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首页> 外文期刊>Mutagenesis >Low-dose radiation from 18F-FDG PET does not increase cancer frequency or shorten latency but reduces kidney disease in cancer-prone Trp53+/- mice.
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Low-dose radiation from 18F-FDG PET does not increase cancer frequency or shorten latency but reduces kidney disease in cancer-prone Trp53+/- mice.

机译:18F-FDG PET的低剂量辐射不会增加癌症频率或缩短潜伏期,但减少了癌症易患TRP53 +/-小鼠的肾病。

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摘要

There is considerable interest in the health effects associated with low-level radiation exposure from medical imaging procedures. Concerns in the medical community that increased radiation exposure from imaging procedures may increase cancer risk among patients are confounded by research showing that low-dose radiation exposure can extend lifespan by increasing the latency period of some types of cancer. The most commonly used radiopharmaceutical for positron emission tomography (PET) scans is 2-[(18)F] fluoro-2-deoxy-d-glucose ((18)F-FDG), which exposes tissue to a low-dose, mixed radiation quality: 634 keV β+ and 511 keV γ-rays. The goal of this research was to investigate how modification of cancer risk associated with exposure to low-dose ionising radiation in cancer-prone Trp53+/- mice is influenced by radiation quality from PET. At 7-8 weeks of age, Trp53+/- female mice were exposed to one of five treatments: 0 Gy, 10 mGy γ-rays, 10 mGy (18)F-FDG, 4 Gy γ-rays, 10 mGy (18)F-FDG + 4 Gy γ-rays (n > 185 per group). The large 4-Gy radiation dose significantly reduced the lifespan by shortening the latency period of cancer and significantly increasing the number of mice with malignancies, compared with unirradiated controls. The 10 mGy γ-rays and 10 mGy PET doses did not significantly modify the frequency or latency period of cancer relative to unirradiated mice. Similarly, the PET scan administered prior to a large 4-Gy dose did not significantly modify the latency or frequency of cancer relative to mice receiving a dose of only 4 Gy. The relative biological effectiveness of radiation quality from (18)F-FDG, with respect to malignancy, is approximately 1. However; when non-cancer endpoints were studied, it was found that the 10-mGy PET group had a significant reduction in kidney lesions (P < 0.021), indicating that a higher absorbed dose (20 ± 0.13 mGy), relative to the whole-body average, which occurs in specific tissues, may not be detrimental.
机译:对来自医学成像程序的低级辐射曝光相关的健康效应具有相当大的兴趣。医学界的担忧增加了成像手术的辐射暴露可能会增加患者的癌症风险,通过研究表明,低剂量辐射暴露可以通过增加某些类型癌症的潜伏期来延长寿命。用于正电子发射断层扫描(PET)扫描的最常用的放射性药物是2 - [(18)F]氟-2-脱氧-D-葡萄糖((18)F-FDG),使组织暴露于低剂量,混合辐射质量:634 kevβ+和511keVγ射线。该研究的目标是调查如何改变与暴露于癌症 - Prone TRP53 +/-小鼠的低剂量电离辐射相关的癌症风险受到来自PET的辐射质量的影响。在7-8周的年龄,TRP53 +/-雌性小鼠暴露于五种治疗中的一个:0 GY,10MGYγ射线,10 MGY(18)F-FDG,4GYγ光,10 MGY(18) F-FDG + 4GYγ射线(每组N> 185)。通过缩短癌症的潜伏期并显着增加恶性肿瘤的小鼠数量,大小的4-gy辐射​​剂量显着降低了寿命。 10MGYγ射线和10 MGY PET剂量没有显着改变癌症的频率或潜伏期,相对于未照射的小鼠。类似地,在大4-GY剂量之前施用的PET扫描没有显着修饰癌症的潜伏期或频率,相对于仅接受4 GY的剂量的小鼠。辐射质量与(18)F-FDG相对于恶性肿瘤的相对生物学效果约为1.然而;当研究了非癌症终点时,发现10吨宠物组肾脏病变的显着减少(P <0.021),表明相对于全身吸收剂量(20±0.13 MGO)在特定组织中发生的平均值可能不是有害的。

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