Cytogenetic effects in children exposed to low doses of ionizing radiation

The obtained data indicate that frequencies of different types of cytogenetic anomalies in investigated children groups living in radionuclide contaminated territories and children irradiated in utero have complicated patterns. The frequency of chromosomal anomalies in the investigated groups of children exceeds the average population level. At the same time, no statistically significant differences in frequencies of various types aberrations between groups of children were revealed.     

Extended exposure of adult and fetal mice to 50 Hz magnetic field does not increase the incidence of micronuclei in erythrocytes.

The flow cytometer-based micronucleus assay was used to study the effects on chromosomes in erythroid cells of CBA/Ca mice after extended exposure to 50 Hz magnetic field (MF), 14 microT, peak-to-peak (p-p). The study included two different experiments: (a) mice exposed in utero during 18 days of their prenatal stage, and (b) adult mice exposed for 18 days. In experiment (a) 35 days after exposure was terminated, peripheral blood was drawn from the mice exposed in utero to determine whether the exposure had a genotoxic effect on the pluripotent erythroid stem cells. About 200000 polychromatic erythrocytes (PCE) and 200000 normochromatic erythrocytes (NCE) were analysed from each of 20 exposed mice. The EMF exposure did not significantly change the frequency of micronucleated PCE or NCE in comparison with 20 sham-irradiated mice. There was no difference in the proportion of PCE between exposed and unexposed animals. Similarly, in experiment (b) no differences were seen between EMF exposed and unexposed adult mice when samples of peripheral blood were taken at the end of exposure and analyzed for micronuclei in PCE and NCE. The proportion of PCE was the same in both groups. The results indicate that exposure to EMF does not induce direct or indirect effects on chromosomes in erythroid cells expressed as increased levels of micronucleated erythrocytes of mice. No indications of delayed genetic effects were found.     

Electromagnetic fields of millimeter range: effect on the structure and functional properties of erythrocyte membranes

The effect of coherent and non-coherent electromagnetic fields of millimetre range on biophysical and biochemical indices of blood erythrocytes and plasma of the animals totally exposed to radiation at various periods of observation (day 1, 5, 10) was studied. The following structure-functional shifts were revealed: deviations in the content of separate phospholipid fractions of erythrocyte membranes, the changes of lipid peroxidation products in erythrocyte membranes and blood plasma of the irradiated animals, statistically significant increase of K ions out-flow from the erythrocytes, as well as the alteration of the value of membrane potential of erythrocytes.     

Ontogenetic changes of circulating erythroid cells and haemoglobin components in Esox lucius

Using light microscopy the morphology, the mitotic index and levels of erythroid cell types were detected from 48 h pike Esox lucius embryos before hatching to adult specimens. At the same developmental stages, the haemoglobins and globin chains expressed were electrophoretically characterized. The erythroid cells of the primitive generation were the most abundant from 48 h before hatching until 15–20 days after hatching, then their number decreased and only rare cells remained in the 3 month‐old juvenile specimens. These cells divided and differentiated in the blood and were substituted by the definitive erythrocyte series. As in other vertebrates, the immature cells of the two generations differed in morphological properties and in the synthetized haemoglobin. The circulating erythroid cells of the definitive population cell lineage were, at all differentiation stages, smaller than those of the primitive generation. The definitive erythrocytes appeared in blood smears of 7 days post‐hatching larvae, they increased rapidly and at 20 days they represented the predominant red blood cell population in the circulation of young pike. Electrophoretic analysis of haemolysates obtained from different developmental stages indicated the presence of distinct embryonic, larval and adult haemoglobins. The embryonic haemoglobins differed from those of the older larva and juvenile specimens and were detectable within the first week of post‐hatching development when only primitive erythrocytes were present in the blood.     

Seasonal activity of frog erythrocytes by data of electrophoretic mobility

The peculiarities of frog erythrocyte electrophoretic mobility, coupled to the seasonal course of temperatures, have been studied. At the periods of anabiosis and of burst of hemopoiesis, in the vascular bed there increases the portion of functionally young erythrocytes (up to 22%) with increased values of the cell membrane surface charge. Preparation to winter is accompanied by a rise of the number of circulating functionally worn-down blood cells (up to 60%) with low values of the superficial charge and low mobility in electrical field. Use of the cell microelectrophoresis method of evaluation of seasonal activity of frog erythrocytes allows obtaining objective data about the cellular surface charge and its depending functional cell activity without submitting the erythrocytes to modifying actions.     

Luminol assay for microdetermination of superoxide dismutase activity: its application to human fetal blood

A microtechnique for determining the superoxide dismutase activity in erythrocytes is described. This technique involves the inhibition of luminol-enhanced chemiluminescence of superoxide anion generated by xanthine-xanthine oxidase. Measurements required a steady-state chemiluminescence whether superoxide dismutase was present or absent; the level of luminescence was correlated to enzyme activity. Superoxide dismutase activity measured by this technique was 836 +/- 112 micrograms/g of hemoglobin for whole blood and 834 +/- 109 micrograms/g of hemoglobin for erythrocytes. When the reference technique was applied to larger amounts of blood, the results were 862 +/- 58 and 858 +/- 116 micrograms/g of hemoglobin for whole blood and washed erythrocytes, respectively. The enzymatic activity of superoxide dismutase from fetal blood (obtained by venipuncture in utero and of 19-26 weeks gestational age) was similar to that of adult blood, when measured by the new technique.     

Spontaneous and benzo[a]pyrene-induced micronuclei in the embryos of the black-headed gull (Larus ridibundus L.)

The spontaneous levels of micronuclei in erythrocytes were established in embryos of the black-headed gull of two natural populations. In total 216 blood samples from the same number of individuals were examined. A statistically significant decrease in the number of spontaneous micronucleated erythrocytes was found after 13 days of incubation. We found no statistically significant difference in the spontaneous frequencies of micronucleated erythrocytes in the embryos of the two colonies studied, although they differed in anthropogenic load. Results of analysis of variance indicated that egg incubation time was the only variable significantly (P=0.0001) affecting spontaneous frequency of micronucleated erythrocytes in the embryos of black-headed gulls. We also took 78 eggs of different developmental stages from both colonies and exposed them for a further 24h to a dose of benzo[a]pyrene (30 microg per egg). After exposure to benzo[a]pyrene, the frequency of micronucleated erythrocytes was not increased in the embryos incubated for a total period of 13 days. A statistically significant increase in the number of micronucleated erythrocytes was recorded in the benzo[a]pyrene-treated embryos incubated for a total period of 14 days. Decrease in numbers of spontaneous micronucleated erythrocytes after the 13 day of incubation and increased levels of benzo[a]pyrene-induced micronuclei after the 13 day of incubation were discussed to be caused by changes in spleen and liver function in advanced developmental stages of the embryo.     

Gamma ray induced genetic changes in different organs of chick embryo using peripheral blood micronucleus test and comet assay

Ionizing radiation is known to produce a variety of cellular and sub cellular damage in both prokaryotic and eukaryotic cells. Present studies were undertaken to assess gamma ray induced DNA damage in different organs of the chick embryo using alkaline comet assay and peripheral blood micronucleus test. Further the suitability of chick embryo, as an alternative model for genotoxicity evaluation of environmental agents was assessed. Fertilized eggs of Rhode island red strain were exposed to 0.5, 1 and 2 Gy of gamma rays delivered at a dose rate of 0.316 Gy/min using a ⁶⁰Co teletherapy machine. Peripheral blood smears were prepared from 8- to 11-day-old chick embryos for micronucleus test. Alkaline comet assay was performed on 11-day-old chick embryos in different organs such as the heart, liver, lung, blood, bone marrow, brain and kidney.Analysis of the data revealed a significant increase in the frequency of micronucleated polychromatic erythrocytes, micronucleated normochromatic erythrocytes and total micronucleated erythrocytes in the peripheral blood of gamma irradiated chick embryos at all the doses tested as compared to the respective controls. The polychromatic to normochromatic erythrocytes ratio which is an indicator of proliferation rate of hematopoetic tissue, decreased in the irradiated groups as compared to the controls. Data obtained from comet assay, clearly demonstrated a significant increase in DNA strand breaks in all the organs of irradiated chick embryos as compared to the respective controls. However, maximum damage was observed in the heart tissue on all the doses tested, followed by kidney, brain, lung, blood and liver. The lowest damage was observed in the bone marrow tissue. Both micronucleus test and comet assay were found to be suitable biomarkers for the evaluation of genotoxicity of gamma radiation in the chick embryo.     

Studies on blood morphology in the European eel (Anguilla anguilla). I. Erythrocytes and their developmental stages]

By means of heart tapping we produced a larger loss of blood in the European eel, Anguilla anguilla. This resulted in enriching the peripheric blood with erythroblasts and proerythrocytes. By panoptic staining erythroblasts, proerythrocytes and mature erythrocytes could be prepared and described. By the aid of supravital staining it was possible to detect mitochondria and Substantia granulofilamentosa in all stages of development. Phase contrast observations proved that the erythrocytes of Anguilla anguilla do not possess any locomotion ability. Cytochemical investigations showed that the erythrocytes weakly or very weakly react to acid phosphatases, lipids and ribonucleic acids and positively to unspecific esterases. The artificially produced loss of blood and the following continuous extraction of blood gave indications of how rapidly the erythrocytes form and how much time their maturing takes. 48 hours after tapping erythroblasts appeared in large amounts. The number of proerythrocytes increased 24 hours later. The transformation of proerythrocytes into mature erythrocytes does not take more than 48 hours. The loss of erythrocytes caused by heart tapping is already compensated six days later by new growth. During this investigation division processes in erythrocytes were observed. These are endomitotic or amitotic division or mitotic ones which are very rarely observed.     

Role of age at the moment of irradiation on the induction of tumors

The probability that rats develop tumours following a 3 Gy exposure to gamma rays from cobalt 60 was observed to depend on age at exposure. Lifetime excess of neoplasia decreased by a factor of about 10 in 9-month-old rats as compared to animals irradiated in utero. The 3-month age group developed slightly fewer tumours than the group irradiated in utero, and tumour location was different. The higher incidence of tumours observed in the foetal group was mainly due to the high sensitivities of central nervous system and gonads during organogenesis.     

Assessment of hematologic indices and their correlation to hemoglobin A1c among Bosnian children with type 1 diabetes mellitus and their healthy peers

BackgroundAltered levels of many hematological parameters have been directly associated with diabetes in adults, while studies on children with type 1 diabetes mellitus are lacking. The aim of this study was to determine hematological indices in diabetic Bosnian children in comparison to healthy controls as well as to correlate their levels to blood glucose and hemoglobin A1c.Methods100 healthy and 100 children with type 1 diabetes mellitus (age 1-18) were included in this study. Complete blood count, hemoglobin A1c, and glucose were tested. Results were analysed by IBM SPSS Statistics version 23.ResultsSignificant differences (p<0.05) between healthy and diabetic children were found in relation to HbA1c, glucose, mean platelet volume, the number of white blood cells and erythrocytes, hematocrit, hemoglobin and MCH values. No gender differences or significant age differences were seen for hemoglobin, hematocrit, and MCV, while platelets, MPV, and MCH differed by age only in healthy children. When diabetic children were classified according to HbA1c levels, significant differences were seen for erythrocyte count and hematocrit value (p=0.013 and 0.019, respectively). The number of erythrocytes and white blood cells correlated significantly with HbA1c (p=0.037 and 0.027, respectively).ConclusionsLower levels of erythrocytes, hematocrit, and hemoglobin in diabetic compared to healthy children indicate possible development of anemia, while higher MCV, MCH, and MPV values indicate an alteration in erythrocyte morphology. Hematological indices could be a useful inexpensive tool in the diagnosis and follow up of type 1 diabetes in children.     

The problem of induced genome instability as the basis of the increased morbidity in children exposed to low-intensity radiation at low doses

The main results of the complex examination of the genome instability are presented in children constantly living on territories contaminated with radionuclides as a result of the accident at the CNPP (Novozybkov district, Bryansk region, 16-18 Ci/km2, 137Cs) and in children exposed to low-intensity radiation at different stages of ontogenetic development: children exposed to postnatal irradiation in 1986 (born before the accident), children exposed to intrauterine irradiation during the accident in 1986, children of irradiated parents born after the accident in 1987-1992 and in 1994-2000. In all examined groups of irradiated children increased frequencies of certain radiation-induced chromosome aberrations were observed as well as a reduced activity of unscheduled synthesis of genomic DNA in lymphocytes and peculiarities in individual heterozygosity of genes encoding structural and enzymatic proteins of blood. An increased radiosensitivity of lymphocyte genomes to testing in vitro irradiation and peculiarities in the dynamics of the frequencies of chromosome aberrations and sister chromatid exchanges in 3 cell generations were revealed in children from the contaminated areas. The data obtained suggest a systemic character of dysgenomic effects, the reality of induction of genome instability in the growing organism of children exposed to low-intensity radiation at low doses the expression of which is determined by individual genotypic features of the organism. Biological significance of the phenomenon of the post-radiation genome instability, its relation to the state of health and the pathogenetic role in the development of somatic pathology are postulated.     

Fusion of erythrolysosomes in epithelial cells of the sheep placenta

Summary In trophoblastic epithelial cells of the sheep placenta the breakdown of erythrocytes within complex erythrolysosomes was studied at the ultrastructural level.It was found that the formation of complex erythrolysosomes containing from two to several erythrocytes as a result of fusion of erythrolysosomes within the epithelial cells was a common occurrence when the epithelial cells engulfed a large number of erythrocytes. The erythrocytes enclosed in complex erythrolysosomes appear to be either in the same or in different stages of hemolysis.In the process of breakdown of erythrocytes within complex erythrolysosomes five successive stages of hemolysis could be distinguished. Acid phosphatase activity was demonstrated in the complex erythrolysosomes and appeared to be located in the angular interspaces between the erythrocytes and the lysosomal membrane. The fragmentation of complex erythrolysosomes with formation of small hemoglobin-containing lysosomes also occurred.The fusion of erythrolysosomes with formation of complex erythrolysosomes can be considered as an additional mechanism in the process of erythrocyte breakdown in the epithelial cells of the sheep placenta.     

Neutron irradiation of late mouse embryos (15-19 days) in utero

Pregnant female C57B1/6 mice were irradiated with a single whole-body dose of 0.5 Gy neutrons. The F1 hybrid embryos were exposed to the neutrons in utero on Day 17 +/- 2 of gestation. 178/439 (40.6%) of the irradiated fetuses and 26/217 (12%) of the control mice died within 2 weeks after birth. In both irradiated and control mice, most deaths (95 and 77%, respectively) occurred within 3 days of birth: most animals in both groups died on Day 2. There was no significant difference in the number of living young born per litter (7.2) between the neutron-irradiated mothers and their unirradiated controls. The irradiated mice weighed significantly less than their controls. On the first day after birth, body weights of mice irradiated in utero averaged only 85% of control weights. Body weights did not reach control levels until 6 months after birth. Several organs were weighed at regular intervals in both irradiated and control mice. Spleens and thymus glands showed no significant differences between the two groups. The livers and kidneys of the irradiated mice weighed slightly less than their controls. The brain weight of 21-day-old neutron-irradiated mice was 30-35% less than control brains. The weight loss of the brain was not only a relative loss, but also an absolute one, based on brain weight/body weight ratios. Histological analysis of the central nervous system showed pycnotic nuclei, inhibition of mitosis in neuroblasts, and cell death in the irradiated brains. The weight reduction of the brain was not due to water loss. Our hypothesis is that the early mortality after birth is related to the killing of the radiation-sensitive neuroblasts. When newborn mice (1-7 days old) were irradiated in vivo with the same neutron dose of 0.5 Gy, neither the reduction in brain weight nor the early mortality was observed. The early deaths of the neutron-irradiated mouse embryos does not appear to be caused by either the hematological or the gastrointestinal radiation syndrome.     

Variability of biological glucose transport activity in human erythrocytes]

Glucose transport activity was determined on erythrocytes from healthy adult and children. A large variability of values was found between each donor, but transport rate was significantly higher in erythrocytes from adults than those from children. In opposite, the same number of glucose transport sites was found on erythrocytes from adult and children, suggesting that transporters from adult erythrocytes exhibited an higher own activity than transporters from child erythrocytes. Involvement of various factors in glucose transport activity was discussed.     

Fetal erythropoiesis in steel mutant mice : I. A morphological study of erythroid cell development in fetal liver

A method of definitive identification of mutant (S1/S1^d) and wild-type (+/+) mouse embryos in segregating litters is described, based on the total number of circulating erythrocytes in a unit volume of embryonic blood and the relative proportion of nonnucleated vs. nucleated red blood cells. Evidence is presented that from days 13–17 of gestation, S1/S1^d embryos have many fewer fetal liver derived nonnucleated erythrocytes whereas the number of yolk sac-derived nucleated red blood cells is similar between S1/S1^d and +/+. Erythroid precursor cells at various stages of maturation in mutant fetal livers are studied by light and electron microscopy, and their fine structure is found to be identical to those present in normal embryos. The number of hemoglobin-containing mature erythroblasts in mutant fetal livers is far fewer than that of the normal, whereas the number of immature erythroid precursors present in a unit area of fetal liver is not significantly different between S1/S1^d and +/+. It is suggested that the mutant S1 gene product(s) interferes with or fails to support the differentiation of immature erythroid precursors into hemoglobin synthesizing cells.     

Quantification of hematozoa in blood smears

Ten thin blood smears from mourning doves (Zenaida macroura) infected with Haemoproteus maccallumi were examined by each of two observers using identical techniques and microscopy in an attempt to delineate the factors necessary to provide an accurate estimate of the number of parasites/n erythrocytes. The number of erythrocytes examined must be actually counted, not estimated from extrapolated partial counts or from the number of fields of view examined. Doubling the number of erythrocytes counted (1) decreased the overdispersed frequency distribution patterns in only 25% of the replicate counts for numbers of H. maccallumi/100 erythrocytes for a series of 2,000 versus 4,000 erythrocytes counted; and (2) did not significantly increase the accuracy for determining parasite intensities. Thus, the number of erythrocytes that must be counted to determine parasite intensities could be considerably reduced from the 10,000 or 20,000 estimated for most studies, and still provide an accurate determination of the number of parasites/n erythrocytes in datasets collected from hosts with moderate to high levels of parasitemia. This resulted in a decreased amount of time expended by the observer on each blood smear examined. With two equivalently trained individuals, differences between observers examining the same blood smears were minimal. This study suggests an approach by which a more standardized methodology for quantifying blood parasite intensities could be developed.     

The effect of dextran sulphate on CFU-S and nucleic acids in blood and haemopoietic tissues in irradiated mice.

The effect of synthetic polyanion dextran sulphate on the development and recovery of radiation-induced haemopoietic damage in mice was investigated. Dextran sulphate (mol. wt. 500,000 D) in the dose of 40 mg.kg-1 of body weight was injected i.p. 3 days before single total body irradiation with a dose of 7.8 Gy gamma-rays. The animals were examined from hour 6 to day 26 after irradiation, i.e. from hour 78 to day 29 after DS-treatment. In irradiated mice DS-pretreatment showed some positive effect on the CFU-S number in bone marrow (less in spleen and blood), bone marrow cellularity, attenuated the radiation-induced changes of erythrocytes (number, MCV) and of RNA concentration in blood. The changes of other parameters (spleen cellularity, liver CFU-S, leukocyte count and DNA concentration in blood) were the same as in unprotected animals. In conclusion, we can say that DS-pretreatment had a beneficial effect on the recovery of radiation-induced damage of erythropoiesis but not on granulopoiesis or lymphopoiesis.     

Hypodontia in the beagle after perinatal whole-body 60Co gamma irradiation

As part of a long-term study to evaluate health effects of pre- and postnatal irradiation, dental development was examined. Beagles were irradiated in utero at 8, 28, or 55 days postcoitus or postnatally at 2, 70, or 365 days postpartum. Whole-body 60Co gamma radiation doses ranged from 0 to 3.8 Gy. There was an age-dependent dose-related increase in premolar hypodontia for animals irradiated at 55 days postcoitus or 2 days postpartum with doses of 0.83 Gy or higher and for those irradiated at 28 days postcoitus with 1.2 Gy or higher.     

Effects of growth factors FGF2 and IGF2 on the development of parthenogenetic mouse embryos in utero and in vitro

We studied the effects of fibroblast growth factor 2 (FGF2) and insulin-like growth factor 2 (IGF2) on the development of parthenogenetic mouse embryos (CBA x C57BK/6)F1. The parthenogenetic embryos were treated in vitro during the preimplantation period and, at the blastocyst stage, transplanted into the uterus of pseudopregnant females. The addition of FGF2 at an optimal dose (2.5 ng/ml) to the culture medium increased twofold the number of embryos developed in utero to the somite stages as compared to the control: 18 and 43%, respectively. The parthenogenetic embryos (18-21 somites), treated and nontreated with FGF2 during the preimplantation period, were explanted for further development in vitro and treated with IGF2 at 2.5 micrograms/ml. As a result, many more parthenogenetic embryos (> 87%) of both groups developed in vitro to the stage of 30 or more somites as compared to the control (59%). The treatment of the parthenogenetic embryos with FGF2 alone at the preimplantation stages did not improve their development in vitro at the postimplantation stages. The results we obtained suggest that the treatment of parthenogenetic embryos in vitro with FGF2 during the preimplantation period increased twofold the number of somite embryos in utero, while their subsequent treatment in vitro with IGF2 leads to a significant prolongation of their development, as compared to the control.