Juan Wang, Hongtao Zhang, Yansong Liang, Jianmin Li
{"title":"PO100","authors":"Juan Wang, Hongtao Zhang, Yansong Liang, Jianmin Li","doi":"10.1016/j.brachy.2023.06.201","DOIUrl":null,"url":null,"abstract":"Purpose To study the radiation dose rate and effective dose in ambient environment due to 1I seed implantation in the treatment of the patients suffering abdominal and pelvic tumors, so as to provide reference for occupational protection of different groups. Materials and Methods Within 24hours after operation , the radiation dose rate to 42 patients with abdominal and pelvic tumor with 125I seed implantation was monitored by using pocket dosimeter. The relationships between the total activity in the implanted particles and the measured dose rate, as well as hetween the implanted depth and the dose rate under the standard activity, were obtained by curve fitting. According to the formula, the relationship between the dose rate and the warning time was calculated. Results The dose rates at 30 cm , 50 cm and00 cm of vertical particle implantation site were (6.92+2. 87) , (4. 10+1. 62) and (1.30+0. 48) u.Sv/h. respectively (X'= 73. 71, P<0. 05). The dose rates on the left and right sides were (0. 378+0. 156) and (0.384+0. 153) Sv/h at 30 cm, (0. 170+0. 089) and (0.17+0. 086) uSv/h at 50 cm, (0. 039 +0. 014) and (0. 043+0.017) Sv/h at 100 cm, respectively (X'= 76. 19, 76. 33, P<0. 05). There was a linear relationship between the dose rate at the vertical particle implantation site and the total activity in the implanted particles, and between the dose rate and the implantation depth under the standard activity. The relationship between the warning time and the dose rate to adults in the same bed, co-workers , minors in the same bed and pregnant women were as follows: t (d) = -106. 616+83. 779lnD (t) , t (d) = 26. 556+85. 933lnD (t), t (d) = 3.088 + 85. 017InD (t). Conclusions After's I seed implantation, the radiation dose in the ambient environment is low, ensuring the radiation safety; and the measured dose rate decreases with the decrease in the total activity in the implanted particle and the increase in the implantation depth; at the same time, the warning time for different groups is calculated according to the measured dose rate or the total activity in the implanted particle and the depth of the implanted particle, so as to carry out individualized protection. To study the radiation dose rate and effective dose in ambient environment due to 1I seed implantation in the treatment of the patients suffering abdominal and pelvic tumors, so as to provide reference for occupational protection of different groups. Within 24hours after operation , the radiation dose rate to 42 patients with abdominal and pelvic tumor with 125I seed implantation was monitored by using pocket dosimeter. The relationships between the total activity in the implanted particles and the measured dose rate, as well as hetween the implanted depth and the dose rate under the standard activity, were obtained by curve fitting. According to the formula, the relationship between the dose rate and the warning time was calculated. The dose rates at 30 cm , 50 cm and00 cm of vertical particle implantation site were (6.92+2. 87) , (4. 10+1. 62) and (1.30+0. 48) u.Sv/h. respectively (X'= 73. 71, P<0. 05). The dose rates on the left and right sides were (0. 378+0. 156) and (0.384+0. 153) Sv/h at 30 cm, (0. 170+0. 089) and (0.17+0. 086) uSv/h at 50 cm, (0. 039 +0. 014) and (0. 043+0.017) Sv/h at 100 cm, respectively (X'= 76. 19, 76. 33, P<0. 05). There was a linear relationship between the dose rate at the vertical particle implantation site and the total activity in the implanted particles, and between the dose rate and the implantation depth under the standard activity. The relationship between the warning time and the dose rate to adults in the same bed, co-workers , minors in the same bed and pregnant women were as follows: t (d) = -106. 616+83. 779lnD (t) , t (d) = 26. 556+85. 933lnD (t), t (d) = 3.088 + 85. 017InD (t). After's I seed implantation, the radiation dose in the ambient environment is low, ensuring the radiation safety; and the measured dose rate decreases with the decrease in the total activity in the implanted particle and the increase in the implantation depth; at the same time, the warning time for different groups is calculated according to the measured dose rate or the total activity in the implanted particle and the depth of the implanted particle, so as to carry out individualized protection.","PeriodicalId":93914,"journal":{"name":"Brachytherapy","volume":"24 1","pages":"0"},"PeriodicalIF":0.0000,"publicationDate":"2023-09-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"PO100\",\"authors\":\"Juan Wang, Hongtao Zhang, Yansong Liang, Jianmin Li\",\"doi\":\"10.1016/j.brachy.2023.06.201\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"Purpose To study the radiation dose rate and effective dose in ambient environment due to 1I seed implantation in the treatment of the patients suffering abdominal and pelvic tumors, so as to provide reference for occupational protection of different groups. Materials and Methods Within 24hours after operation , the radiation dose rate to 42 patients with abdominal and pelvic tumor with 125I seed implantation was monitored by using pocket dosimeter. The relationships between the total activity in the implanted particles and the measured dose rate, as well as hetween the implanted depth and the dose rate under the standard activity, were obtained by curve fitting. According to the formula, the relationship between the dose rate and the warning time was calculated. Results The dose rates at 30 cm , 50 cm and00 cm of vertical particle implantation site were (6.92+2. 87) , (4. 10+1. 62) and (1.30+0. 48) u.Sv/h. respectively (X'= 73. 71, P<0. 05). The dose rates on the left and right sides were (0. 378+0. 156) and (0.384+0. 153) Sv/h at 30 cm, (0. 170+0. 089) and (0.17+0. 086) uSv/h at 50 cm, (0. 039 +0. 014) and (0. 043+0.017) Sv/h at 100 cm, respectively (X'= 76. 19, 76. 33, P<0. 05). There was a linear relationship between the dose rate at the vertical particle implantation site and the total activity in the implanted particles, and between the dose rate and the implantation depth under the standard activity. The relationship between the warning time and the dose rate to adults in the same bed, co-workers , minors in the same bed and pregnant women were as follows: t (d) = -106. 616+83. 779lnD (t) , t (d) = 26. 556+85. 933lnD (t), t (d) = 3.088 + 85. 017InD (t). Conclusions After's I seed implantation, the radiation dose in the ambient environment is low, ensuring the radiation safety; and the measured dose rate decreases with the decrease in the total activity in the implanted particle and the increase in the implantation depth; at the same time, the warning time for different groups is calculated according to the measured dose rate or the total activity in the implanted particle and the depth of the implanted particle, so as to carry out individualized protection. To study the radiation dose rate and effective dose in ambient environment due to 1I seed implantation in the treatment of the patients suffering abdominal and pelvic tumors, so as to provide reference for occupational protection of different groups. Within 24hours after operation , the radiation dose rate to 42 patients with abdominal and pelvic tumor with 125I seed implantation was monitored by using pocket dosimeter. The relationships between the total activity in the implanted particles and the measured dose rate, as well as hetween the implanted depth and the dose rate under the standard activity, were obtained by curve fitting. According to the formula, the relationship between the dose rate and the warning time was calculated. The dose rates at 30 cm , 50 cm and00 cm of vertical particle implantation site were (6.92+2. 87) , (4. 10+1. 62) and (1.30+0. 48) u.Sv/h. respectively (X'= 73. 71, P<0. 05). The dose rates on the left and right sides were (0. 378+0. 156) and (0.384+0. 153) Sv/h at 30 cm, (0. 170+0. 089) and (0.17+0. 086) uSv/h at 50 cm, (0. 039 +0. 014) and (0. 043+0.017) Sv/h at 100 cm, respectively (X'= 76. 19, 76. 33, P<0. 05). There was a linear relationship between the dose rate at the vertical particle implantation site and the total activity in the implanted particles, and between the dose rate and the implantation depth under the standard activity. The relationship between the warning time and the dose rate to adults in the same bed, co-workers , minors in the same bed and pregnant women were as follows: t (d) = -106. 616+83. 779lnD (t) , t (d) = 26. 556+85. 933lnD (t), t (d) = 3.088 + 85. 017InD (t). After's I seed implantation, the radiation dose in the ambient environment is low, ensuring the radiation safety; and the measured dose rate decreases with the decrease in the total activity in the implanted particle and the increase in the implantation depth; at the same time, the warning time for different groups is calculated according to the measured dose rate or the total activity in the implanted particle and the depth of the implanted particle, so as to carry out individualized protection.\",\"PeriodicalId\":93914,\"journal\":{\"name\":\"Brachytherapy\",\"volume\":\"24 1\",\"pages\":\"0\"},\"PeriodicalIF\":0.0000,\"publicationDate\":\"2023-09-01\",\"publicationTypes\":\"Journal Article\",\"fieldsOfStudy\":null,\"isOpenAccess\":false,\"openAccessPdf\":\"\",\"citationCount\":\"0\",\"resultStr\":null,\"platform\":\"Semanticscholar\",\"paperid\":null,\"PeriodicalName\":\"Brachytherapy\",\"FirstCategoryId\":\"1085\",\"ListUrlMain\":\"https://doi.org/10.1016/j.brachy.2023.06.201\",\"RegionNum\":0,\"RegionCategory\":null,\"ArticlePicture\":[],\"TitleCN\":null,\"AbstractTextCN\":null,\"PMCID\":null,\"EPubDate\":\"\",\"PubModel\":\"\",\"JCR\":\"\",\"JCRName\":\"\",\"Score\":null,\"Total\":0}","platform":"Semanticscholar","paperid":null,"PeriodicalName":"Brachytherapy","FirstCategoryId":"1085","ListUrlMain":"https://doi.org/10.1016/j.brachy.2023.06.201","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"","JCRName":"","Score":null,"Total":0}
Purpose To study the radiation dose rate and effective dose in ambient environment due to 1I seed implantation in the treatment of the patients suffering abdominal and pelvic tumors, so as to provide reference for occupational protection of different groups. Materials and Methods Within 24hours after operation , the radiation dose rate to 42 patients with abdominal and pelvic tumor with 125I seed implantation was monitored by using pocket dosimeter. The relationships between the total activity in the implanted particles and the measured dose rate, as well as hetween the implanted depth and the dose rate under the standard activity, were obtained by curve fitting. According to the formula, the relationship between the dose rate and the warning time was calculated. Results The dose rates at 30 cm , 50 cm and00 cm of vertical particle implantation site were (6.92+2. 87) , (4. 10+1. 62) and (1.30+0. 48) u.Sv/h. respectively (X'= 73. 71, P<0. 05). The dose rates on the left and right sides were (0. 378+0. 156) and (0.384+0. 153) Sv/h at 30 cm, (0. 170+0. 089) and (0.17+0. 086) uSv/h at 50 cm, (0. 039 +0. 014) and (0. 043+0.017) Sv/h at 100 cm, respectively (X'= 76. 19, 76. 33, P<0. 05). There was a linear relationship between the dose rate at the vertical particle implantation site and the total activity in the implanted particles, and between the dose rate and the implantation depth under the standard activity. The relationship between the warning time and the dose rate to adults in the same bed, co-workers , minors in the same bed and pregnant women were as follows: t (d) = -106. 616+83. 779lnD (t) , t (d) = 26. 556+85. 933lnD (t), t (d) = 3.088 + 85. 017InD (t). Conclusions After's I seed implantation, the radiation dose in the ambient environment is low, ensuring the radiation safety; and the measured dose rate decreases with the decrease in the total activity in the implanted particle and the increase in the implantation depth; at the same time, the warning time for different groups is calculated according to the measured dose rate or the total activity in the implanted particle and the depth of the implanted particle, so as to carry out individualized protection. To study the radiation dose rate and effective dose in ambient environment due to 1I seed implantation in the treatment of the patients suffering abdominal and pelvic tumors, so as to provide reference for occupational protection of different groups. Within 24hours after operation , the radiation dose rate to 42 patients with abdominal and pelvic tumor with 125I seed implantation was monitored by using pocket dosimeter. The relationships between the total activity in the implanted particles and the measured dose rate, as well as hetween the implanted depth and the dose rate under the standard activity, were obtained by curve fitting. According to the formula, the relationship between the dose rate and the warning time was calculated. The dose rates at 30 cm , 50 cm and00 cm of vertical particle implantation site were (6.92+2. 87) , (4. 10+1. 62) and (1.30+0. 48) u.Sv/h. respectively (X'= 73. 71, P<0. 05). The dose rates on the left and right sides were (0. 378+0. 156) and (0.384+0. 153) Sv/h at 30 cm, (0. 170+0. 089) and (0.17+0. 086) uSv/h at 50 cm, (0. 039 +0. 014) and (0. 043+0.017) Sv/h at 100 cm, respectively (X'= 76. 19, 76. 33, P<0. 05). There was a linear relationship between the dose rate at the vertical particle implantation site and the total activity in the implanted particles, and between the dose rate and the implantation depth under the standard activity. The relationship between the warning time and the dose rate to adults in the same bed, co-workers , minors in the same bed and pregnant women were as follows: t (d) = -106. 616+83. 779lnD (t) , t (d) = 26. 556+85. 933lnD (t), t (d) = 3.088 + 85. 017InD (t). After's I seed implantation, the radiation dose in the ambient environment is low, ensuring the radiation safety; and the measured dose rate decreases with the decrease in the total activity in the implanted particle and the increase in the implantation depth; at the same time, the warning time for different groups is calculated according to the measured dose rate or the total activity in the implanted particle and the depth of the implanted particle, so as to carry out individualized protection.
求助内容:
应助结果提醒方式:
京公网安备 11010802042870号
