低剂量放疗治疗COVID-19:第一阶段临床试验结果

G. H
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The results of blood tests and imaging also confirmed the positive effect of LDRT on COVID-19 treatment [2]. Short course results of another study carried out on five patients with COVID-19 aged over 60 years, who underwent national COVID-19 therapy protocols, showed that using 0.5 Gy of radiation in one fraction led to the improvement of four patients in the first few days after exposure. Apart from that, they were discharged from the hospital with an average of 6 days, and no radiation toxicity was observed in them [3]. Another clinical investigation has used LDRT on nine patients to treat COVID-19. In this study, patients received 1 Gy to total lungs, and the SatO2/FiO2 index of these patients was evaluated. Results showed that this index significantly improved 72 hours and one week after LDRT, and inflammation of the lungs decreased one week after radiation therapy. Compared to patients who did not receive LDRT, the median days of hospitalization of patients who received LDRT was reduced by approximately one-fifth. Among these patients, seven were discharged, and two patients died [4]. The incidence of cancers such as lung, esophagus, and breast is one of the controversial subjects surrounding the use of LDRT in COVID-19 treatment. According to the Biological Effects of Ionization Radiation VII (BEIR VII) model, the risk of lung cancer was estimated for patients with COVID-19 whose lungs were irradiated to 0.5 Gy. The incidence of lung cancer can increase by 0.84% and 2.3% for males and females aged above 60 years, respectively. On the other hand, for young patients aged 25 years, the incidence of lung cancer was estimated at 1.1% and 3% for males and females, respectively [5]. According to this model, with an increase in the dose received by the lungs, the risk of lung cancer increases linearly; therefore, the incidence of lung cancer for patients whose whole lung receives a dose of 1.5 Gy will be three times for those who have received a dose of 0.5 Gy [6]. Based on these results, exposure of the lungs to the dose in the range 0.5-1.5 Gy can increase the risk of lung cancer up to 9% and 7% for female patients and 3.3% and 2.5% for male patients aged 25 and 65, respectively. Of course, it should be noted that smoking should be considered in estimating the risk of lung cancer in addition to the radiation factor. Besides the lungs, the heart and esophagus may also be exposed to radiation, increasing the risk of esophageal cancer and heart disease. Nevertheless, blood factors, smoking, and a history of heart disease can be influential in the incidence of heart disease in addition to radiation [7,8]. Results of these clinical trials have shown that the recommended dose (0.5-1.5 Gy) can increase lung cancer up to 9%. As one of the possible effects of ionizing radiation is carcinogenicity, no threshold has been defined for its occurrence, but another issue in radiobiology is the risk-benefit of ionizing radiation. As no radiation toxicities were reported in the said clinical studies, it seems that LDRT is safe; however, more clinical studies are needed to prove this claim. We should not hastily recommend the use of LDRT as an adjuvant treatment for COVID-19. 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According to the Biological Effects of Ionization Radiation VII (BEIR VII) model, the risk of lung cancer was estimated for patients with COVID-19 whose lungs were irradiated to 0.5 Gy. The incidence of lung cancer can increase by 0.84% and 2.3% for males and females aged above 60 years, respectively. On the other hand, for young patients aged 25 years, the incidence of lung cancer was estimated at 1.1% and 3% for males and females, respectively [5]. According to this model, with an increase in the dose received by the lungs, the risk of lung cancer increases linearly; therefore, the incidence of lung cancer for patients whose whole lung receives a dose of 1.5 Gy will be three times for those who have received a dose of 0.5 Gy [6]. Based on these results, exposure of the lungs to the dose in the range 0.5-1.5 Gy can increase the risk of lung cancer up to 9% and 7% for female patients and 3.3% and 2.5% for male patients aged 25 and 65, respectively. 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引用次数: 0

摘要

使用低剂量放射治疗(LDRT)治疗炎症、肺炎和2019年冠状病毒病(COVID-19)已经进行了研究。结果显示,LDRT可以改善不同系细胞、动物和人类的炎症。研究表明,单剂量(0.3-1 Gy)肺LDRT可以通过避免正常组织毒性来治疗COVID-19引起的肺炎。这些建议的剂量值是从电离辐射治疗肺炎的历史使用中获得的[1]。最近一项临床研究治疗了5名年龄在64-96岁之间的COVID-19患者;这些患者的肺部在一个部分中暴露于1.5 Gy的辐射。结果显示,4名患者的呼吸系统状况在接触后24小时内迅速得到改善。血液检查和影像学结果也证实了LDRT对COVID-19治疗的积极作用[2]。另一项对5名60岁以上接受国家COVID-19治疗方案的COVID-19患者进行的短期研究结果显示,在一个部分使用0.5 Gy辐射可使4名患者在暴露后的最初几天内得到改善。除此之外,平均出院时间为6天,未见放射毒性[3]。另一项临床研究在9名患者身上使用LDRT治疗COVID-19。在本研究中,患者接受1 Gy至全肺,并评估这些患者的SatO2/FiO2指数。结果显示,LDRT后72小时和1周,该指标明显改善,放射治疗后1周肺部炎症减轻。与未接受LDRT的患者相比,接受LDRT的患者的中位住院天数减少了约五分之一。其中7例出院,2例死亡[4]。肺癌、食道癌和乳腺癌等癌症的发病率是在COVID-19治疗中使用LDRT的争议话题之一。根据电离辐射生物学效应VII (BEIR VII)模型,估计肺部辐射至0.5 Gy的COVID-19患者发生肺癌的风险。60岁以上男性和女性的肺癌发病率分别增加0.84%和2.3%。另一方面,在25岁的年轻患者中,男性和女性的肺癌发病率估计分别为1.1%和3%[5]。根据该模型,随着肺部接受剂量的增加,肺癌的风险呈线性增加;因此,全肺接受1.5 Gy剂量的患者的肺癌发病率将是0.5 Gy剂量的3倍[6]。根据这些结果,肺部暴露于0.5-1.5 Gy范围内的剂量可使25岁和65岁的女性患者的肺癌风险分别增加9%和7%,男性患者的肺癌风险分别增加3.3%和2.5%。当然,应该指出的是,在估计肺癌的风险时,除了辐射因素外,还应该考虑吸烟。除了肺部,心脏和食道也可能受到辐射,增加患食道癌和心脏病的风险。然而,除了辐射外,血液因素、吸烟和心脏病史也可能影响心脏病的发病率[7,8]。这些临床试验的结果表明,推荐剂量(0.5-1.5戈瑞)可使肺癌增加9%。由于电离辐射的可能影响之一是致癌性,因此没有定义其发生的阈值,但放射生物学中的另一个问题是电离辐射的风险-收益。由于上述临床研究未发现放射毒性,因此LDRT似乎是安全的;然而,需要更多的临床研究来证明这一说法。我们不应匆忙推荐使用低剂量滴滴涕作为COVID-19的辅助治疗。为了对LDRT治疗COVID-19的可行性和疗效做出明确的评价和评价,我们需要更多的临床研究。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Low-Dose Radiation Therapy to Treat COVID-19: Results of the First Phase of Clinical Trials
Using low-dose radiation therapy (LDRT) to treat inflammation, pneumonia, and coronavirus disease 2019 (COVID-19) has been investigated. Results have revealed that LDRT can improve inflammation in different line cells, animals, and humans. It was demonstrated that LDRT with a single dose (0.3-1 Gy) to the lungs could treat pneumonia resulting from COVID-19 by avoiding normal tissue toxicities. These suggested values of doses are obtained from the historical use of ionizing radiation for pneumonia [1]. A clinical study recently treated five patients with COVID-19 in the age range of 64-96 years; the lungs of these patients were exposed to 1.5 Gy of radiation in one fraction. Results showed that their respiratory conditions were quickly improved in four patients in the first 24 hours of exposure. The results of blood tests and imaging also confirmed the positive effect of LDRT on COVID-19 treatment [2]. Short course results of another study carried out on five patients with COVID-19 aged over 60 years, who underwent national COVID-19 therapy protocols, showed that using 0.5 Gy of radiation in one fraction led to the improvement of four patients in the first few days after exposure. Apart from that, they were discharged from the hospital with an average of 6 days, and no radiation toxicity was observed in them [3]. Another clinical investigation has used LDRT on nine patients to treat COVID-19. In this study, patients received 1 Gy to total lungs, and the SatO2/FiO2 index of these patients was evaluated. Results showed that this index significantly improved 72 hours and one week after LDRT, and inflammation of the lungs decreased one week after radiation therapy. Compared to patients who did not receive LDRT, the median days of hospitalization of patients who received LDRT was reduced by approximately one-fifth. Among these patients, seven were discharged, and two patients died [4]. The incidence of cancers such as lung, esophagus, and breast is one of the controversial subjects surrounding the use of LDRT in COVID-19 treatment. According to the Biological Effects of Ionization Radiation VII (BEIR VII) model, the risk of lung cancer was estimated for patients with COVID-19 whose lungs were irradiated to 0.5 Gy. The incidence of lung cancer can increase by 0.84% and 2.3% for males and females aged above 60 years, respectively. On the other hand, for young patients aged 25 years, the incidence of lung cancer was estimated at 1.1% and 3% for males and females, respectively [5]. According to this model, with an increase in the dose received by the lungs, the risk of lung cancer increases linearly; therefore, the incidence of lung cancer for patients whose whole lung receives a dose of 1.5 Gy will be three times for those who have received a dose of 0.5 Gy [6]. Based on these results, exposure of the lungs to the dose in the range 0.5-1.5 Gy can increase the risk of lung cancer up to 9% and 7% for female patients and 3.3% and 2.5% for male patients aged 25 and 65, respectively. Of course, it should be noted that smoking should be considered in estimating the risk of lung cancer in addition to the radiation factor. Besides the lungs, the heart and esophagus may also be exposed to radiation, increasing the risk of esophageal cancer and heart disease. Nevertheless, blood factors, smoking, and a history of heart disease can be influential in the incidence of heart disease in addition to radiation [7,8]. Results of these clinical trials have shown that the recommended dose (0.5-1.5 Gy) can increase lung cancer up to 9%. As one of the possible effects of ionizing radiation is carcinogenicity, no threshold has been defined for its occurrence, but another issue in radiobiology is the risk-benefit of ionizing radiation. As no radiation toxicities were reported in the said clinical studies, it seems that LDRT is safe; however, more clinical studies are needed to prove this claim. We should not hastily recommend the use of LDRT as an adjuvant treatment for COVID-19. To make a definite comment and evaluate the feasibility and efficacy of LDRT to treat COVID-19, we need more clinical studies with many patients.
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