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  1. Characterisation of micro-sized and nano-sized tungsten oxide-epoxy composites for radiation shielding of diagnostic X-rays
    Azman NZ, Siddiqui SA, Low IM
    Mater Sci Eng C Mater Biol Appl, 2013 Dec 1;33(8):4952-7.
    PMID: 24094209 DOI: 10.1016/j.msec.2013.08.023
    Characteristics of X-ray transmissions were investigated for epoxy composites filled with 2-10 vol% WO3 loadings using synchrotron X-ray absorption spectroscopy (XAS) at 10-40 keV. The results obtained were used to determine the equivalent X-ray energies for the operating X-ray tube voltages of mammography and radiology machines. The results confirmed the superior attenuation ability of nano-sized WO3-epoxy composites in the energy range of 10-25 keV when compared to their micro-sized counterparts. However, at higher synchrotron radiation energies (i.e., 30-40 keV), the X-ray transmission characteristics were similar with no apparent size effect for both nano-sized and micro-sized WO3-epoxy composites. The equivalent X-ray energies for the operating X-ray tube voltages of the mammography unit (25-49 kV) were in the range of 15-25 keV. Similarly, for a radiology unit operating at 40-60 kV, the equivalent energy range was 25-40 keV, and for operating voltages greater than 60 kV (i.e., 70-100 kV), the equivalent energy was in excess of 40 keV. The mechanical properties of epoxy composites increased initially with an increase in the filler loading but a further increase in the WO3 loading resulted in deterioration of flexural strength, modulus and hardness.
  2. Fulltext Assessing Mean Glandular Dose in Mammography in Jordan According to American College of Radiology (ACR) Standards
    Al Hrout R, Ayasrah M, Noor Azman NZ
    Cancer Manag Res, 2025;17:11-22.
    PMID: 39810746 DOI: 10.2147/CMAR.S497104
    INTRODUCTION: Breast cancer is a significant worldwide health issue, particularly in Jordan, where early detection via mammography is essential for effective disease management. Despite the little radiation risk associated with mammography, it is crucial to monitor radiation exposure to guarantee patient safety. This study intends to assess skin entrance exposure and compute the Mean Glandular Dose (MGD) in mammography units to determine adherence to established criteria and pinpoint areas for enhancement.

    METHODS: To assess MGD, the study utilized the American College of Radiologists (ACR) phantom alongside a RaySafe X2 MAM dosimeter. Measurements of entrance kerma and half-value layer (HVL) were taken across 25 mammography units in Jordan. The MGD was calculated according to the ACR's 2018 protocol, which provides a standardized approach to ensure accurate and comparable dose estimations. These measurements were then analyzed against the ACR's threshold of 3 mGy to assess compliance.

    RESULTS: The study found that the average MGD across all units was 2.3 mGy, with individual values ranging from 0.95 to 4.10 mGy. Although 67% of the units maintained MGD values within the ACR threshold, 33% exceeded the recommended limit of 3 mGy. Higher MGD values were particularly common in non-accredited facilities, where the average MGD reached 2.7 mGy, compared to 1.6 mGy in accredited units, suggesting gaps in quality control and adherence to best practices in non-accredited centers.

    CONCLUSION: This study emphasizes the critical role of accreditation and adherence to quality standards in maintaining safe and effective mammography practices. While most mammography units in Jordan meet the ACR's recommended MGD limits, the elevated dose levels in some non-accredited facilities highlight the need for more rigorous implementation of accreditation standards. Improving compliance with established guidelines will enhance breast cancer screening effectiveness, ultimately supporting better early detection and outcomes for breast cancer in Jordan.

  3. The relationship between mean glandular dose and compressed breast thickness specified for Jordan
    Ahmed Shaker Hegian Z, Moh'd Abu Tahoun L, Ramli RM, Noor Azman NZ
    Radiat Prot Dosimetry, 2023 Dec 29;200(1):25-31.
    PMID: 37738470 DOI: 10.1093/rpd/ncad259
    The mean glandular dose (MGD) is a measurement used in mammography to assess the amount of radiation absorbed. By considering specific exposure radiation dose criteria, MGD ensures minimal radiation while maintaining image quality for detecting abnormalities. The relationship between MGD and compressed breast thickness (CBT) is commonly utilized in mammographic dose surveys. This study aims to estimate the MGD-CBT relationship based on patient age in Jordan through retrospective analysis. The analysis involved 3465 screening mammography images of women aged 40-80, divided into three age groups: 40-49, 50-64 and 65-80 years. Each group had a specific CBT range (16.5-156 mm). The results indicate that MGD ranges from 1.6 to 1.7 mGy across all three age groups, independent of CBT. Thus, a significant and positive correlation exists between MGD and CBT in all age groups.
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