生物体感染巴氏杆菌病背景下的辐射损伤建模

T. Gaynutdinov, K. Vagin, S.A. Ryzhkin, F.H. Kalimullin, S.E. Ohrimenko
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引用次数: 0

摘要

目的:模拟体内的辐射-巴氏病病变。材料和方法物理和生物因素对机体的作用引起的辐射和巴氏杆菌病病变的模拟 在 "美洲豹 "设施中以 2.36×10-5 A/kg 的照射剂量率进行伽马射线照射,模拟动物的急性辐射病(ARD)。多杀性巴氏杆菌是巴氏杆菌病的致病菌,也是最常见的致病菌之一,被用作模型生物制剂来再现实验性生物病变。辐射-巴氏杆菌病病变模型分别以活体重为 2.8-3.4 千克和 18-20 克的家兔和白鼠为研究对象。实验结果在白鼠身上进行的确定影响剂最佳剂量的实验发现,伽马射线和巴氏杆菌病致病剂的最小剂量分别为 6.0 Gy 和 4.5×103 微生物细胞/公斤(m.k./kg)、3.9 Gy 和 9.0×103 m.k。/在这些情况下,动物会发生急性巴氏杆菌病感染和辐射病,所有动物都会死亡,主要发生在受影响物剂照射后的第一天和第二天。研究发现,以 8.0 Gy 的剂量对家兔进行伽马射线照射后,再以 4.5×103 m.k./kg 的剂量感染巴氏杆菌,会加剧巴氏杆菌病的进程,促使其扩散并加速动物死亡。结论辐射导致的巴氏杆菌病发展迅速。动物在发病后 2-13 天死亡,平均预期寿命为 6.3 天。将兔子暴露于所研究的非致死剂量的药剂中,会导致辐射病和巴氏杆菌病感染的恶化,导致所有动物死于辐射-巴氏杆菌病。在对死于急性辐射巴氏杆菌病的动物尸体解剖时,发现咽部和颈部下颌间隙的皮下组织肿胀,淋巴结充血和肿大,浆膜和粘膜以及实质器官组织大量出血--胸腔和腹腔有浆液性或浆液性纤维素渗出物,肺水肿。
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Modeling of Radiation Damage on the Background of Pasteurellosis Infection of the Organism
Purpose: Simulate radiation-pasteurellosis lesions in the body. Material and methods: Modeling of radiation and pasteurellosis lesions caused by the action of physical and biological factors on the organism Modeling of acute radiation disease (ARD) of animals was carried out by gamma-irradiation at the “Puma” facility with an exposure dose rate of 2.36×10-5 A/kg. Pasteurella multocida, the causative agent of pasteurellosis, as one of the most frequently occurring pathogenic agents, was used as a model biological agent to reproduce the experimental biological lesion. Modeling of radiation-pasteurellosis lesion was carried out on rabbits and on white mice with live weight of 2.8‒3.4 kg and 18‒20 g, respectively. Results: In experiments on white mice to determine the optimal doses of the affecting agents it was found that the minimum doses of gamma rays and the causative agent of pasteurellosis are 6.0 Gy and 4.5×103 microbial cells per kg (m.k./kg), 3.9 Gy and 9.0×103 m.k./kg, which leads to the development of pasteurellosis infection and radiation sickness in acute form with death of all animals, mainly on the first and second days after exposure to the affecting agents. k./kg, which leads to the development of pasteurellosis infection and radiation disease in acute form with death of all animals, mainly on the first and second days after combined exposure to the affecting agents. It was found that gamma-irradiation of rabbits at a dose of 8.0 Gy, followed by infection with Pasteurella at a dose of 4.5×103 m.k./kg, aggravated the course of the pasteurellosis process, contributed to its generalization and accelerated the death of animals. Conclusion: Radiation-pasteurellosis affection proceeded rapidly. Animals died on 2‒13 days after the onset of the disease with an average life expectancy of 6.3 days. Exposure of rabbits to non-lethal doses of the studied agents at the indicated doses led to aggravation of the course of radiation sickness and pasteurellosis infection, causing death of all animals from radiation-pasteurellosis pathology. At autopsy of corpses of animals, which died from acute course of radiation-pasteurellosis pathology, swelling of subcutaneous tissue in the area of pharynx and intermandibular space of neck, hyperemia and enlargement of lymph nodes, numerous hemorrhages on serous and mucous membranes and in tissues of parenchymatous organs ‒ serous or serous-fibrinous exudate in thoracic and abdominal areas, pulmonary edema were found.
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来源期刊
Medical Radiology and Radiation Safety
Medical Radiology and Radiation Safety Medicine-Radiology, Nuclear Medicine and Imaging
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