Department of Chemical Engineering, Environmental Engineering Program, Yale University, New Haven, Connecticut, USA.
Environ Sci Technol. 2010 Apr 15;44(8):3142-8. doi: 10.1021/es902943w.
This study investigated cytotoxicity and inflammation caused by human bronchial epithelial cells exposed to respirable aerosols produced during the land application of stabilized sewage sludges (biosolids). BEAS-2B cells were exposed to respirable aerosols (PM(10)) derived from soils, biosolids stabilized by mesophilic anaerobic digestion (MAD), temperature-phased anaerobic digestion (TPAD), and composting (COM) as well as animal manures stabilized by mesophilic anaerobic digestion (AMAD) and composting (ACOM). Anaerobically digested particles (MAD, TPAD, AMAD) induced the highest cytotoxicity with LD(50) levels of 70 microg/cm(2), 310 microg/cm(2) for, and 375 microg/cm(2) for MAD, AMAD, and TPAD, respectively. Conversely, there was no observed cytotoxicity for soils, composted biosolids, or composted manures at the in vitro doses tested. Inflammatory responses, measured by interleukin (IL)-6 and IL-8 release, were 2- to 15-fold greater in biosolids and manures than for equivalent doses in soils. Biosolids treatment rankings for human bronchial epithelial cell toxicity and inflammation were similar to the rankings found in recent biosolids pathogen content studies-from lowest pathogen content or toxicity to highest, rankings were as follows: COM < TPAD < MAD. Coupling in vitro responses with modeled tracheobronchial lung surface doses that may occur during a biosolids land application event suggests that an inflammatory aerosol exposure in the TB region could only occur under worst case scenarios (exercising human with reduced lung capacity at <65 m set backs), but examination of lower in vitro doses as well as consideration of the head and lower lung respiratory tract regions are needed to more definitively describe the links between biosolids aerosols and the potential for respiratory inflammation.
本研究调查了人类支气管上皮细胞暴露于稳定污水污泥(生物固体)土地应用过程中产生的可吸入气溶胶时的细胞毒性和炎症。BEAS-2B 细胞暴露于可吸入气溶胶(PM(10)),这些气溶胶来自土壤、中温厌氧消化(MAD)、温度分相厌氧消化(TPAD)和堆肥(COM)稳定的生物固体,以及中温厌氧消化(AMAD)和堆肥(ACOM)稳定的动物粪便。厌氧消化颗粒(MAD、TPAD、AMAD)诱导的细胞毒性最高,LD(50)水平分别为 70μg/cm(2)、310μg/cm(2)和 375μg/cm(2)。相反,在体外测试剂量下,土壤、堆肥生物固体或堆肥粪便均未观察到细胞毒性。通过白细胞介素(IL)-6 和 IL-8 释放测量的炎症反应,在生物固体和粪便中比在土壤中高 2 到 15 倍。人类支气管上皮细胞毒性和炎症的生物固体处理排名与最近生物固体病原体含量研究中的排名相似——从最低病原体含量或毒性到最高,排名如下:COM<TPAD<MAD。将体外反应与可能在生物固体土地应用事件中发生的气管支气管肺表面剂量模型相结合表明,只有在最坏情况下(在 65 米退缩处进行运动的人肺容量减少)才会在 TB 区域发生炎症性气溶胶暴露,但需要检查较低的体外剂量,并考虑头部和下肺呼吸道区域,以更明确地描述生物固体气溶胶与潜在呼吸道炎症之间的联系。
