Pu Xinzhu, Lee Linda S, Galinsky Raymond E, Carlson Gary P
School of Health Sciences, Purdue University, 1338 Civil Engineering Building, 550 Stadium Mall Drive, West Lafayette, IN 47906-2051, USA.
Toxicology. 2006 Jan 5;217(1):14-21. doi: 10.1016/j.tox.2005.08.012. Epub 2005 Sep 19.
The bioavailability of coplanar 2,3',4,4',5-pentachlorobiphenyl (PCB118) and nonplanar 2,2',5,5'-tetrachlorobiphenyl (PCB52) from soils representing a range in organic carbon (OC), clay content and pH were investigated using an in vivo rat model and an in vitro physiologically based extraction test (PBET) to assess the role of soil and chemical properties on bioavailabilty. Affinity to soil and persistence of PCBs have been shown to increase with increasing soil organic carbon (OC) content, PCB chlorination, and PCB coplanarity. In the in vivo tests for both PCB118 and PCB52, the AUCs following iv injection were significantly higher than the AUCs for all soil groups, indicating that the soil matrix can reduce the absolute bioavailability of PCB118 and PCB52. However, no significant differences were detected between soils of different properties. In the in vitro PBET, significant differences in the mobilization of PCB118 and PCB52 were observed among soils, and PCBs had the least mobilization from the soil with the highest OC content consistent with hydrophobic partitioning theory. Also, significantly less PCB118 was mobilized relative to PCB52 in the PBET assay, showing the potential impact of spatial orientation and chlorine content on bioavailability. No correlation between the in vitro PBET and the in vivo rat model was observed for the PCBs. Although the in vitro PBET and related assays may serve as an indicator of bioavailability, it is likely to underestimate what can be released from a soil in an in vivo assay.
使用体内大鼠模型和体外基于生理学的提取试验(PBET),研究了来自一系列有机碳(OC)、粘土含量和pH值不同的土壤中,共平面的2,3',4,4',5-五氯联苯(PCB118)和非共平面的2,2',5,5'-四氯联苯(PCB52)的生物利用度,以评估土壤和化学性质对生物利用度的作用。已表明,多氯联苯对土壤的亲和力和持久性会随着土壤有机碳(OC)含量、多氯联苯氯化程度和多氯联苯共平面性的增加而提高。在针对PCB118和PCB52的体内试验中,静脉注射后的曲线下面积(AUC)显著高于所有土壤组的AUC,这表明土壤基质会降低PCB118和PCB52的绝对生物利用度。然而,不同性质的土壤之间未检测到显著差异。在体外PBET中,观察到不同土壤中PCB118和PCB52的迁移存在显著差异,并且根据疏水分配理论,多氯联苯从有机碳含量最高的土壤中迁移量最少。此外,在PBET试验中,相对于PCB52,PCB118的迁移量显著更少,这表明空间取向和氯含量对生物利用度有潜在影响。对于多氯联苯,未观察到体外PBET与体内大鼠模型之间存在相关性。尽管体外PBET及相关试验可能作为生物利用度的一个指标,但它可能会低估体内试验中土壤能够释放的量。
