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Original Article
- Comparative Hepatotoxicity Assessment of Cadmium and Nickel with Isolated Perfused Rat Liver(IPRL).
- Bong Suk Cha, Seung Jun Wang, Sei Jin Chang, Jung Woo Lee
- Korean J Prev Med. 2000;33(1):117-124.
- 2,040 View
- 24 Download
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Abstract
PDF - OBJECTIVES
It is the objective of this study to compare hepatotoxicity of nickel chloride and cadmium chloride with each other through IPRL(Isolated Perfused Rat Liver) method. METHODS: Biochemical indicator of hepatic function such as AST(aspartate aminotransferase), ALT(alanine aminotransferase), LDH(lactate dehydrogenase) and perfusion flow rate were used as the indicator of hepatotoxicity. Oxygen consumption rate were used as viability indicator. 300(+/-50) g - weighted rats were allocated randomly to each group(0 micrometer, 50 micrometer, 200 micrometer NiCl2 and CdCl2 exposure) by 5, totally 25. After Krebs-Ringer bicarbonate buffer solution flowed into the portal vein and passed the liver cell, it flowed out of vena cava. Liver was administered with each NiCl2 and CdCl2 of each concentration and observed with buffer solution sampling time. Buffer which got out of liver was sampled and then biochemical indicator of hepatotoxicity was measured. RESULTS: AST, ALT, and LDH in buffer increased with sampling time much more in CdCl2 exposure group than NiCl2 exposure group in both 50 and 200 micrometer and statistical significance was verified with 2-way repeated ANOVA. Viability was decreased more and more in all substances during passed time. CONCLUSIONS: It is inferred that CdCl2 has stronger hepatotoxicity than NiCl2. IPRL method would be used widely for acute hepatotoxicity when considerating the benefit of it. -
SummaryEnglish Abstract
- Effects of Bisphenol A on the Placental Function and Reproduction in Rats.
- Chae Kwan Lee, Seog Hyun Kim, Deog Hwan Moon, Jeong Ho Kim, Byung Chul Son, Dae Hwan Kim, Chang Hee Lee, Hwi Dong Kim, Jung Won Kim, Jong Eun Kim, Chae Un Lee
- J Prev Med Public Health. 2005;38(3):330-336.
- 2,498 View
- 86 Download
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Abstract
PDF
- OBJECTIVE
The aim of this study was to investigate the effects of bisphenol A (BPA), an estrogen-like environmental endocrine disrupter, on the placental function and reproduction in rats. The mRNA levels of the placental prolactin-growth hormone (PRL-GH) gene family, placental trophoblast cell frequency and reproductive data were analyzed. METHODS: The pregnancies of F344 Fisher rats (160 g +/- 20 g) were detected by the presence of the copulatory plug or sperm in the vaginal smear, which marked Day 0 of pregnancy. Pregnant rats were divided into three groups. The control group was intraperitoneally injected with a sesame oil vehicle. The two remaining groups were injected with 50 or 500 mg/kg B.W/day of BPA, resuspended in sesame oil, on either days 7 to 11 or 16 to 20 of pregnancy, with the rats sacrificed on either day 11 or 20, respectively. The mRNA levels of PRL-GH and Pit-1a and b isotype genes were analyzed by Northern blot hybridization and reverse transcription-polymerase chain reaction. The hormone concentrations were analyzed by radioimmunoassay, and the frequency of the placental trophoblast cells observed by a histochemical study. Reproductive data, such as the placental weight and litter size, were surveyed on day 20. The fetal weight was surveyed for 4 weeks after birth. A statistical analysis was carried out using the SAS program (version 8.1). RESULTS: The mRNA levels of the PRL-GH gene family, such as placental lactogen I, Iv and II, prolactin like protein A, C and Cv, and decidual prolactin-related protein were significantly reduced due to BPA exposure. The mRNA levels of the Pit-1a and b isotype genes, which induce the expression of the PRL-GH gene family in the rat placenta, were also reduced due to BPA exposure. The PL-Iv and PL-II concentrations were reduced in the BPA exposed group. During the middle to last stage of pregnancy (Days 11-20), a high dose of BPA exposure reduced the frequency of spongiotrophoblast cells, which are responsible for the secretion of the PRL-GH hormones. Reproductive data, such as the placental and fetal weights and the litter size, were reduced, but that of the pregnancy period was extended in the BPA exposed compared to the control group. CONCLUSIONS: BPA disrupts the placental functions in rats, which leads to reproductive disorders. -
SummaryOriginal Article
- Effects of Chromium (VI) Exposure on the Placental Function and Reproduction in Rats.
- Heun Lee, Jin Ho Chun, Deog Hwan Moon, Chae Un Lee, Sung Goo Kang, Byung Chul Son, Dae Hwan Kim, Chang Hee Lee, Jung Won Kim, Chae Kwan Lee
- J Prev Med Public Health. 2004;37(2):157-165.
- 2,459 View
- 61 Download
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Abstract
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- OBJECTIONS: This study aimed to investigate the toxic effects of chromium (VI) on the placental function and reproduction in rats. For the study, the placental prolactin-growth hormone (PRL-GH) gene expression, placental trophoblast cell differentiation and reproductive data were analyzed. METHODS: The pregnancies of F344 Fisher rats were checked by the presence of a copulatory plug or sperm in the vaginal smear, which was defined as day 0 of the pregnancy. Pregnant rats were divided into the three groups. The control group was given tap water (chromium level < 0.001 ppm) and the remaining groups were given 250 or 750 ppm of chromium (VI) [as potassium dichromate], from day 7 to 19 of the pregnancy. Rats were sacrificed at days 11 and 20 of pregnancy. The mRNA levels of PRL-GH and Pit-1a and b isotype genes were analyzed by Northern blot hybridization and reverse transcriptionpolymerase chain reaction (RT-PCR). The hormonal concentration was analyzed by radioimmunoassay, and the differentiation of placental trophoblast cells were observed by histochemical studies. Reproductive data, such as placental and fetal weights, pregnancy period, and litter size, were surveyed at day 20 of pregnancy and after birth. A statistical analysis was carried out using the SAS program (version 8.1). RESULTS: The mRNA levels of the prolactin-growth hormone (PRL-GH) family of genes were dose dependently reduced by chromium exposure. The mRNA levels of Pit-1a and b isotype genes that induce the expression of the PRL-GH family of genes were also reduced by chromium exposure. The PRL-GH hormonal concentration in the rat placenta, fetus and maternal blood were decreased by chromium exposure. In the middle stage of pregnancy (day 11), a high dose of chromium suppressed the differentiation of spongiotrophoblast cells that secret the PRLGH hormones. In the last stage of pregnancy (day 20), a high dose of chromium induced apoptosis of placental cells. Reproductive data, such as placental and fetal weights, litter size, were reduced, but the pregnancy period was extended in the group exposed to chromium compared with the controls. CONCLUSION: Chromium (VI) disrupts the ordered functions of the placenta, which leads to reproductive disorders in rats.
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