Relationship between experimental results in mammals and man. I. Cytogenetic analysis of bone marrow injury induced by a single dose of cyclophosphamide.

The extrapolation of experimental results to man was studied by cytogenetic bone marrow analysis and micronucleus test in mice, rats and Chinese hamsters. Furthermore, the frequency of chromosomal aberrations was compared with the frequencies of polychromatic erythrocytes containing micronuclei. Cyclophosphamide (CY) was given intraperitoneally at the doses of 5, 10, 20, 40 and 80 mg/kg b.w. to ICR mice and Wistar rats and at the doses of 10, 20, 40, 80, 120 and 160 mg/kg b.w. to Chinese hamsters. Five patients with various types of malignancies until then medically untreated, were i.v. administered 40 mg CY/kg b.w. Bone marrow cells were examined 24 h after the administration. CY induced in all rodents a clear-cut dose-effect relationship in the frequency of breaks, abnormal metaphases as well as in the frequency of micronuclei in polychromatic erythrocytes. When comparing the results in rodents and man at the dose of 40 mg CY/kg b.w., the sensitivity pattern of species was mice greater than rats greater than Chinese hamsters greater than man. From this aspect the possible differences in the metabolism of CY in analysed species are discussed. The presented results tend to a conclusion that micronucleus testing may be a very suitable method used for screening purpose, however, the method of classical cytogenetic analysis, especially the evaluation of breaks, still remains the most exact and reliable technique.     

Relationship between experimental results in mammals and man: II. Cytogenetic analysis of bone-marrow cells after treatment of cytembena and cyclophosphamide-cytembena combination

Cytogenetic analysis and the micronucleus test of bone-marrow cells was used to study the possible extrapolation of results from experimental animals to man.Cytembena was given i.p. in doses of 5, 10, 20, 40 and 80 mg/kg body wt. to Wistar rats in doses of 20, 40 and 80 mg/kg body wt. to ICR mice an dto Chinese hamsters. Five patients with various types of malignancy, so far medically untreated, received 20 mg Cytembena/kg body wt i.v.A combination of Cytembena and cylophosphamide was applied i.p. in single equal doses 1 : 1 of 5, 10, 20, and 40 mg/kg body wt to ICR mice, Chinese hamsters and Wistar rats. Patients were given i.v. 20 mg Cytembena and 20 mg cyclophosphamide/kg body wt.Bone-marrow cells were examined 24 h after the administration.The frequency of abnormal metaphases and chromosomal breaks after Cytembena treatment was low; nonetheless, the indicated dose-effect relationship was found in all the rodents used. The frequency of chromosomal breaks was 2–3 times higher in rodents in comparison with man, after treatment with a dose of 20 mg Cytembena/kg body wt.Highest frequencies of induced aberrations were found in mice. The rodents appeared to be 3–4 times more sensitive to the induction of chromosomal breaks and abnormal metaphases than man, after a dose of 20 mg Cytembena and 20 mg cyclophosphamide/kg body wt.     

Genotoxic effects of fluoride evaluated by sister-chromatid exchange

The purpose of this investigation was to study the genotoxic potential of fluoride (in the form of sodium fluoride, NaF) using in vitro and in vivo sister-chromatid exchange (SCE) assays with Chinese hamster cells. The NaF concentrations used in cultures of Chinese hamster ovary (CHO) cells ranged from 0 to 6.3 mM, both with and without S9 activation. Fluoride analysis of the culture medium demonstrated that it contained little indigenous fluoride, and the concentration of added fluoride was not affected by the components of the medium or the S9 mix. The CHO cells cultured in 6.3 mM NaF almost vanished, and at the concentration of 5.3 mM NaF in cultures without S9 microsome, only M1 cells were observed. In in vivo studies, Chinese hamsters were intubated with NaF dosages of 0, 0.1, 1.0, 10, 60 and 130 mg/kg, and the bone marrow (CHBM) cells were examined for SCE frequencies. Bone fluoride data showed that the intubated NaF was effectively absorbed. Death occurred in 3 of the 8 animals given 130 mg NaF/kg. The results indicated that NaF, in dosages up to 5.3 mM in CHO cell cultures and 130 mg/kg in in vivo CHBM cells, did not significantly increase the SCE frequencies over those observed in the negative (distilled water) controls. However, examination of the cell cycle revealed an inhibitory effect of NaF on cell proliferation with doses of NaF at or greater than 1.0 mM in cultured CHO cells and at or greater than 60 mg NaF/kg in in vivo CHMB cells. The results of the present study indicated an inhibition of the cell cycle and death of the cells with increasing concentrations of fluoride but not effect of fluoride on SCE frequency in CHO and CHBM cells.     

Chromosomal abnormalities and sister-chromatid exchange in bone marrow cells of mice and Chinese hamsters after inhalation and intraperitoneal administration. II. Cyclophosphamide

The genotoxic effects of cyclophosphamide (CPP), a human and animal carcinogen requiring metabolic activation, were studied in bone marrow cells of mice and Chinese hamsters, analyzing chromosome abnormalities (CA) and sister-chromatid exchange (SCE) after a 2-h inhalation or a single intraperitoneal administration. In order to compare the genotoxicity after the different routes of administration in the dose range of 10-110 mg CPP/kg body weight, the systemic dose obtained by inhalation was calculated from blood concentrations and the inhalation duration after an analysis of the CPP blood kinetics. In NMRI mice the frequency of bone marrow cells with chromosome abnormalities was higher after aerosol exposure than after intraperitoneal administration of comparable CPP doses. In Chinese hamsters the CA frequency was similar with both exposure routes. Inhaled CPP was found to induce a higher frequency of CA and SCE in the bone marrow cells of mice compared to those of Chinese hamsters. The findings suggest that for genotoxins requiring metabolic activation species differences exist with respect to the influence of the route of entry and the sensitivity of bone marrow cells.     

Genotoxicity of cocoa examined by microbial and mammalian systems

Unroasted or roasted cocoa powder dispersed in water and applied to Chinese hamsters by stomach tube caused elevated numbers of SCEs in the sister-chromatid exchange test (bone-marrow cells). Roasted cocoa freed from rat produced distinctly higher SCE values with a linear dose—response relationship, whereas cocoa butter had no influence on SCE levels. Positive results in the SCE test (1.5-fold values of the controls) were obtained after application of about 5 g cocoa/kg b.w. Presumably, because of the smaller quantities that could be administered in this way, positive test results were not found when cocoa was given in the diet instead of being administered by stomach tube. Cocoa from which theobromine was extracted by chloroform did not affect SCE levels. Pure theobromine increased SCE levels in a dose-dependent way. Theobromine was also positive in the micronucleus test at 2 × 40 mg/animal and negative in the chromosome aberration test at 1 × 40 mg/animal. Cocoa and the theobromine were negative in the Salmonella/mammalian microsome mutagenicity test both with and without metabolic activation.     

Tissue-specific clastogenic effects of chromium and selenium salts in vivo

The clastogenic effects of inorganic compounds of chromium (K2Cr2O7) and selenium (Na2SeO3) on the chromosomes of rat lymphocytes and bone marrow have been investigated. In vitro exposure of rat lymphocytes to K2Cr2O7 gave highly significant and dose-related increases in abnormal metaphases at 6 concentrations from 7 X 10(-6) M to 3.2 X 10(-5) M. Similar in vitro exposure of lymphocytes to Na2SeO3 showed that it was clastogenic at concentrations of 7.5 X 10(-6) M, 1 X 10(-5) M and 2.5 X 10(-5) M. However, with in vivo exposures of K2Cr2O7 (i.p. and i.v.) it was only possible to demonstrate clastogenicity in lymphocytes at sublethal concentrations (36 mg/kg X 2 i.v.) and then only if the results were tested against all controls combined (1900 metaphases, 19 animals). On the other hand, very highly significant clastogenic effects were obtained in bone marrow cells exposed in vivo to K2Cr2O7 at 21 mg/kg i.p. and 12, 18, 24 and 36 mg/kg i.v. In vivo exposure to Na2SeO3, with concentrations up to 6 mg/kg X 2 i.v., caused no significant increase in abnormal metaphases in lymphocytes but 5 and 6 mg/kg X 2 i.v. caused a significant increase in abnormal metaphases in bone marrow. These results suggest that K2Cr2O7 and Na2SeO3 are acting as 'S' dependent chemicals. Although not directly comparable, they are compatible with the warnings given by other authors both on the detection of aberrations in lymphocytes after chronic exposure in man and on short-term testing of lymphocytes at low doses related to human exposure.     

Effects of various cyclophosphamide concentrations in vivo on sister chromatid exchanges (SCE) and chromosome aberrations of Chinese hamster bone marrow cells

Summary The in vivo SCE formation and the induction of chromosome aberrations in the bone marrow of Chinese hamsters (Cricetulus griseus) were studied after various concentrations of cyclophosphamide, and the sensitivity of the two test methods was compared. The administration of 1.0, 5.0, 13.3, 25.0, and 40.0 mg/kg body weight induced a dose-dependent increase in SCE. The frequency of chromosome aberration, however, was not increased significantly with doses of 1.0 and 5.0 mg/kg body weight. Only with doses of more than 13.3 mg is a significant induction of chromosome aberrations seen. Therefore the SCE test system seems to be 10 times more sensitive than the induction of chromosome aberrations in the same cell type.This work is a part of the M.D. thesis of G. Roszinsky-Köcher, to whom offprint requests should be sent     

Lack of induction of somatic aneuploidy in the mouse by nitrilotriacetic acid (NTA)

Nitrilotriacetic acid (NTA) was tested for the induction of aneuploidy in mouse bone marrow cells. Doses of 138 or 275 mg/kg of body weight were intraperitoneally injected 24 h after implantation of a bromodeoxyuridine tablet. Cell-replication kinetics was assessed by comparing the relative percentages of first, second and third metaphases in control and treated samples. The hyperploidy incidence was estimated in second metaphases only, together with the SCE/cell level. Mice injected with 1.8 mg/kg vinblastine (VBL) were used as positive controls. A slight delay of cell cycle was induced by NTA, as shown by regression analysis applied to average generation time values. No increase over the control level was observed for hyperploidy or SCE induction in NTA-treated mice. VBL induced both cell-cycle alteration and a highly significant (P less than 0.001) increase of the hyperploid cell frequency. On the basis of these and previous (Costa et al., 1988) observations it seems that the non-disjunctional activity of NTA in the mouse is confined to meiotic processes.     

Effects of styrene oxide on chromosome aberrations, sister chromatid exchange and hepatic drug biotransformation in chinese hamsters in vivo

In vivo inhalation exposure to styrene oxide (25, 50, 75 and 100 ppm) for 2, 4 or 20 days (25 ppm only) had no effects on chromosomal aberration rates or sister chromatid exchange (SCE) frequencies (BrdU/labelling performed in vitro) in the bone marrow cells of Chinese hamsters. The only positive response in aberration frequency was obtained when styrene oxide was injected in lethal concentration (500 mg/kg body weight, i.p.) into the animal. One animal out of six showed slightly elevated SCE values after this high dose. The response of the hepatic drug metabolizing enzymes to styrene oxide exposure was found to be rather weak, which may be due to rather high activity of epoxide hydratase in Chinese hamsters as compared to e.g. mouse.     

The effect of caffeine in the in vivo SCE and micronucleus mutagenicity tests

Caffeine which was administered per os to outbred mice either twice, 30 and 6 h before sacrifice or once, 30 h before sacrifice, at dose levels of 50, 75 or 100 mg/kg body weight only caused a weak induction of micronuclei at the highest dose. Again a level of 100 mg caffeine per kg body weight was required before a weak but not significant effect could be observed in the micronucleus test using a mutagen-sensitive inbred strain of mice. In Chinese hamsters caffeine doses of 45, 75, 150 or 300 mg/kg body weight either given once or twice per os at the same time schedule as used for the mice also caused a clear cut induction of micronuclei only at the highest dose level. In the SCE test with Chinese hamster again 300 mg of caffeine were necessary to obtain a mutagenic effect although this test is considered to be more sensitive to mutagenic damage than the micronucleus test. It can therefore be concluded that caffeine causes DNA damage only at dose levels in the LD50 range which is higher for hamsters than for mice.     

Sister-chromatid exchanges induced by triethylenemelamine: in vivo and in vivo/in vitro studies in mouse and Chinese hamster bone marrow and spleen cells

This study was designed to obtain sister-chromatid exchange (SCE) frequencies in bone marrow and spleen cells of mice and Chinese hamsters under in vivo and in vivo/in vitro systems following treatment of animals with varying doses (15-405 micrograms/kg) of triethylenemelamine (TEM). A dose-related SCE response was found in both species, tissues, and systems analyzed following TEM treatment. In vivo, similar responses were noted for both tissues in both species. However, in vivo/in vitro, the response was lower than in vivo and it varied with the tissue. The spleen cells were more sensitive and gave higher numbers of SCEs than bone marrow of both species at the two highest doses tested (135 and 405 micrograms/kg). These differences may be attributed to cell-culturing effects, type of cells analyzed, species and tissue specificities, and pharmacokinetic properties of the chemical. This study lends support to recently established in vivo/in vitro cell culture methodologies employing mice and Chinese hamsters for comparative cytogenetic analysis.     

Effects of caffeine on sister-chromatid exchanges (SCE) in vivo.

Chinese hamsters were twice treated with caffeine via stomach tube. The single doses were either 20, 100, 200 or 400 mg per kg body weight. A dose-dependent increase was observed in the frequencies of SCE induced in vivo in bone-marrow cells. Two intraperitoneal injections of the chemical mutagens, cyclophosphamide or benzo[a]pyrene, led to a pronounced increase of the frequency of SCE. Simultaneous applications of the chemical mutagens and caffeine decreased the rate of SCE. The effect of caffeine per se to induce SCE, and the mechanisms by which caffeine reduces the level of SCE induced by chemical mutagens are discussed.     

Effects of copper ions released from metallic copper on CHO-K1 cells

The aim of this study was to investigate the cytotoxic and genotoxic effect of copper extracts obtained from metallic copper in Chinese hamster ovary (CHO-K1) cell line using neutral red (NR), sister chromatid exchange (SCE), chromosomal aberrations (CA) and cell-cycle kinetics tests. Cells were cultured in Ham-F10 with different copper-containing extracts obtained after the immersion of copper disks for 1, 2, 3, 9, 12, 24, 48 and 72 h in culture medium. Results from cytotoxicity assay showed an inverted U-shape response evidenced in changes in lysosomal activity and mitotic index. The analysis of CA revealed an increase of abnormal metaphases for copper concentration (cCu) in the 5.67-7.42 mg/L dose-range (p<0.001). In addition, SCE frequencies were higher for treated cells when compared with controls in the 1.56-7.42 mg/L concentration range (p<0.001). The absence of metaphases indicated cytotoxicity for cCu≥10.85 mg/L. Results show that cells close to copper-containing materials releasing copper ions are susceptible to cytotoxic and genotoxic effects.     

Cytogenetic mechanisms in the selective toxicity of cyclophosphamide analogs and metabolites towards avian embryonic B lymphocytes in vivo.

Cyclophosphamide (CP) is selectively toxic to avian and mammalian B lymphocytes, but the mechanisms of action are incompletely understood. We used a structure-activity approach to determine the cytogenetic mechanisms underlying the selective lymphoid toxicity in chicken embryos at 18-19 days of incubation. Two doses of 5-bromo-2'-deoxyuridine (BrdU; 3 mg/200 microliters x 2) were pipetted onto the inner shell membrane to label lymphocyte DNA over 20 h. A single dose of the CP analogs or metabolites was given 1 h after the initial BrdU application. After a terminal 3-h exposure to demecolcine to block cells in metaphase, the embryos were sacrificed at hour 20, and their bursae and thymi were removed for cytogenetic processing. Microscope slide preparations of metaphases were stained by the fluorescence-plus-Giemsa technique to differentiate the sister chromatids for an assessment of sister-chromatid exchange (SCE) induction and cell cycle progression based on replication cycle-specific staining patterns. Isophosphamide (1.25-40 mg/kg), phosphoramide mustard (0.7-45.7 mg/kg), and 4-methylcyclophosphamide (1.3-42.1 mg/kg) selectively damaged B cells as shown by dose-related reductions in the mitotic activity, inhibition of cell cycle kinetics, and approximately 9-15-fold increases in the SCE frequency above control. B cells were up to 392 times more susceptible to the toxicity of these three bifunctional alkylating agents compared to T cells based on reductions in the mitotic activity. At most of the drug doses tested, the T-cell mitotic index was not depressed significantly and was usually higher than the control value by as much as 50-60%. Importantly, monochloroethylcyclophosphamide (70-245 mg/kg; monofunctional alkylation) did not induce differential lymphoid toxicity, although a 9-fold increase in the SCE frequency of B cells was observed at the highest dose. Didechlorocyclophosphamide (181-422 mg/kg; acrolein generation only) was a weak SCE inducer (approximately 1.8-fold increase) and was not selectively toxic to B cells. Our data show that selective toxicity to B lymphocytes is strongly associated with bifunctional alkylation via the chloroethyl groups rather than with monofunctional alkylation and acrolein-mediated damage. In addition, the results with phosphoramide mustard and 4-methylcyclophosphamide emphasize that aldehyde dehydrogenase activity is not the primary determinant in the relative sparing of T lymphocytes in vivo.     

Rodent species and strain specificities for sister-chromatid exchange induction and gene mutagenesis effects from ethyl carbamated,ethyl N-hydroxycarbamate,and vinyl carbanate

Ethyl carbamate (EC) and two related carcinogens, ethyl N-hydroxycarbamate (ENHC) and vinyl carbamated (VC), caused species-specific increase in sister-chromatid exchange (SCE) formation in the bone marrow cells of rodents. Mice exposed to 400 mg/kg of EC had SCE increases of 6-times-baseline, while rats, Chines hamsters, and golden hamsters showed 3- to 4-times-baseline increases in response to this dose. Lesser, but still significant, differences were found for ENHC and VC; the severest effects consistently occured in mice. Control bone marrow cell-cycle kinetics among the rodent species were similar. Mouse strains A and C57BL/6, which have high and low susceptibilities to EC induction of lung adenomas, respectively, showed nearly identical levels of SCE induction after in vivo exposure to these carbamate. However, testing of VC, a possible metabolite of EC, in vitro revelaed strain-dependent liver enzyme (Aroclor-induced S-9 fraction) capabilities to convert VC to genotoxic products. SCE induction, gene mutation for 6-thioguanine and ouabain resistance, and cytotoxicity in Chinese hamster V79 cells were significantly greater when A strain S-9 enzymes were used as compared with C57BL/6 strain S-9 enzyme preparations. No effect of SCE of reseeding, compared with no reseeding, of VC-treated V79 cells was observed. At a concentration of 25 μg/ml, VC cause 6-times-baselin induction of SCE in the presence of A strain S-9 mix and 4-times-baseline induction in the presence of C57BL/6 strain S-9 mix. These in vitro strain-dependent patterns of response are relevant to the current theory that VC amy be a proximate carcinogenic metabolite of EC.     

Reduced N-methyl-N′-nitro-N-nitrosoguanidine sister chromatid exchange induction in chinese hamster V79 cells pre-exposed to 5-bromodeoxyuridine

The sequence in which N-methyl-N-nitro-N-nitrosoguanidine (MNNG) and 5-bromodeoxyuridine (BrdU) are added to cell cultures affects the number of sister chromatid exchanges (SCE) induced by MNNG. When V79 Chinese hamster cell monolayer cultures were treated with MNNG for 2 h prior to addition of BrdUrd, approximately a 4–5-fold increase in SCE was observed at the second division metaphases compared to controls exposed to BrdU alone. This effect was independent of whether one or three DNA strands had been substituted as a result of incubating the cells through one or two DNA synthesis periods in the presence of BrdU. This increase in SCE also occurred after MNNG exposure and BrdU incubation was extended for three division cycles. In contrast, when BrdU incorporation preceded MNNG treatment, the average number of SCE/metaphase was reduced 70–80% at the second division cycle and 60% relative to the total number found in three division cycles. SCE induction by MNNG does not involve a caffeine sensitive step since caffeine had no effect on the SCE frequency regardless of the treatment protocol. The conditions in which BrdU preceded MNNG exposure may be responsible for either reducing the number of DNA sites available for interaction with MNNG or preventing the expression of SCE.     

Genotoxic evaluation of chronic fluoride exposure: sister-chromatid exchange study

As part of a continuing investigation, this study was conducted to examine the genotoxic effects of chronic exposure to sodium fluoride (NaF) in drinking water on the frequency of sister-chromatid exchange (SCE) in the bone-marrow cells of male Chinese hamsters. Animals at about 3 weeks of age were randomly assigned to 6 groups, each with at least 3 hamsters, and were maintained on a low fluoride diet (less than 0.2 ppm F) throughout the experiment. At 4 weeks of age, the animals in groups I-V began to receive drinking water containing fluoride at concentrations of 0, 1, 10, 50 and 75 ppm, respectively. Group VI was treated with cyclophosphamide and served as the positive control. The animals were sacrificed at 24 weeks of age by cervical dislocation. The humeri and plasma were analyzed for fluoride content, which was found to increase with the increase in fluoride concentration in drinking water. Slides of chromosomes from bone-marrow cells were prepared and blindly examined for the frequency of SCE. The mean scores of SCE for the hamsters receiving drinking water containing F concentrations up to 75 ppm for 21 weeks ranged from 4.28 to 6.28 per cell, and were not significantly different from those of the negative controls (4.60-5.44/cell). The results indicated that chronic fluoride exposure had no effect on the frequency of SCE in Chinese hamster bone-marrow cells under the conditions of the present investigation.     

Sister-chromatid exchanges induced by vinyl esters and respective carboxylic acids in cultured human lymphocytes.

Vinyl acetate--an efficient inducer of sister-chromatid exchanges (SCEs)--is known to be hydrolyzed in mammalian cells into acetic acid and acetaldehyde, the latter being the likely metabolite responsible for the SCE induction. As similar hydrolysis to acetaldehyde and to a carboxylic acid is also expected for other vinyl esters, five such compounds--vinyl formate, vinyl chloroformate, vinyl propionate, vinyl crotonate and vinyl-2-ethylhexanoate--and five carboxylic acids--formic acid, acetic acid, propionic acid, crotonic acid and 2-ethylhexanoic acid--were tested for their ability to induce SCEs in cultured (72 h) human lymphocytes with a 48-h treatment, starting at 24 h after culture initiation. Vinyl formate, vinyl propionate and vinyl crotonate induced a clear dose-dependent increase in the number of SCEs/cell at concentrations of 0.125-0.5 mM and vinyl chloroformate at 0.063-1 mM, i.e., at roughly the same concentration range as vinyl acetate and acetaldehyde. Vinyl-2-ethylhexanoate required slightly higher concentrations (0.25-4 mM) for SCE induction. All of the carboxylic acids tested also elevated SCEs, but only slightly. Formic acid and crotonic acid produced some SCE increase at a concentration of 10 mM, acetic acid at 5 and 10 mM and propionic acid at 2.5 mM. 2-Ethylhexanoic acid induced SCEs at a lower concentration range (0.63-2.5 mM) than the other acids. The positive concentrations of the first three carboxylic acids lowered the pH of the culture medium immediately after the treatment by 0.5-1.0 pH unit (lowest observed pH 6.53). The pH differences from the control cultures became smaller in measurements done 24 h and 48 h after the beginning of treatment. Propionic acid and 2-ethylhexanoic acid affected medium pH only slightly (maximum drop 0.2 pH units) at the concentrations that induced SCEs. The results lend support to the idea that the efficient SCE induction observed with the vinyl esters results from the formation of acetaldehyde, with carboxylic acids--with the possible exception of 2-ethylhexanoic acid--playing no significant role. The slight SCE induction obtained with the carboxylic acids cannot be explained by lowered pH alone.     

Propofol anesthesia in children does not induce sister chromatid exchanges in lymphocytes

BACKGROUND: Propofol is frequently used for general anesthesia in children although little is known about possible genotoxic effects in humans. We investigated the formation of sister chromatid exchanges (SCE) in metaphase chromosomes of T-lymphocytes of children as a marker for possible genotoxocity following total intravenous anesthesia with propofol for minor surgical procedures. METHODS: 40 children ASA classification I-III were included (ASA I n=34, ASA II n=5, ASA III n=1) in the study. Anesthesia was induced by propofol (3mg/kg) and alfentanil. Succinylcholine or rocuronium were administered for muscle relaxation. After tracheal intubation anesthesia was maintained by continuous propofol infusion at 12 mg/(kgh). Blood samples were drawn before induction and after termination of anesthesia. Following a 72 h cell culture period, 25 T-lymphocyte metaphases per blood sample for all children were analyzed for SCE frequencies. RESULTS: Total intravenous anesthesia with propofol on children did not influence SCE rates in metaphase chromosomes of T-lymphocytes. No SCE differences could be detected between blood samples before initiation and after termination of anesthesia (Wilcoxon signed rank test). Slightly elevated SCE rates were obtained in T-lymphocytes of girls compared to boys, but these differences did not reach statistical significance. CONCLUSIONS: Propofol anesthesia under the chosen conditions did not induce the formation of SCE in children in vivo. No genotoxic effect of a short term exposure to propofol during pediatric anesthesia had been observed.     

In vivo mutagenicity studies with iodinated glycerol azeo

Previous studies have shown that iodinated glycerol azeo is positive in a number of in vitro mutagenicity assays including the Ames assay (TA100; TA1535), mouse lymphoma assay, Chinese hamster ovary (cytogenetic) assay and in one in vivo study, the sex-linked-recessive-lethal assay in Drosophila. Prior studies have also shown that the drug is negative in the mouse micronucleus assay. We now report that the drug is also negative for mutagenic activity in a number of other in vivo tests. Single intraperitoneal doses of 25, 125 and 250 mg/kg were without effect in the rat bone marrow chromosomal aberration assay. Single oral doses of 30, 75, 150 and 300 were negative in the rat hepatocyte DNA-repair assay. Single intraperitoneal doses of 30 and 100 mg/kg were without effect in the sister chromatid exchange (SCE) assay in the mouse. Statistically significant effects were seen at 200 and 300 mg/kg in the initial SCE assay and at 300 and 350 mg/kg in the confirmatory SCE assay. The rationale for considering the SCE results to be anomalous and thus not relative to the overall safety evaluation of the drug is presented.