Development of long-term radiation effects in rats after whole-body fractionated gamma-irradiation

Albino male rats were divided into four groups and exposed to gamma-radiation (137Cs) for 80, 40, 20 and 10 days at dose rates of 0.25, 0.5, 1.0 and 2.0 Gy/day, respectively. The development of lesions and remote aftereffects was shown to depend upon conditions of formation of the absorbed dose. With fractionated irradiation at dose rates above 1.0 Gy/day the dose-rate played a major role in producing the effect.     

HZE radiation effects for hereditary renal carcinomas.

Eker rat known as a model of hereditary renal carcinoma (RC) is an example of Mendelian dominantly inherited predisposition to a specific cancer in experimental animals. We investigate the effects of simulated space radiation on carcinogenesis using HIMAC. We estimated RBE from the Eker rats exposed to the heavy-ions, C (290 MeV/u) and Fe (500 MeV/u) ions, comparing to the effects of X-ray irradiation. Pregnant rats were exposed to C and Fe ions and X-rays with a single dose of 1 Gy, 2 Gy, 3 Gy on day 19 of gestation. The offspring were sacrificed at 8 weeks of age. We evaluated organ weights and tumor genesis. The weights of thymus, lung, liver, spleen were found to be no difference from the control at 1 Gy irradiation but 50% decrease at 3 Gy irradiation. We found in the irradiated animal that kidney, brain and testis were very sensitive organs of which the weight decreased to approximately 80% at 1 Gy and to 40% at 3 Gy irradiations. Based on the dose-response relationship of the radiation-induced carcinoma, averaged RBE ware calculated to be 1.1 for C-ion, 1.6 for Fe-ion.     

Nonstochastic effects of different energy beta emitters on pig skin

Circular areas of pig skin from 1- to 40-mm diameter were irradiated with beta emitters of high, medium, and low energies, 90Sr, 170Tm, and 147Pm, respectively. The study provides information for radiological protection problems of localized skin exposures. During the first 16 weeks after irradiation 90Sr produced a first reaction due to epithelial cell death followed by a second reaction attributable to damage to the dermal blood vessels. 170Tm and 147Pm produced the epithelial reaction only. The epithelial dose response varied as a function of beta energy. The doses required to produce moist desquamation in 50% of 15- to 22.5-mm fields (ED50) were 30-45 Gy from 90Sr, approximately 80 Gy from 170Tm, and approximately 500 Gy from 147Pm. A model involving different methods of epithelial repopulation is proposed to explain this finding. An area effect was observed in the epithelial response to 90Sr irradiation. The ED50 for moist desquamation ranged from approximately 25 Gy for a 40-mm source to approximately 450 Gy for a 1-mm source. The 5-, 9-, and 19-mm 170Tm sources all produced an ED50 of approximately 80 Gy, while the value for the 2-mm source was approximately 250 Gy. It is also suggested that the area effects could be explained by different modes of epithelial repopulation after irradiation. After high energy beta irradiation repopulation would be mainly from the field periphery, while after lower energy irradiation repopulation from hair follicle epithelium would predominate.     

Effect of gamma-irradiation on some biological activities of the larval stage of the khapra beetle, Trogoderma granarium Everts (Col., Dermestidae)

Abstract: The present study was carried out on the larval stage of the khapra beetle, Trogoderma granarium Everts to determine some biological effects of gamma irradiation at levels between 20 to 100 Gy on various aspects of larval behaviour such as number of moults, developmental time, larval growth, starvation and mortality, pupal promptness in addition to larval density. Larval mortality of 92.5% was obtained by treating with 80 Gy and no larva lived after an exposure of 100 Gy or more. With increasing doses from 40 Gy or more, half of the male and female larvae had six moults as compared with three to five moults in the control. The larval duration increased gradually and reached 40.2 days for male larvae and 44.2 days for female ones at a dose of 80 Gy as compared to 25.2 and 28.3 days, respectively, for the control. Larvae irradiated with 60 and 80 Gy did not feed as much as those irradiated at 20 and 40 Gy or the control group. A negative correlation was observed between increasing dosage levels and reduction in the fresh body weight of larvae. The highest larval starvation of 79.8% occurred at 80 Gy and the least (23.8%) at 20 Gy. Pupal promptness seems to be lower at the higher radiation doses. With 40, 60 and 80 Gy, approximately 69.5, 19.6 and 7.5%, respectively, of the larvae succeeded in pupation compared with 94.6% in the control. High doses of radiation seem to enhance the production of males. An increase of larval density enhances the effects of radiation doses to retard the developmental time, to increase larval and pupal mortality and to reduce adult eclosion.     

碳离子辐照对四尾栅藻光合色素及抗氧化活性的影响

为了探讨重离子辐照对微藻的生物学效应,实验研究了不同剂量碳离子辐照（10~80 Gy）对四尾栅藻（Scenedesmus quadricauda）光合色素及抗氧化活性的影响,分别测定了辐照后短期内其叶绿素a（Chl a）、叶绿素b（Chl b）和类胡萝卜素含量、脂质过氧化物丙二醛(MDA)含量及超氧化物歧化酶（SOD）活性。结果显示：(1)较低剂量（10~20 Gy）辐照后,光合色素含量变化较小或无显著变化,中等剂量（40~60 Gy）辐照后,光合色素含量显著升高,之后又回落,恢复至正常水平,高剂量（80 Gy）辐照后,光合色素含量明显降低,不能恢复正常;(2)低剂量（10 Gy）辐照后,丙二醛（MDA）含量显著上升,8 h后出现回落,到24~48 h时,回升至正常水平,较低剂量（20 Gy）辐照后,MDA含量瞬时有所下降,到24~48 h时,回升至正常水平,中等至高剂量（40~80 Gy）辐照后,MDA含量降低,24~48 h时显著升高,不能恢复正常;(3)低剂量（10 Gy）辐照后,超氧化物歧化酶（SOD）活性显著上升,8 h后出现回落,恢复正常,中等剂量（20~60 Gy）辐照后,SOD活性显著上升,到48 h时回落至正常水平,高剂量（80 Gy）辐照后,SOD活性无明显上升,到48 h时,活性明显降低,不能恢复正常。     

Radiation-induced hydronephrosis in the rat: a new experimental model

An experimental model for investigating the effects of localized X-irradiation of a single ureter or the bladder trigone in rats is described. Obstruction of the urinary tract in the irradiated region gives rise to hydroureter and hydronephrosis and the development of these, as detected urographically, gives a clear-cut end point. After irradiation of the ureter with a single dose of 37.4 Gy many rats died of gut lesions but after 23.4 Gy only one such death occurred while 14 of 16 rats developed hydronephrosis. Irradiation of the bladder trigone was not associated with intercurrent deaths, even after 40 Gy, and after 25 Gy 9 of 11 rats developed hydronephrosis.     

Enhanced body radioresistance resulting from the transfusion of autologous blood irradiated with low doses of ionizing radiation]

Preliminary administration of autogenic blood irradiated in vitro with ionizing radiation in small doses of 0.05, 0.3 or 0.5 Gy resulted in a pronounced increase in the radioresistance of mice [correction of rats] subsequently irradiated in a dose of 9 Gy. The optimum was autotransfusion of blood irradiated in a dose of 0.3 Gy a day or 10 days prior to the total irradiation which increased the survival rate of experimental animals to 80% while, in control groups, the survival rate was only 10%.     

Evaluation of toxemia and peripheral blood indices in dogs irradiated with large doses

Toxemia and peripheral blood of dogs were studied after irradiation with doses of 2.9, 10, 40, and 80 Gy. Destructive changes were revealed in the blood part of which could not be counted by conventional methods. Toxemia was well pronounced as early as 3 h after irradiation with high doses.     

The effects of gamma irradiation on the survival and development of Clonorchis sinensis metacercariae

The effects of gamma irradiation on the survival and development of C. sinensis metacercariae were studied to evaluate the feasibility of irradiation as a control measure for clonorchiasis. Pseudorasbora parva were collected at an endemic river of clonorchiasis and were used for irradiation of the fluke in three schemes. The first (Scheme 1) was irradiation of the isolated metacercariae from the fish followed by infection to experimental rats. The second (Scheme 2) was irradiation of the fish, and then the metacercariae were isolated and infected to rats. The third (Scheme 3) was irradiation on the rat livers after infection with normal metacercariae. Irradiation doses varied from 5 to 100 Gy for Schemes 1 and 2, and 10 to 25 Gy for Scheme 3. The rats were sacrificed 2 to 6 weeks after infection. In Scheme 1, the metacercariae irradiated at 50 Gy failed to survive in the rats after 2 or 6 weeks. However, 1 to 44% of the metacercariae irradiated at 5-30 Gy survived. The estimated LD50 of Scheme 1 was 16.5 Gy. The flukes irradiated in Scheme 2 survived better than those in Scheme 1. The average worm recovery rate in 50 Gy was 28%(7-39% individually). Increasing the dose up to 100 Gy brought a remarkably low survival rate of an average 1%(0-3% individually). The LD50 of Scheme 2 was 47.5 Gy. Worm recovery rates in the 10 Gy group of Scheme 3 were 21-39%, and those in the 25 Gy group were 2% and 34%. Although the metacercariae were irradiated, all of the recovered worms were morphologically normal.(ABSTRACT TRUNCATED AT 250 WORDS)     

The reparative regeneration of the endothelium of the mouse aorta during microsurgical interventions following local gamma irradiation (based on scanning electron microscopic data)

In experiments with rats, abdominal aorta was subjected to microsurgical anastomosis after local irradiation with doses of 40 and 50 Gy. Irrespective of the time interval between the operation and irradiation the iatrogenic defect was restored completely. With the operation performed 24 h after irradiation the platelet adhesion decreased, the proliferation was inhibited depending on radiation dose, and the pattern of the endotheliocyte migration changed. The above effects were absent with the operation performed one month after irradiation.     

Performance of some elite potato cultivars under abiotic stress at North Sinai

The current experiment was adopted during the summer 2018, fall 2018/2019 and summer 2019 respectively at the Experimental Farm of Baloza station, Desert Research Center. North Sinai Governorate, Egypt to study the effect of different doses of irradiation (0, 20, 30 and 40 Gy), three irrigation levels (100, 80 and 60% field capacity on growth, yield and its quality of some potato cultivars (Spunta, Cara, Caruso and Hermes). Treated Spunta cultivar pre planting with 20 (Gy) and irrigated with 80% field capacity was the best treatment for increasing number of aerial stem/plants, leaf area, total chlorophyll in leaves, average tuber weight, and total yield/fed. Hermes cultivar with 20 (Gy) and irrigation level of 80% was the best for increasing dry matter content in tuber in both mutagenic generations.     

Motor activity of rats after gamma irradiation in large doses

In experiments on 80 Wistar male rats their motor activity was studied using "Optovarimex" device which permitted to register the position of animals in space. The rats were subjected to total-body gamma-irradiation with doses of 6.5, 13, 50 and 100 Gy. The motor activity was studied 1, 24, 72 and 96 h following irradiation. Inhibition of the motor activity of animals was shown to depend upon radiation dose.     

The dosage thresholds for disordered physical work capacity in mice and rats following irradiation

Physical efficiency of mice and rats at early times following irradiation with doses of 35 to 200 Gy was estimated by the muscle endurance and motor coordination indices. A threshold nature of the effects was exhibited at high doses. For instance, as large as 40 Gy was the dose threshold at which stability in the accomplishment of the known operations was impaired; at 70-100 Gy, the accomplishment decreased down to 50% of the initial level, by the 2nd hour after irradiation, with the subsequent partial restoration; 200 Gy was the threshold dose at which the disturbances were irreversible. These values were also similar to those of the threshold doses at which clinical picture of the affection was changed.     

Effect of x-irradiation on growth and the expression of parathyroid hormone-related peptide and Indian hedgehog in the tibial growth plate of the rat

AIM: To study the effect of irradiation on the longitudinal growth and the expression of parathyroid hormone-related peptide (PTHrP) and Indian hedgehog (IHh) in tibial growth plates of rats. METHODS: At 3 weeks of age, 30 male rats received a single fraction of irradiation (8 Gy) to their right hind limb, and small groups of animals were sacrificed 1, 2, 3, 5, 7, 10, 15, and 26 weeks after irradiation. Weight and length of both irradiated and nonirradiated tibiae were measured, and sections of the tibiae were stained with HE. PTHrP and IHh were visualized using immunohistochemical techniques. RESULTS: Radiation resulted in persistent growth delay of the irradiated tibiae, with a difference in length of more than 10% between the irradiated and the nonirradiated tibiae 15 weeks or more after irradiation. The growth plate architecture was disturbed, and the expression of both PTHrP and IHh was decreased in the irradiated tibiae. CONCLUSION: As PTHrP and IHh are key regulators of both the pace and the synchronization of the differentiation of growth plate chondrocytes, the reduced expression of PTHrP and IHh may contribute to the changes found after irradiation.     

不同剂量x射线对大鼠精子CRISP2mRNA表达水平的影响

目的：观察不同剂量x射线对大鼠精子CRISP2mRNA表达水平的影响,探讨其在电离辐射所致大鼠精子功能改变中的作用。方法：用吸收剂量为1、2、4、和6Gy的x射线分别照射活体SD大鼠的外生殖系统1…4812、24h后,用PCR技术检测精子CRISP2基因mRNA表达水平;用光学显微镜观察精予活力。以未照射组为对照。结果：4、6GyX射线照射不同时间（1、4、8、12、24h时）后大鼠精子的CRISP2mRNA相对表达量均较对照组显著下降（P．〈0．05）,其中6Gb,照射24小时后相对表达量最低（P〈0．01）,而4Gy照射组与6Gy照射组相比较差异无统计学意义（P〉0．05）;2Gyx射线照射8h后CRISP2mRNA相对表达量下降有统计学意义（P〈0．05）;2GyX射线照射1、4h后及1GyX射线照射不同时间（1、4、8、12、24la）后大鼠精子的CRISP2mRNA相对表达量较对照组下降,但差异无统计学意义（P〉O．05）。1、2GyX射线照射不同时间（1、4、8、12、24小时）及4GyX射线照射（1、4、8h）后,精子活力与正常对照组相比无明显改变（P〉0．05）;4GyX射线照射12、24h后大鼠精子活力显著低于正常对照;6GyX射线照射不同时间（1、4、8、12、24h）后,精子活力明显低于对照组（P〈0．05）。结论：不同剂量X射线照射不同时间可导致SD大鼠精子活力下降,这可能与其下调CRISP2基因的mRNA表达水平有关。     

Effects of dexamethasone on late radiation injury following partial-body and local organ exposures.

Dexamethasone was evaluated as a treatment for radiation-induced lung, kidney, liver, and spinal cord injuries in rats. One experimental group was partial-body-irradiated (22.5 Gy) with the head, femur, and exteriorized intestine shielded to prevent acute mortality. Other animals received local irradiation to the kidney (20 Gy), liver (25 Gy), or a 1-cm segment of cervical spinal cord (18 to 40 Gy). Following irradiation half of the animals in each radiation group were given drinking water containing 188 micrograms/liter of dexamethasone. Tests were done to assess kidney function (hematocrit, plasma urea nitrogen, ethylenediaminetetraacetic acid clearance), liver function (rose bengal clearance, plasma glutamic oxaloacetic acid transaminase), or spinal cord injury (paralysis). The effectiveness of dexamethasone in preventing radiation injury was tissue specific. Dexamethasone eliminated lethal pleural fluid accumulation after partial-body irradiation and delayed development of kidney dysfunction after local kidney irradiation. As a result, dexamethasone increased the median survival time from 63 to 150 days after partial-body irradiation and from 126 to 175 days after local kidney irradiation. After whole-liver irradiation, development of hepatic functional injury was retarded by dexamethasone treatment but without significantly changing survival time. Dexamethasone had no effect on spinal cord tolerance but significantly shortened the latent period between radiation and paralysis.     

Survival after total-body irradiation. I. Effects of partial small bowel shielding

The small intestine of the rat was shielded during total-body irradiation (TBI) to evaluate the effects of radiation dose and length of intestine shielded on survival. Sprague-Dawley rats were anesthetized in groups of 10. Using aseptic surgical procedures 80, 40, 20, or 10 cm, or none of the proximal or distal small intestine were temporarily exteriorized and shielded during irradiation with photons from an 18 MeV linear accelerator. Less than 17% of the dose was delivered to the shielded intestines. In unshielded animals deaths occurred from Days 4 to 6 with 13, 15, or 17 Gy and from Days 8 to 30 with 9, 11, and 12 Gy. However, in all animals exposed to 15 Gy with all or part of the small intestine shielded, survival was increased to between 5 and 9 days. Shielding of the distal small intestine was more effective in prolonging survival than shielding of the proximal small intestine. The previously identified target of radiation damage in the small intestine is the crypt stem cell. In this study, the analysis of histological specimens of shielded and irradiated small intestine suggested that humoral factors also influence intestinal histology and survival after irradiation. These humoral factors are thought to originate from the irradiated body tissues, the shielded proximal intestine, and the shielded distal intestine. Further studies are required to identify these factors and to determine their mode of action and their therapeutic potential after radiation damage to the small intestine.     

Effects of gamma-irradiation on the infectivity and chromosome aberration of Clonorchis sinensis

Effects of gamma irradiation on the worm survival and chromosomal aberration of Clonorchis sinensis were studied. The metacercariae irradiated with various amounts of gamma radiation (ranging from 5 Gy to 50 Gy) were fed to rats, and the effects were compared with those of non-irradiated controls. Recovery rates of adult worms in irradiated groups were reduced gradually as increasing of the irradiation doses. No worm was recovered from rats which were fed with 50 Gy irradiated metacercariae. The chromosome number was 2n = 56 in all worms from all experimental groups. However, the groups irradiated with 20 Gy, 25 Gy or 30 Gy showed variations in the chromosome number, depending on different cells in the same individual. Radiation doses used in this study did not appear to induce chromosome aberrations, however, irradiation with 30 Gy showed slightly reduced chromosome size.     

Radiomodifying properties of the synthetic analog of prostaglandin F2 alpha-estrofan

Estrofan (0.1 to 5 mg/kg) administered to rats and mice 5 min prior to gamma irradiation with doses of 8.5 to 9.5 Gy (LD90/30) increases the survival rate up to 30-40 per cent. The drug is ineffective when administered 30 and 60 min before irradiation.     

Response of avian embryonic brain to spatially segmented x-ray microbeams.

Duck embryo was studied as a model for assessing the effects of microbeam radiation therapy (MRT) on the human infant brain. Because of the high risk of radiation-induced disruption of the developmental process in the immature brain, conventional wide-beam radiotherapy of brain tumors is seldom carried out in infants under the age of three. Other types of treatment for pediatric brain tumors are frequently ineffective. Recent findings from studies in Grenoble on the brain of suckling rats indicate that MRT could be of benefit for the treatment of early childhood tumors. In our studies, duck embryos were irradiated at 3-4 days prior to hatching. Irradiation was carried out using a single exposure of synchrotron-generated X-rays, either in the form of parallel microplanar beams (microbeams), or as non-segmented broad beam. The individual microplanar beams had a width of 27 microm and height of 11 mm, and a center-to-center spacing of 100 microm. Doses to the exposed areas of embryo brain were 40, 80, 160 and 450 Gy (in-slice dose) for the microbeam, and 6, 12 and 18 Gy for the broad beam. The biological end point employed in the study was ataxia. This neurological symptom of radiation damage to the brain developed within 75 days of hatching. Histopathological analysis of brain tissue did not reveal any radiation induced lesions for microbeam doses of 40-160 Gy (in-slice), although some incidences of ataxia were observed in that dose group. However, severe brain lesions did occur in animals in the 450 Gy microbeam dose groups, and mild lesions in the 18 Gy broad beam dose group. These results indicate that embryonic duck brain has an appreciably higher tolerance to the microbeam modality, as compared to the broad beam modality. When the microbeam dose was normalized to the full volume of the irradiated tissue. i.e., the dose averaged over microbeams and the space between the microbeams, brain tolerance was estimated to be about three times higher to microbeam irradiation as compared with broad beam irradiation.