The effect of ethanol upon early development in mice and rats. IV. The effect of acute ethanol intoxication of day 4 of pregnancy upon implantation and early postimplantation development in mice

Acute ethanol intoxication in albino mice (RAP) induced by intravenous administration of ethanol on day 4 of pregnancy delayed or inhibited implantation in about 25 per cent of the cases. The noxious action upon the implantation process showed a clear-cut "litter effect" and the mean litter was not affected by the experimental intervention. In very early postimplantation stage (day 6 of pregnancy) a statistically significant advance of some main morphogenetic indices was detected in treated specimens. As a possible explanation of this finding, a "selection" of more resistant and viable embryos by the acute ethanol intoxication is presumed. The data discussed in the present paper, together with authors' previous findings suggest a possible noxious action of acute ethanol intoxication during preimplantation stages upon implantation.     

The effect of ethanol upon early development in mice and rats. I. In vivo effect upon preimplantation and early postimplantation stages

The preimplantation and early postimplantation effect of chronic alcohol consumption (at least a month before mating and during pregnancy until killing) and of acute ethanol intoxication during the preimplantation period (i.v. infection of ethanol) was studied on albino rats (Wistar) and albino mice (RAP). The main results were as follows: Chronic alcoholization. Rats: significant retardation of preimplantation development and in early postimplantation stages; a tendency of lowering of the mean litter size. Mice: significant increase of the number of preimplantation pathological forms; a tendency of lowering of the mean litter size. Pathological changes show, both in rats and mice, an obvious "litter effect". Acute ethanol intoxication. Rats: significant retardation in some litters, normal or even advanced development in others. This effect differs from the previously reported effect of acute ethanol intoxication during early postimplantation stages. The results obtained attest the prenatal noxious effect of chronic ethanol consumption in both species used and of acute ethanol intoxication during preimplantation development upon early postimplantation development in rats. Within the limits of extrapolation possibilities, they represent a risk signal for other species (including human).     

The effect of ethanol upon early development in mice and rats. V. In vivo effect of acute preimplantation intoxication with or without previous chronic alcoholization

Albino rats (Wistar) and albino mice (RAP) were either injected intravenously with ethanol during the preimplantation period (day 4 and 3, respectively) or injected in the same way after a previous chronic alcoholization (peroral consumption of 20% ethanol for 50-60 and 32-35 days, respectively before mating, adding the days until killing). The control of possible effects was performed on day 5 (rats) and 4 (mice) by usual flushing, examination and photographing of oviductal and uterine embryos. A group of albino rats, with chronic alcoholization, was controlled for late, fetal effects (resorption rate, skeletal control, possible ocular anomalies). The main results obtained were as follows: Acute ethanol intoxication. Rats: significant increase of pathological, fragmented preimplantation embryos with a marked "litter effect". Mice: no deleterious effect upon preimplantation development. Chronic alcoholization + acute ethanol intoxication. Rats: significant retardation of the preimplantation development rate and a significant increase of the number of pathological, fragmented embryos with a marked "litter effect". Mice: demonstrable advance of preimplantation development and migration rate. Chronic alcoholization--late fetal control in rats: the increase of resorption rate; the more frequent absence of sacral vertebrae; very rare rib anomalies and the absence of ocular malformations.     

The effect of ethanol upon early development in mice and rats. XIV. The effect of acute intoxication with beer and wine upon preimplantation development in rats

The preimplantation effect of acute intoxication during the preimplantation period of pregnancy (i.p. or i.v. injection on day 4) with beer and wine has been investigated on female albino rats (Wistar strain). The following criteria were applied for checking preimplantation development: mean number of embryos/animal; topographical distribution of the embryos; developmental stage attained; occurrence of pathological embryonic forms. The control on day 5 of pregnancy revealed no significant effect upon the developmental criteria used. The data obtained are compared with our own previous results.     

The effect of ethanol upon early development in mice and rats. VI. In vivo effect of acetaldehyde upon preimplantation stages in rats

In completion of the previously outlined "experimental alcohol blastopathy", the role of acetaldehyde in the induction of preimplantation pathological changes in rat embryos has been controlled. Two experimental models were used: the direct administration of acetaldehyde by gavage and the blockage of acetaldehyde metabolization by ANTALCOL (an aldehyde-dehydrogenase blocking compound). The main results were as follows: The exogenous acetaldehyde in the blood of pregnant animals has an obvious effect upon the developmental rate during the late preimplantation period (retarding segmentation, blastulation), and in one of the experimental models upon the oviductal-uterine migration rate. The increase of the blood acetaldehyde level by blockage of its further metabolization has a more marked effect as compared with the direct intravenous administration of the substance. According to our previous observations the intravenous application of ethanol on the same day (day 4) has no such effect. The direct noxious influence upon the developing preimplantation embryos (fragmentation) of the increased level of acetaldehyde obtained by ANTALCOL treatment is similar but more marked than this effect obtained previously by ethanol administration. The same effect observed after the direct administration of the substance is less marked than the effect of ANTALCOL treatment but more marked than the effect of intravenous ethanol administration. These results attest that acetaldehyde may contribute (alone or together with the effect of ethanol) to the induction of "experimental alcohol blastopathy". The less marked action of the substance proper introduced into the blood stream may be due--in our opinion--to its possible alteration during the period between distillation and application.     

Experimental alcohol blastopathy

Experimental data are presented with respect to "experimental alcohol blastopathy" performed in our laboratory. As in our interpretation the notion of blastopathy involves both pathological changes during preimplantation development due to previous, preconceptional or preimplantation influences and later, pre- or postnatal effects induced by factors active during the preimplantation period, up to now the following experimental models were applied (on rats and mice): chronic and acute maternal, biparental or paternal ethanol alcoholization; preimplantation treatment with acetaldehyde or disulfiram followed by ethanol administration; acute ethanol intoxication before implantation on the background of chronic maternal ethanol intake; chronic maternal intake of various beverages. The main components of experimental alcohol blastopathy detected (by using a complex control methodology) were: pathological changes during the preimplantation developmental stages (lower mean number of embryos/animal, retardation of development, lowered migration rate of the embryos from the oviduct to the uterus, higher number of pathological morphological features), delayed implantation, disturbances of the early postimplantation development, retarded late foetal and placental growth. The effect of ethanol may be direct (ethanol being detectable in the oviductal and uterine fluid after both acute and chronic alcoholization) or indirect, via changes of the maternal macro- or microenvironment. The increase of the maternal blood acetaldehyde level may contribute to the appearance of alcohol blastopathy. Chronic beer and wine intake and acute intoxication with cognac suggest - up to now - the enhancing effect of beverage congeners. The noxious effect of acute ethanol intoxication superposed to chronic alcoholization is more marked that the separate effect of the two kinds of treatment. The chronic ethanol intake of fertilizing males (in mice) leads, both in the case of treated or untreated females, to lowered fertilization efficiency, to retardation of development (not occurring in the experimental model with chronic alcoholization of females) and to an enhanced increase of the number of pathological features. The cytogenetic control of preimplantation embryos (after chronic, acute or combined treatment with ethanol) does not reveal significant chromosomal changes. A possible alcohol blastopathy in humans must be taken into account (i.e. a noxious effect during the very early period of pregnancy when it is ignored).     

The effect of ethanol upon early development in mice and rats. VIII. The effect of chronic consumption of some beverages upon preimplantation development in rats

The effects of chronic consumption of some beverages (plum-brandy 24% and cognac 20%) upon preimplantation development in rats were studied. The control of possible effects was performed on day 5 by usual flushing, examination and photographying of oviductal and uterine embryos. In order to evaluate the effect of the beverage applied, the following criteria were used: mean litter size, migration of the embryos from the oviduct to the uterus, the developmental stage attained by the pre-implantation embryos and the appearance of pathological embryos. The main results were the following: both beverages applied influenced the preimplantation development; with respect to the developmental rate and to the induction of pathological changes, the effect of both beverages was similar (retardation and an increased, number of pathological morulae and blastocysts); a different action could be detected as to the mean litter size and to the migration of preimplantation embryos: plum-brandy reduced more substantially the mean litter size, whereas cognac had a more marked retarding effect upon the migration of embryos from the oviduct to the uterus: all the changes detected show a more or less marked "litter-effect". The present data were compared with the corresponding effects of chronic ethanol administration observed previously in our laboratory. No obvious potentiating effect of beverage congeners could be established. The findings are discussed in connection with other experimental models of alcohol embryo and fetopathy.     

The effect of ethanol upon early development in mice and rats. II. In vitro effect upon early postimplantation rat embryos

The direct effect of ethanol upon in vitro cultured 9.5 day rat embryos was investigated (2, 4, 8 and 10% ethanol added to the culture medium). The main effects recorded were as follows: 1. Significant increase of the number of "dying" embryos (beating heart without yolk sac circulation); 2. No significant increase of mortality; 3. Significant increase of the number of living embryos with deficient blood circulation; 4. Significant retardation of coiling in living embryos with a significant dose-effect relation, when the effects of 20/00 and 80/00 ethanol were compared; 5. Lowering of the mean somite number in living embryos; 6. Various macro- and macroscopical pathological changes (mainly necrotic areas in the central nervous system).     

Homeostasis changes induced by the action of ethanol on the materno-fetal complex in rats. IV. Late maternal effects following acute intoxication during the preimplantation period

The possible late maternal effect on biochemical homeostasis of acute administration of ethanol during the preimplantation period was studied on pregnant albino female rats (Wistar strain). Females were injected i.v. with a 33.16% (v/v) solution of ethanol (4.80 ml/kg body weight) on day 2 and 4 of pregnancy, the animals being sacrificed on day 20. The effects on hepatic DNA biosynthesis and on some serum metabolites (proteins, lipids and some non-protein nitrogen compounds) were determined in the treated and in an untreated control group. In the treated group a non-significant increase of hepatic DNA concentration was found. Homeostasis changes of serum proteins involved: a slight increase of total serum protein content, hypoalbuminemia and hyperglobulinemia (non-significant values). Lipid metabolites showed also non-significant changes: increase of total lipids and decrease of cholesterol. Uric acid and urea (non-protein metabolites) concentration was increased. This increase, in spite of its significance level, must be taken into account and may be due to the presence of dead fetuses and to the consecutive renal lesions.     

Evaluation of developmental toxicity in rats exposed to the environmental estrogen bisphenol A during pregnancy.

Bisphenol A (BPA) is an essential component of epoxy resins used in the lacquer lining of metal food cans, as a component of polycarbonates, and in dental sealants. The present study was conducted in an attempt to evaluate the adverse effects of the environmental estrogen BPA on initiation and maintenance of pregnancy and embryofetal development after maternal exposure during the entire period of pregnancy in Sprague-Dawley rats. The test chemical was administered by gavage to mated females from days 1 to 20 of gestation (sperm in varginal lavage = day 0) at dose levels of 0, 100, 300, and 1000 mg/kg. All females were subjected to caesarean section on day 21 of gestation and their fetuses were examined for external, visceral and skeletal abnormalities. In the 1000 mg/kg group, significant toxic effects including abnormal clinical signs, decreased maternal body weight and body weight gain, and reduced food consumption were observed in pregnant rats. An increase in pregnancy failure was also found in the successfully mated females. In addition, increased number of embryonal deaths, increased postimplantation loss, reduced litter size and fetal body weight, and decreased number of fetal ossification centers of several skeletal districts were seen. On the contrary, no significant changes induced by BPA were detected in the number of corpora lutea and implantation sites and by fetal morphological examinations. In the 300 mg/kg group, suppressed maternal body weight and body weight gain, decreased food intake and reduced body weight of male fetuses were seen. There were no adverse signs of either maternal toxicity or developmental toxicity in the 100 mg/kg group. It was concluded that BPA administration during the entire period of pregnancy in rats produced pregnancy failure, pre- and postimplantation loss, fetal developmental delay and severe maternal toxicity, but no embryo-fetal dysmorphogenesis at an oral exposure level of 1000 mg/kg.     

Environmental and intraperitoneal ethanol influences morphine antinociceptive effect in mice

The ability of acute environmental or intraperitoneal (i.p.) ethanol to influence morphine antinociceptive effect was studied in mice. In order to induce tolerance to morphine analgesia, mice received daily injections of 10 mg/Kg morphine over a period of 10 days. Mice were divided into three groups: i.p. ethanol (E), environmental ethanol (E*), and control saline (M). During the induction of tolerance these groups were treated identically except on days 1 and 11. On these days, 10 minutes prior to morphine injection, mice received either i.p. ethanol (1g/Kg), environmental ethanol (a bottle of 10% ethanol placed next to the animals cage during the experiments), or an equivalent volume of saline. Analgesia was assessed using a standard hot plate protocol and dose-response cumulative curves for morphine analgesia were obtained on days 1 and 11. On day 1, both the i.p. and environmental administration of ethanol showed similar morphine-potentiation effects [Mean Effective Dose: ED50 (M1)=4.5 mg/kg; ED50 (E1)=2.4 mg/kg; ED50 (E*1)=2.1 mg/kg]. On day 11, control group mice showed a reduction of morphine analgesia at test [ED50 (M11)=14.1 mg/kg]. Mice receiving i.p. and environmental ethanol again showed a leftward shift in dose-response cumulative curves for morphine antinociception with respect to controls [ED50 (E11)=9.1 mg/kg; ED50 (E*11)=4.7 mg/kg]. I.p. ethanol administration at non-antinociceptive doses enhances the morphine antinociception effect similarly in tolerant and non-tolerant (naive) mice. The presence of environmental ethanol can also induce a similar pattern of increase in morphine antinociception effect.     

Chronic functional ethanol tolerance in mice influenced by body temperature during acquisition

Previous studies have found that body temperature during intoxication influences brain sensitivity to ethanol with the sensitivity being less at cool than at warm body temperatures. If this effect of temperature reflects alterations in the acute membrane perturbing action of ethanol, as suggested by in vitro studies, then body temperature reduction (hypothermia) during tolerance acquisition should reduce the effectiveness of a given ethanol concentration and, in turn, should reduce the development of chronic functional ethanol tolerance. To test this hypothesis, adult drug-naive C57BL/6J mice were injected i.p. once daily for five days with 3.6 g/kg ethanol (20% w/v) and were exposed to 34 degrees C or 25 degrees C for five hours following injection. On day 6, both ethanol acquisition groups and naive mice were injected i.p. with 4.0 g/kg ethanol and exposed to 25 degrees C. During acquisition, the group exposed to 34 degrees C had significantly higher body temperatures than the mice exposed to 25 degrees C, and there were no statistically significant differences in blood ethanol concentrations between treatment conditions. The extent of tolerance on day 6, measured by sleep-times and wake-up blood and brain ethanol concentrations versus naive mice, was significantly greater in the 34 degrees C acquisition group than in the 25 degrees C acquisition group. The results demonstrate that body temperature influences tolerance development in the manner predicted by membrane perturbation theories of anesthesia and adaptation based tolerance theories.     

Acute and chronic ethanol consumption differentially impact pathways limiting hepatic protein synthesis

This review identifies the various pathways responsible for modulating hepatic protein synthesis following acute and chronic alcohol intoxication and describes the mechanism(s) responsible for these changes. Alcohol intoxication induces a defect in global protein synthetic rates that is localized to impaired translation of mRNA at the level of peptide-chain initiation. Translation initiation is regulated at two steps: formation of the 43S preinitiation complex [controlled by eukaryotic initiation factors 2 (eIF2) and 2B (eIF2B)] and the binding of mRNA to the 40S ribosome (controlled by the eIF4F complex). To date, alcohol-induced alterations in eIF2 and eIF2B content and activity are best investigated. Ethanol decreases eIF2B activity when ingested either acutely or chronically. The reduced eIF2B activity most likely is a consequence of twofold increased phosphorylation of the alpha-subunit of eIF2 on Ser(51) following acute intoxication. The increase in eIF2alpha phosphorylation after chronic alcohol consumption is the same as that induced by acute ethanol intoxication, and protein synthesis is not further reduced by long-term alcohol ingestion despite additional reduced expression of initiation factors and elongation factors. eIF2alpha phosphorylation alone appears sufficient to maximally inhibit hepatic protein synthesis. Indeed, pretreatment with Salubrinal, an inhibitor of eIF2alpha(P) phosphatase, before ethanol treatment does not further inhibit protein synthesis or increase eIF2alpha phosphorylation, suggesting that acute ethanol intoxication causes maximal eIF2alpha phosphorylation elevation and hepatic protein synthesis inhibition. Ethanol-induced inhibition of hepatic protein synthesis is not rapidly reversed by cessation of ethanol consumption. In conclusion, sustained eIF2alpha phosphorylation is a hallmark of excessive alcohol intake leading to inhibition of protein synthesis. Enhanced phosphorylation of eIF2alpha represents a unique response of liver to alcohol intoxication, because the ethanol-induced elevation of eIF2alpha(P) is not observed in skeletal muscle or heart.     

Impaired glucose homeostasis during postimplantation pregnancy in the mouse following acute exposure to ethanol, with particular reference to the uterus and embryo.

Dramatic changes in the levels of plasma glucose and lactate and liver glycogen were observed in mice, given an intraperitoneal injection of ethanol (3.5 g/kg body weight) on Day 9 of pregnancy, during the period of time (6 h) required to clear the drug from the circulatory system. These alterations were accompanied by significant changes in the rates of accumulation of some glycolytic and citric acid cycle intermediates in the uterus, including glucose-6-phosphate, fructose-6-phosphate, lactate, citrate, alpha-ketoglutarate, and succinate. Although the changes in some metabolic parameters were very transient, not all metabolites returned to control values by the time that the drug had been cleared from the maternal system. Alcohol also impaired the capacity of Day 9 mouse embryos to metabolize [14C]glucose under culture conditions in vitro and significantly increased the amount of the aldohexose accumulating in the fetal membrane fluid when administered on Day 14 of pregnancy. However, ethanol neither influenced the ratio of NADH to NAD+ in the uterus nor changed the glycolytic and respiratory activity of the uterine endometrium when coincubated with the tissue in vitro. The results indicate that glucose homeostasis is impaired in both the embryo and the maternal system of mice acutely exposed to alcohol during the teratogenically sensitive period of postimplantation pregnancy and support the thesis that this phenomenon may present an important mechanism underlying the embryo-toxic effects of alcohol consumed under "binge" drinking conditions during pregnancy. However, the results also suggest that the effects registered at the uterine level most likely involve stress reactions and acetate rather than primary actions of the drug on the organ.     

Homeostasis changes induced by the action of ethanol on the materno-fetal complex in rats. V. Late fetal effects of acute intoxication during the preimplantation period

The late fetal effect of ethanol administered during the preimplantation period (in acute experiment) was investigated. Ethanol was injected i.v. (33.16% v/v in a.d., 4.80 ml/kg b.w.) to pregnant female rats on day 2 and 4 of pregnancy. Some effects concerning biochemical and morphological homeostasis on at-term fetuses (day 20 of pregnancy) were studied. Data obtained were compared with those of the control group. Biochemical investigation performed on hepatic DNA and on some serum metabolites revealed the following statistically non-significant changes: the increase of fetal hepatic DNA; the increase of total protein determined from pooled fetal serum of the whole litters; hypoalbuminemy and hyperglobulinemy; hypo-alpha 1-globulinemy and hyper-alpha 2-, beta-, gamma-globulinemy; the increase of total lipids, decrease of cholesterol; increase of uric acid and urea. In the amniotic fluid the following statistically non-significant values were found: increase of proteins, lipids, uric acid and urea content and decrease of cholesterol. Ponderal somatometry evidenced a statistically significant decrease of fetal and placental wet weight. The changes found show that--in our experimental conditions--the i.v. administration of ethanol during the preimplantation period does not significantly influence the late, fetal biochemical values and induces a significant lowering of fetal and placental wet weight and a significant increase of late fetal mortality.     

Teratogenic interaction of ethanol and hyperthermia in mice

Alcohol and maternal hyperthermia have been implicated in human birth defects. Both ethanol and heat can induce neural tube defects (NTDs) and other developmental abnormalities in mice when large doses are given during pregnancy. To explore the teratogenic interaction of both agents, pregnant ICR mice were injected with a single dose of 25% ethanol and/or were heat-stressed in a water bath at 42 degrees C on the morning of Day 8 of gestation. Combined treatment with ethanol (0.01-0.02 ml/g) and heat (10 min), when they were given concurrently or 1 hr apart, resulted in a significant increase of resorptions and externally malformed fetuses. Skeletal malformations and visceral variations also increased significantly following a concurrent exposure to both agents. These results indicate that ethanol and heat can be synergistically teratogenic in mice when the doses of each agent are below the teratogenic threshold. It was also suggested that pretreatment with a small dose of ethanol may not enhance the teratogenicity of heat when the hyperthermic stress is strong enough and teratogenic by itself.     

Effect of centchroman on tubal transport and preimplantation embryonic development in rats

A single oral administration of centchroman (1.25 mg/kg) to adult female rats within 24 h of mating induced slight acceleration in the rate of transport of embryos through the oviducts. The compound did not seem to produce any deleterious effect on preimplantation embryonic development since well organized and apparently normal embryos were collected from the genital tract up to Day 12 of pregnancy. The recovery rate of embryos from centchroman-treated rats was, however, significantly reduced after Day 4 of pregnancy. There was some stimulation in the rate of cleavage of embryos and morula to blastocyst transformation, but retardation in the shedding of the zona pellucida. The rate of blastocyst formation was not altered when 6-8-cell embryos collected from the oviducts of control rats were transferred to the uteri of control or centchroman-treated females. A delay in zona shedding was observed in the centchroman-treated recipients.     

Nondisjunction induced by ethanol in Drosophila melanogaster females.

The effect of ethanol on chromosomal segregation was investigated in Drosophila melanogaster females homozygous for a structurally normal X chromosome marked with the recessive mutation yellow (y/y). For chronic treatments the females were kept from eclosion in food supplemented with 10% or 15% (v/v) ethanol, mated 24 or 48 h later to wild-type males and brooded in freshly prepared ethanol food. For the acute treatments 24- or 48-h-old females were exposed for 60 min to a 75% (v/v) ethanol solution by means of soaked tissue paper placed at the bottom of regular culture vials and brooded daily after mating. The results obtained show that: (1) both treatments significantly increased the frequency of X-chromosome nondisjunction; (2) after acute treatment this effect declined in later broods; (3) the yield of malformed flies in the progeny of acutely treated females was significantly higher than control values and also declined in later broods; (4) ovary analysis showed that chronic ethanol treatments caused a cessation of egg production. The induction pattern of nondisjunction and malformed flies is interpreted as giving support to the assumption that these effects may result from a direct action of ethanol. Ethanol toxicity was assessed by exposing females of different ages to a 50% or a 75% (v/v) solution for 60 min and counting the surviving flies 24 h later. The surviving fraction decreased steeply from 1-day-old (100%) to 5-day-old females (1.8%). It is suggested that toxicity may have been due to the action of a metabolite of ethanol, probably acetaldehyde.     

Mouse erythrocytes as carriers for coencapsulated alcohol and aldehyde dehydrogenase obtained by electroporation in vivo survival rate in circulation, organ distribution and ethanol degradation

Alcohol dehydrogenase and aldehyde dehydrogenase (ADH and ALDH) have been coencapsulated into mouse erythrocytes by an electroporation technique. The optimal conditions were achieved as follows: 420 V, four pulses of 1 ms every 15 min. at 37 degrees C, completed by resealing: 1 h at 37 degrees C. An encapsulation yield ranging from 11-12% was obtained for ADH+ALDH-loaded erythrocytes. Carrier cell recovery was 52%. Electroporated-RBCs observed under Scanning electron microscopy exhibited a tendency toward invaginated sphero-stomatocytes. These invaginations were not found in electroporated/resealed RBCs. The intravenous administration of 51Cr-RBCs manifested a bimodal pharmacokinetic profile: an initial phase (t1/2alpha) with a rapid decrease of plasma 51Cr-RBCs followed by a slow and prolonged elimination phase (t1/2beta). The values corresponding to in vivo survival rate during the elimination phase indicated that the survival rate of 51Cr-electroporated loaded-RBCs was slightly lower (t1/2beta, 4.5 days) than 51Cr-native RBCs (t1/2beta, 5.3 days). The mean clearance values from blood of electroporated 51Cr-RBCs (unloaded and loaded) were higher (0.51 %51Cr/day and 0.54 %51Cr/day, respectively) than the obtained for native 51Cr-RBCs (0.18 %51Cr/day). The target organs for electroporated RBCs proved to be the same as for native RBCs. However, electroporated RBCs showed highest accumulation in liver, spleen and lung, since they were promptly recognized by the reticuloendothelium system. Mice induced to the state of acute ethanol intoxication and treated with ADH+ALDH-RBCs clearly showed a lower level of ethanol concentration in plasma (less than 43% ethanol) than the intoxicated mice treated with native RBCs. En consequence the clearance values of ethanol from blood in intoxicated mice treated with ADH+ALDH-RBCs (0.39 ml/min) were higher than the treated with native RBCs (0.20 ml/min). The results obtained suggest that ADH+ALDH-loaded erythrocytes could be used as a potential carrier system for in vivo removal of high levels of ethanol from blood caused by excessive alcohol consumption.     

Fetal loss in mice exposed to magnetic fields during early pregnancy

The effects of low-frequency magnetic fields (MFs) on early pregnancy were studied in CBA/S mice. The magnetic field was a 20 kHz, 15 μT sawtooth. Pregnant females were divided into four groups, two control groups and two exposed groups. One group was exposed to MFs continuously from day 1 postconception (pc) until day 5.5 pc, and the other group was exposed continuously until day 7 pc. All animals were sacrificed on day 19 pc, the day before partus, and their uterine contents were analyzed. No significant increase in the resorption (early fetal death) rate was found in the exposed animals compared to the sham controls. In the group exposed during days 1.0–5.5 pc, the body weight and length of the living fetuses were significantly decreased. Except on day 3 pc (progesterone) and day 13 pc (calcium) in the treated groups, there were no significant differences in progesterone and calcium levels in peripheral blood. Implantation occurred on the same day in MF-treated and control animals. © 1995 Wiley-Liss, Inc.