J Barber1, J P McNulty. 1. Diagnostic Imaging, School of Medicine and Medical Science, University College Dublin, Belfield, Dublin, Ireland.
Abstract
OBJECTIVES: To measure the intensity and distribution of scatter radiation received by a restrainer in veterinary radiography including the intensity of scatter radiation passing through lead protective devices at pre-defined positions. METHODS: Anthropomorphic phantoms and a Labrador dog cadaver were used to simulate a restrainer and patient. Scatter dose measurements were recorded at the position of the restraining hands, thyroid, breast and gonads with and without appropriate lead protection. This was repeated for the eight most common projections as identified in an initial retrospective survey. RESULTS: Manual restraint of an animal for a radiographic procedure will result in a scatter radiation dose to the restrainer. The level of radiation dose varies between body regions and between projections. The use of appropriate lead protection resulted in statistically significant dose reductions to all body regions with maximum scatter dose reductions between 93 and 100%. CLINICAL SIGNIFICANCE: While the doses recorded were small (μGy) in terms of associated risk, they are nonetheless cumulative which can result in a more significant dose. Therefore manual restraint should be avoided and forms of immobilisation should be used such as mechanical means, sedation or general anaesthesia. However, if completely necessary both principles of distance and adequate lead protection should be employed.
OBJECTIVES: To measure the intensity and distribution of scatter radiation received by a restrainer in veterinary radiography including the intensity of scatter radiation passing through lead protective devices at pre-defined positions. METHODS: Anthropomorphic phantoms and a Labrador dog cadaver were used to simulate a restrainer and patient. Scatter dose measurements were recorded at the position of the restraining hands, thyroid, breast and gonads with and without appropriate lead protection. This was repeated for the eight most common projections as identified in an initial retrospective survey. RESULTS: Manual restraint of an animal for a radiographic procedure will result in a scatter radiation dose to the restrainer. The level of radiation dose varies between body regions and between projections. The use of appropriate lead protection resulted in statistically significant dose reductions to all body regions with maximum scatter dose reductions between 93 and 100%. CLINICAL SIGNIFICANCE: While the doses recorded were small (μGy) in terms of associated risk, they are nonetheless cumulative which can result in a more significant dose. Therefore manual restraint should be avoided and forms of immobilisation should be used such as mechanical means, sedation or general anaesthesia. However, if completely necessary both principles of distance and adequate lead protection should be employed.
Authors: Ana Luiza Menegatti Pavan; Maria Eugênia Dela Rosa; Guilherme Giacomini; Fernando Antonio Bacchim Neto; Seizo Yamashita; Luiz Carlos Vulcano; Sergio Barbosa Duarte; José Ricardo de Arruda Miranda; Diana Rodrigues de Pina Journal: PLoS One Date: 2016-04-21 Impact factor: 3.240
Authors: Malene Bisgaard; Fintan J McEvoy; Dorte Hald Nielsen; Clara Allberg; Anna V Müller; Signe Timm; Signe N Meyer; Line Marie Johansen; Stine Pedersen; Helle Precht Journal: Front Vet Sci Date: 2021-12-14