Enhanced cytogenetic detection of previous in vivo exposure to mutagens in human lymphocytes after treatment with inhibitors of DNA synthesis and DNA repair in vitro.

To increase the sensitivity of cytogenetic surveillance of exposure to mutagens in the peripheral lymphocyte assay, structural chromosome aberrations (CA) were studied after inhibition of DNA synthesis and DNA repair with hydroxyurea and caffeine in culture 3 h prior to harvesting. CA and sister-chromatid exchanges (SCE) from conventional cultures from the same subjects were used for comparison. Smoking was used as exposure parameter. Thirty-two smokers and 35 nonsmokers were studied. In the inhibited cultures a significantly higher number of aberrations was found in lymphocytes from smokers than nonsmokers: chromatid breaks (20.4 vs. 11.8, p = 0.0002), chromosome breaks (4.5 vs. 1.7, p = 0.0003), and the number of cells with aberrations (18.9 vs. 12.4, p = 0.0001), when 50 cells per subject were analyzed. In conventional cultures no increase in gaps, chromatid and chromosome breaks or number of cells with aberrations was found in smokers when 100 cells from each subject were studied. Smokers showed an increased number of SCE (6.8 vs. nonsmokers 5.9, p = 0.02). A significant positive linear correlation (r = 0.39, p = 0.01) was seen between SCE and the number of cells with chromatid breaks from inhibited cultures. The present results indicate that adding hydroxyurea and caffeine to lymphocyte cultures for the last 3 h prior to harvesting may enhance the detection of cytogenetic damage from previous in vivo exposure to mutagens.     

Enhanced cytogenetic detection of previous in vivo exposure to mutagens in human lymphocytes after treatment with inhibitors of DNA synthesis and DNA repair in vitro

To increase the sensitivity of cytogenetic surveillance of exposure to mutagens in the peripheral lymphocyte assay, structural chromosome aberrations (CA) were studied after inhibition of DNA synthesis and DNA repair with hydroxyurea and caffeine in culture 3 h prior to harvesting. CA and sister-chromatid exchanges (SCE) from conventional cultures from the same subjects were used for comparison. Smoking was used as exposure parameter. Thirty-two smokers and 35 nonsmokers were studied. In the inhibited cultures a significantly higher number of aberrations was found in lymphocytes from smokers than nonsmokers: chromatid breaks (20.4 vs. 11.8, p = 0.0002), chromosome breaks (4.5 vs. 1.7, p = 0.0003), and the number of cells with aberrations (18.9 vs. 12.4, p = 0.0001), when 50 cells per subject were analyzed. In conventional cultures no increase in gaps, chromatid and chromosome breaks or number of cells with aberrations was found in smokers when 100 cells from each subject were studied. Smokers showed an increased number of SCE (6.8 vs. nonsmokers 5.9, p = 0.02). A significant positive linear correlation (r = 0.39, p = 0.01) was seen between SCE and the number of cells with chromatid breaks from inhibited cultures. The present results indicate that adding hydroxyurea and caffeine to lymphocyte cultures for the last 3 h prior to harvesting may enhance the detection of cytogenetic damage from previous in vivo exposure to mutagens.     

Genotoxic effects of paracetamol in V79 Chinese hamster cells

Paracetamol was studied for possible genotoxic effects in V79 Chinese hamster cells. Paracetamol (0.5 mM for 30 min) reduced the rate of DNA synthesis in exponentially growing V79 cells to about 50% of control. A further decrease in the DNA synthesis was seen during the first 30 min after termination of paracetamol exposure. Paracetamol (3 and 10 mM for 2 h) caused a small increase in DNA single-strand breaks, as measured by the alkaline elution technique. After 16 h elution, the amount of DNA retained on the filters was 79 and 70% of controls in cells treated with 3 and 10 mM paracetamol respectively. No indication of DNA damage was seen in measuring the effect of paracetamol (0.25-10 mM for 2 h) on unscheduled DNA synthesis in growth-arrested cultures of V79 cells. At the highest concentrations (3 and 10 mM paracetamol), decreased unscheduled DNA synthesis was observed. Also UV-induced DNA-repair synthesis was inhibited by 3 and 10 mM paracetamol. DNA-repair synthesis was, however, inhibited at a much higher concentration than that inhibiting replicative DNA synthesis. The number of sister-chromatid exchanges (SCE) increased in a dose-dependent manner on 2 h exposure to paracetamol from 1 mM to 10 mM. At the highest dose tested (10 mM), the number of SCE increased to 3 times the control value. Co-culturing the V79 cells with freshly isolated mouse hepatocytes had no further effect on the paracetamol induced sister-chromatid exchanges. The present study indicates that paracetamol may cause DNA damage in V79 cells without any external metabolic activation system added.     

Adaptive response in different mitotic cycles after irradiation

The frequency of cells with chromosome aberrations and the number of aberrations per cell have been studied by metaphase analysis in the nonirradiated progeny of irradiated human blood lymphocytes. DNA fragmentation (DNA double-stranded breaks) has been investigated by DNA comet assay. To study the adaptive response (AR), PHA-stimulated lymphocytes were irradiated by the adaptive dose (0.05 Gy) in 24 h and by challenge dose (1 Gy) in 48 h after stimulation. The first through fourth mitoses were identified by 5-bromodeoxyuridine. It was found that the frequency of chromosome aberrations and double-strand breaks were increased in all mitotic cycles after the challenge irradiation. In most individuals, the adaptive response is induced by adaptive and challenge irradiations in the first and the second mitotic cycles (48 and 72 h after stimulation, respectively); however, it is absent in the third and the fourth mitoses. In the first mitosis (1Gy in 48 h after stimulation), only chromatid aberrations are observed; chromosome aberrations were registered in subsequent mitoses. DNA comet assay showed that the adaptive response was obvious at 48–72 h, but not 96 h, after stimulation. It can be concluded that the nonirradiated progeny of irradiated lymphocytes have genomic instability. The adaptive response is manifested up to the third mitosis and is explained by the decreasing number of chromatid and chromosome aberrations and DNA fragmentation. We suppose that double-stranded DNA breaks may be damage signals for the induction of adaptive response.     

Psoralen/UVA treatment and chromosomes

Summary Treatment of human lymphocytes in vitro with trimethylpsoralen or 8-methoxypsoralen and UVA irradiation (PUVA) induced chromosome damage, mainly constrictions and gaps, but also breaks and exchanges, and increased the frequency of sister chromatid exchange (SCE). The localization of the chromosome aberrations was nonrandom. The coincidence of many PUVA hits with mercaptoenthanol hits suggests that PUVA may have other targets in the cell than the DNA, perhaps the folding proteins of the chromosomes and the nuclear membrane/chromatin attachment organelles.Caffeine increased in a synergistic way the chromosome aberration yield if added after PUVA treatment, but there was no effect when caffeine was present before and during PUVA treatment. The SCE frequency was increased in the presence of caffeine.     

Enhanced assays detect increased chromosome damage and sister-chromatid exchanges in heroin addicts

To refine previous studies of chromosome damage (CD) and sister-chromatid exchanges (SCE) in heroin addicts, we applied new methods developed in our laboratory to enhance detection of the cytogenetic effects of low-level radiation exposure in hospital workers. For CD analysis, we applied our thymidine-fluorodeoxyuridine-caffeine (TFC) enhancement procedure in which cells at setup receive 1 x 10(-7) M fluorodeoxyuridine to inhibit thymidylate synthetase and 4 X 10(-5) M thymidine to satisfy the induced requirement, and then in G2 receive 2.2 mM caffeine to modulate DNA repair. For SCE enhancement, caffeine treatment was initiated in G1 at 19 h before harvest. Using both standard and enhanced procedures for CD and SCE analysis, blood samples were evaluated from 20 street heroin addicts and 22 controls. Standard 2-day CD and 3-day SCE assays showed small, insignificant genotoxic increases in addicts while the enhanced CD and SCE assays showed highly significant increases. Most CD events were in the form of chromatid and chromosome breaks. There were no rings and only a few dicentrics were observed in the TFC-enhanced cultures. Although quadriradials are rare, 10 were found in addict TFC-cultures and 3 in control TFC-cultures. With the standard CD assay, the mean number of chromosome breaks per 100 cells was 0.727 for controls and 1.056 for addicts (not significant). With the TFC-enhanced assay, the same measure showed 1.483 chromosome breaks for controls and 5.143 for addicts (highly significant, ANOVA: p less than 0.0001). A highly significant difference was also observed for chromatid-type damage with the TFC-enhanced assay (chromatid breaks per 100 cells: 16.793 for controls; 48.191 for addicts). The SCE data also showed significant differences with the enhanced assay. Scoring 25 cells/condition, standard SCE cultures showed 10.892 SCE/cell for controls and 11.732 SCE/cell for addicts (not significant). With CAF enhancement there were 13.08 SCE/cell for controls and 17.05 SCE/cell for addicts (ANOVA: p less than 0.008). These findings indicate that detection of CD and SCE effects can be significantly enhanced by the use of these new procedures. The finding of greatly increased chromatid damage in the addicts with the TFC procedure suggests that at least part of the CD detected occurred in vitro and is not a product of prior in vivo damage. Therefore exposure to this drug and perhaps other environmental agents may not only leave a residue of DNA or chromosome damage but may also induce a sensitivity to further genotoxic damage that is revealed by using the enhanced procedures.     

Effect of deoxycytidine on the frequency of sister chromatid exchanges in human lymphocytes detected by using 5-bromdeoxyuridine

The frequency of sister chromatid exchanges (SCE) was studied in cultivated blood lymphocytes of three normal individuals under elimination of DNA synthesis inhibiting action of 5-bromodeoxyuridine (BrdUrd 0.05 mM) with deoxycytidine (Cdr 0.1 and 0.01 mM). The frequency of SCE was significantly increased in the presence of 0.1 mM Cdr. In parallel with SCE frequency, Cdr elevated the percentage of metaphases of the second division. The increase of SCE in the presence of Cdr may be connected with normalization of the DNA replication under its action.     

Increased sister chromatid exchange in bone marrow and blood cells from Bloom's syndrome.

Bone-marrow cells from a patient with Bloom's syndrome cultured for 48 h in the presence of BudR exhibited a striking increase in the number of sister chromatid exchanges (SCEs) in comparison to that in the marrow cells of a patient with treated polycythemia vera (PV). Thus, it appears that an increased incidence of SCE in Bloom's syndrome occurs in various differentiated types of cells, not just blood lymphocytes, and constitutes the syndrome's most characteristic cytogenetic feature. In contrast, the incidence of SCE was not increased in marrow cells and lymphocytes of the particular PV patient studied here, whose cells did exhibit increased numbers of chromatid and chromosome gaps and breaks, presumably as result of the patient's earlier treatment. An increased frequency of SCE was demonstrated in Bloom's syndrome lymphocytes using both a technique based on BudR incorporation and one based on labeling with tritated deoxycytidine. This observation constitutes evidence against the increase of SCE being due to an unusual reaction to BudR. By conventional cytogenetic techniques, chromosome instability, including chromatid and chromosome breaks, but no homologous chromatid interchanges were also recognized in Bloom's syndrome bone-marrow cells incubated in vitro (without BudR) for either 1.k or 16 h. This observation points to the existence of chromosome instability in vivo.     

Chromosomal aberrations and sister-chromatid exchanges in Lithuanian populations: effects of occupational and environmental exposures

Cytogenetic analysis of chromosomal aberrations (CA) in 175,229 cells from 1113 individuals, both unexposed and occupationally or environmentally exposed to heavy metals (mercury and lead), organic (styrene, formaldehyde, phenol and benzo(a)pyrene) and inorganic (sulfur and nitrogen oxides, hydrogen and ammonium fluorides) volatile substances and/or ionizing radiation was performed. In addition, 11,250 cells from 225 individuals were scored for the frequency of sister-chromatid exchanges (SCE). Increased frequencies of CA were found in all occupationally exposed groups. A principal difference between the exposure to heavy metals and organic substances was found: increase in the CA frequency was dependent on duration of exposure to mercury but not dependent on duration of exposure to styrene, formaldehyde and phenol. A higher CA incidence was found in lymphocytes of children living in the vicinity of a plant manufacturing phosphate fertilizers. This indicates that children are a sensitive study group for the assessment of environmental exposure. However, the results of SCE analysis in these children were inconclusive. Exposure to ionizing radiation was found to cause chromosome breaks and chromatid exchanges in Chernobyl clean-up workers and chromatid breaks, chromatid exchanges, dicentric chromosomes and chromosome translocations in workers from the Ignalina Nuclear Power Plant. The increased frequency of chromatid exchanges in individuals exposed to ionizing radiation was quite unexpected. This may be attributed to the action of some unrecognized life-style or occupational factors, or to be a result of radiation-induced genomic instability. Also an increased SCE frequency was found in lymphocytes of Chernobyl clean-up workers.     

Cytogenetic studies on blood lymphocytes from patients with Schistosoma mansoni

Chromosomal aberrations and sister chromatid exchange (SCE) frequencies were studied in peripheral blood lymphocytes from 10 patients with Schistosoma mansoni prior to initiation of chemotherapy. The mean frequencies of chromatid and chromosome breaks for the patients were 1.80 and 2.30%, respectively, which were significantly higher (P less than 0.01) than the means 0.35 and 0.30%, scored for 20 healthy controls. Significant increase in the mean frequency of SCEs in the patients (9.1 +/- 0.5 SCE/cell) was noticeable when compared with the controls (6.2 +/- 0.1 SCEs/cell). Reductions in the lymphocyte divisions and replications in the patients were also observed. These results indicate that infection with S. mansoni could have in vivo mutagenic effects on human chromosomes.     

In vivo and in vitro ethylene oxide exposure of human lymphocytes assessed by chemical stimulation of unscheduled DNA synthesis

Factory workers exposed to ethylene oxide (EO), 0.5–1.0 ppm in factory air, together with matched controls from the same factory, were examined for evidence of toxic exposure by measurement of unscheduled DNA synthesis (UDS) induced by N-acetoxy-2-acetylaminofluorene (NA-AAF) and of chromosome aberrations in peripheral lymphocytes.The total chromatid gaps plus breaks were significantly elevated and NA-AAF-induced UDS was significantly reduced in the EO-exposed group as compared with the unexposed control group. The NA-AAF-induced UDS values negatively correlated to the duration (yr) of EO exposure (r = ?0.45, p < 0.02) and the number of chromosome breaks (r = ?0.61, p < 0.05), indicating an inhibition in vivo of DNA-repair capacity by EO. These data were verified in vitro by biochemical and autoradiographic studies of EO-induced UDS in human blood cells. Above 2 mM EO, UDS was inhibited in lymphocytes whether they were cultured for 24 or 122 h after alkylation with EO. Even at the subtoxic EO dose of 0.1 mM, lymphocytes were sensitized to additional exposures of NA-AAF, so that cytotoxicity was increased to 40% compared with 5% for the controls even though UDS was unaffected.It is concluded that EO was toxic to lymphocytes, even when they were sensitized at non-toxic EO doses to the cytotoxic action of other mutagens (e.g. NA-AAF), and the cells that did survive above 2 mM EO were inhibited in their DNA-repair capacity as judged by reduced UDS.     

Effects of 3-aminobenzamide on DNA synthesis and cell cycle progression in Chinese hamster ovary cells

3-Aminobenzamide (3AB), an inhibitor of poly(ADP-ribose) polymerase, is a potent inducer of sister chromatid exchanges (SCEs). Because of the possible relation between SCEs and DNA synthesis, the effects of 3AB on DNA synthesis and cell cycle progression in Chinese hamster ovary (CHO) cells were examined. Unlike all other SCE-inducing agents whose effects on DNA synthesis have been studied, short term exposures (30–120 min) of 3AB did not inhibit the overall rate of DNA synthesis and this result was independent of the amount of bromodeoxyuridine (BrdU) in the DNA. Longer exposure times (>24 h) did result in an extended S phase, but this was not due to an effect on the rate of DNA chain elongation. 3AB also delayed the entry of cells into S phase. The overall cell cycle delay was dose dependent, approaching 9 h after a 54 h exposure to 10 mM 3AB. Earlier reports that 3AB is neither mutagenic nor cytotoxic were confirmed. Thus 3AB acts to increase SCE frequency by a mechanism distinct from that which causes cytotoxicity and mutagenicity, and does not involve any inhibition in the rate of DNA chain growth.     

Biomonitoring of lymphocytes of workers exposed to nickel compounds and an approach to reduction of genetic effects]

While examining the workers of the fire nickel production contacting preferably with insoluble and weakly soluble compounds of nickel, inhibition of DNA repair and increased level of chromosome changes (micronucleus test) were detected. Decreasing of micronucleus number, which was higher in smokers, and tendency to the stimulation of DNA repair synthesis were revealed after 1-month course of ascorbic acid (1 g/day). A level of changes in chromosome structure in the control group was estimated using the index of sister chromatid exchanges (SCE): variation of initial values was in normal bounds (6-8 SCE per cell), after vitamin course it even slightly decreased. High individual variability of chromosome changes and susceptibility to ascorbic acid was found.     

Mutagenicity studies on paracetamol in human volunteers. III. Cytokinesis block micronucleus method

As paracetamol (PC) affected the frequency of chromosome aberrations and unscheduled DNA synthesis in human volunteers, the genotoxic effects of PC were studied in a group of 12 healthy volunteers (9 females; 3 males, aged 37.8 +/- 8.7 years) using the cytokinesis block micronucleus method in human peripheral lymphocytes. As a positive control a group of elderly people was used, 20 females and 10 males, aged 79.9 +/- 9.5 years. PC was administered orally 3 times in a dose of 1000 mg during 8 h. Blood samples were taken at intervals of 0, 24, 72 and 168 h after the first dose of PC. Cytochalasin B was added to the cultures 44 h after the beginning of the 72-h cultivation at a concentration of 3.0 micrograms/ml. The frequency of cells with micronuclei in the group of volunteers was not significantly increased after PC administration. Using the cytokinesis block micronucleus method, the frequency of micronuclei was stable and the interindividual variability was low. The application of the micronucleus technique in genetic monitoring, e.g., for the occupational exposure to mutagens, is questioned.     

Delayed repair of DNA single-strand breaks does not increase cytogenetic damage

DNA damage and cytogenetic effects of ionizing radiation were investigated in Chinese hamster ovary (CHO) cells and unstimulated human peripheral blood lymphocytes. DNA damage and repair were analysed by alkaline elution under conditions that predominantly measured DNA single-strand breaks (ssb). X-radiation (2.5 Gy) induced ssb in both CHO cells and unstimulated lymphocytes, and the breaks were repaired within 30 and 90 min, respectively. This rapid repair was delayed by the poly(ADP-ribose) polymerase inhibitor, 3-aminobenzamide (3AB). The cytogenetic effects of the 3AB-induced delay in DNA repair were examined by analysing sister chromatid exchange (SCE) frequency in CHO cells and fragmentation of prematurely condensed chromosomes (PCC) in unstimulated human lymphocytes after 2.5 Gy of X-rays. Although 3AB delayed the rejoining of DNA ssb, this delay did not result in increased cytogenetic damage manifested as either SCE or fragmentation of PCC. These results indicate that the rapidly rejoining DNA ssb are not important in the production of chromosome damage.     

Induction of SCEs and DNA fragmentation in bovine peripheral lymphocytes by in vitro exposure to tolylfluanid-based fungicide

The potential for genotoxic and cytotoxic effects of tolylfluanid-based fungicide (50% active agent) was evaluated using sister chromatid exchange (SCE) and proliferation indices (PI) in cultured bovine peripheral lymphocytes. For the detection of possible genetic damage, DNA fragmentation assay was also applied. Bovine lymphocytes cultured for 72 h were treated with the fungicide at the final concentrations of 1.75, 3.5, 8.75, and 17.5 μg/mL for the last 24 and 48 h of culture without S9 metabolic activation, and during the last 2 h of culture with S9 metabolic activation. In the SCE assays no evidence for genotoxic activity of the fungicide was found in treatments of 24 h without and 2 h with S9. After the 24 h exposure to tolylfluanid, a weak decrease in the PI was observed. With the prolonged exposure time (48 h), dose dependence in the increase of SCE frequencies was observed. Moreover, after 48 h exposure slight fragmentation of DNA at the concentrations of 3.5 and 8.75 μg/mL was demonstrated. SCE quantification is the most widely used approach for the assessment of genotoxic/cytogenetic effects of chemical compounds. Positive results in the assay at 48 h exposure indicated a potential of the fungicide to increase frequency of chromosomal damage (replication injuries) that is the confirmation of early effect of exposure.     

Cytogenetic study of <Emphasis Type="Italic">Ascaris</Emphasis> trypsin inhibitor in cultured human lymphocytes with metabolic activation

The trypsin inhibitor (ATI) isolated from gastrointestinal nematode Ascaris suum was tested in vitro for induction of chromosome aberrations and sister chromatid exchanges (SCE). Genotoxicity assessment of purified ATI was carried out on metaphase plates received from peripheral blood lymphocyte macroculture (48 h test of structural chromosome aberrations and 72 h test of SCE) with exogenous metabolic activation. ATI was tested in dose of 25, 50 and 100 μg per ml of culture. Kinetics of cell divisions were determined by the replication index (RI). The mitotic index (MI) was expressed as a number of metaphases per 1000 nuclei analysed. Analysis of chromosome aberrations showed that higher doses of ATI (50 and 100 μg/ml) significantly increased the frequency of chromosome aberrations (mainly of chromatid gaps and breaks) compared to the negative control. All concentrations of ATI caused a statistically significant reduction in the MI and RI. In comparison with the negative control, a significant increase in the SCE frequency was observed in all applied doses of ATI. Thus, in the presence of S9 activation, the Ascaris trypsin inhibitor showed potential clastogenic activity and inhibition of the dynamics of lymphocyte divisions.     

Genotoxic risk assessment of pathology and anatomy laboratory workers exposed to formaldehyde by use of personal air sampling and analysis of DNA damage in peripheral lymphocytes

A study was conducted to evaluate the genotoxic effect of occupational exposure to formaldehyde on pathology and anatomy laboratory workers. The level of exposure to formaldehyde was determined by use of passive air-monitoring badges clipped near the breathing zone of 59 workers for a total sampling time of 15min or 8h. To estimate DNA damage, a chemiluminescence microplate assay was performed on 57 workers before and after a 1-day exposure. Assessment of chromosomal damage was carried out by use of the cytokinesis-blocked micronucleus assay (CBMN) in peripheral lymphocytes of 59 exposed subjects in comparison with 37 controls matched for gender, age, and smoking habits. The CBMN assay was combined with fluorescent in situ hybridization with a pan-centromeric DNA probe in 18 exposed subjects and 18 control subjects randomized from the initial populations. Mean concentrations of formaldehyde were 2.0 (range <0.1-20.4ppm) and 0.1ppm (range <0.1-0.7ppm) for the sampling times of 15min and 8h, respectively. No increase in DNA damage was detected in lymphocytes after a one-workday exposure. However, the frequency of binucleated micronucleated cells was significantly higher in pathologists/anatomists than in controls (16.9 per thousand+/-9.3 versus 11.1 per thousand+/-6.0, P=0.001). The frequency of centromeric micronuclei was higher in exposed subjects than in controls (17.3 per thousand+/-11.5 versus 10.3 per thousand+/-7.1) but the difference was not significant. The frequency of monocentromeric micronuclei was significantly higher in exposed subjects than in controls (11.0 per thousand+/-6.2 versus 3.1 per thousand+/-2.4, P<0.001), while that of the acentromeric micronuclei was similar in exposed subjects and controls (3.7 per thousand+/-4.2 and 4.1 per thousand+/-2.7, respectively). The enhanced chromosomal damage (particularly chromosome loss) in peripheral lymphocytes of pathologists/anatomists emphasizes the need to develop safety programs.     

Chromosome and SCE analysis in peripheral lymphocytes of persons occupationally exposed to cytostatic drugs handled with and without use of safety covers

The frequency of structural chromosome aberrations and sister-chromatid exchanges in peripheral blood lymphocytes of nurses handling cytostatic drugs without a safety cover is compared with that of individuals doing this work exclusively under a safety cover and with that of nurses working under similar conditions but not handling cytostatics. The mean yield of dicentric chromosomes, (4.3 +/- 0.7)/1000 cells, and acentric fragments, (15.4 +/- 1.4)/1000 cells, in the occupationally exposed group is significantly increased in comparison to individuals working with protection (dic: (1.1 +/- 0.4)/1000 cells, ace: (11.2 +/- 1.2)/1000 cells) and nurses not handling cytostatics (dic: (2.1 +/- 0.5)/1000 cells, ace: (9.9 +/- 1.1)/1000 cells). The frequency of chromatid breaks and SCE is not significantly different between these groups (p greater than 0.05).     

脉冲电磁场对家猪淋巴细胞的细胞遗传学效应

以家猪外周血淋巴细胞为材料,研究了脉冲电磁场（pulsing electromagnetic fields,简称PEMFS)树细胞的遗传学效应,实验发现,100和200kHz的PEMFs对家猪的淋巴细胞照射培养12,24,48h后,染色体畸变（包括非整倍体,染色体断裂等）频率明显高于对照组（P＜0．05）,其中,56％的染色体或染色单体断裂和42％的间隙发生在家猪常见染色体脆性位点部位,同时, 经100kHz和200kHz的PEMFs照射48h后,淋巴细胞姐妹染色单体交换（SCE）频率也明显高于对照组（P＜0．05）,实验结果表明,PEMFS能诱导DNA损伤和染色体畸变。