could be designed to be lighter and more efficient by concentrating protective material on specific body parts, based on their vulnerability and the nature of medical procedures.


At Rothband, a company at the forefront of innovation in radiological protection, we are keenly attuned to the latest research and developments in our field. The recent study examining the real-world efficacy of X-ray protective garments underlines the importance of continuous innovation and adaptation in our product lines. We understand that the standard testing conditions, as outlined by the IEC, do not always mirror the complexities and variabilities encountered in clinical settings. This discrepancy between standardised testing and practical application is exactly where Rothband's commitment to innovation becomes crucial. 

In response to the study's findings, Rothband is actively exploring ways to optimise the distribution and composition of protective materials in our garments. We are committed to developing lighter, more effective protective wear by focusing on material placement and density, ensuring both safety and ease of use for medical professionals. By staying abreast of the latest research and continually refining our products, Rothband aims to lead the way in providing the most advanced and reliable radiological protection solutions in the healthcare industry

Shielding effectiveness of X-ray protective garments
ROTHBAND, Paul Dixon 16 enero, 2024
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