中华劳动卫生职业病杂志
中華勞動衛生職業病雜誌
중화노동위생직업병잡지
CHINESE JOURNAL OF INDUSTRIAL HYGIENE AND OCCUPATIONAL DISEASES
2009年
10期
579-583
,共5页
苏文进%甘露%王海椒%周婷%翁少凡%刘芳超%陈卫红
囌文進%甘露%王海椒%週婷%翁少凡%劉芳超%陳衛紅
소문진%감로%왕해초%주정%옹소범%류방초%진위홍
粉尘%相对生物学效应%石英
粉塵%相對生物學效應%石英
분진%상대생물학효응%석영
Dust%Relative biological effectiveness%Quartz
目的 通过体外细胞实验测定瓷厂和钨矿作业点生产性粉尘的毒性等生物学效应,为评价粉尘的危害作用提供依据.方法 以豚鼠的肺泡巨噬细胞(AM)为作用细胞,以标准石英作为对照,应用肺泡灌洗的方法获得AM后,加入15、30、60、120μg/106个细胞浓度标准石英、瓷厂及钨矿作业点的呼吸性粉尘颗粒培养,测定细胞的乳酸脱氢酶(LDH)活力、细胞活力(MTT)、活性氧释放量和肿瘤坏死因子-α(TNF-α)的释放量.结果 瓷厂和钨矿的生产性粉尘均能诱导豚鼠AM培养液中LDH活力升高,诱导豚鼠AM释放活性氧和TNF-α量升高,并随粉尘浓度升高呈现明显的剂量一反应关系.瓷厂和钨矿粉尘与豚鼠AM共培养后导致AM活力下降,随着生产性粉尘的浓度增加而降低.钨矿粉尘引起LDH活力升高以及诱导豚鼠AM释放TNF-α能力强于瓷厂粉尘,在120μg/106个细胞浓度组,赣州钨矿粉尘诱导的TNF-α水平为(5.2±2.0)ng/ml,景德镇瓷厂粉尘诱导的TNF-α水平为(3.3±1.6)ng/ml,均高于标准石英(2.8±0.5)ng/ml.与钨矿尘肺患病和死亡率均高于瓷厂相印证.结论 不同来源的生产性粉尘具有不同的生物学效应结果,实验测定粉尘的生物学效应为区分生产性粉尘危害作用提供了基础数据.
目的 通過體外細胞實驗測定瓷廠和鎢礦作業點生產性粉塵的毒性等生物學效應,為評價粉塵的危害作用提供依據.方法 以豚鼠的肺泡巨噬細胞(AM)為作用細胞,以標準石英作為對照,應用肺泡灌洗的方法穫得AM後,加入15、30、60、120μg/106箇細胞濃度標準石英、瓷廠及鎢礦作業點的呼吸性粉塵顆粒培養,測定細胞的乳痠脫氫酶(LDH)活力、細胞活力(MTT)、活性氧釋放量和腫瘤壞死因子-α(TNF-α)的釋放量.結果 瓷廠和鎢礦的生產性粉塵均能誘導豚鼠AM培養液中LDH活力升高,誘導豚鼠AM釋放活性氧和TNF-α量升高,併隨粉塵濃度升高呈現明顯的劑量一反應關繫.瓷廠和鎢礦粉塵與豚鼠AM共培養後導緻AM活力下降,隨著生產性粉塵的濃度增加而降低.鎢礦粉塵引起LDH活力升高以及誘導豚鼠AM釋放TNF-α能力彊于瓷廠粉塵,在120μg/106箇細胞濃度組,贛州鎢礦粉塵誘導的TNF-α水平為(5.2±2.0)ng/ml,景德鎮瓷廠粉塵誘導的TNF-α水平為(3.3±1.6)ng/ml,均高于標準石英(2.8±0.5)ng/ml.與鎢礦塵肺患病和死亡率均高于瓷廠相印證.結論 不同來源的生產性粉塵具有不同的生物學效應結果,實驗測定粉塵的生物學效應為區分生產性粉塵危害作用提供瞭基礎數據.
목적 통과체외세포실험측정자엄화오광작업점생산성분진적독성등생물학효응,위평개분진적위해작용제공의거.방법 이돈서적폐포거서세포(AM)위작용세포,이표준석영작위대조,응용폐포관세적방법획득AM후,가입15、30、60、120μg/106개세포농도표준석영、자엄급오광작업점적호흡성분진과립배양,측정세포적유산탈경매(LDH)활력、세포활력(MTT)、활성양석방량화종류배사인자-α(TNF-α)적석방량.결과 자엄화오광적생산성분진균능유도돈서AM배양액중LDH활력승고,유도돈서AM석방활성양화TNF-α량승고,병수분진농도승고정현명현적제량일반응관계.자엄화오광분진여돈서AM공배양후도치AM활력하강,수착생산성분진적농도증가이강저.오광분진인기LDH활력승고이급유도돈서AM석방TNF-α능력강우자엄분진,재120μg/106개세포농도조,공주오광분진유도적TNF-α수평위(5.2±2.0)ng/ml,경덕진자엄분진유도적TNF-α수평위(3.3±1.6)ng/ml,균고우표준석영(2.8±0.5)ng/ml.여오광진폐환병화사망솔균고우자엄상인증.결론 불동래원적생산성분진구유불동적생물학효응결과,실험측정분진적생물학효응위구분생산성분진위해작용제공료기출수거.
Objective To assess biological response and health adverse effects of industrial dusts from pottery factories and tungsten mines on alveolar macrophages (AM) in vitro. Methods AM acquired from bronchoalveolar lavage of guinea pigs were used as the target ceils. AM were then co-cultured with respirable dust particles (15,30,60 and 120 μg/106) from pottery factories and tungsten mines.LDH activity,cell viability,the release of ROS and TNF-α were determined to assess the biological responses of the dusts.China Standard Quartz was used as control.Results Dose-response relationships between the dust concentrations and the enhancement of LDH activity,the release of ROS and TNF-α were found in both dusts from pottery factories and tungsten mines.The cell viability decreased when the dusts' concentrations increased.Differences of biological response were observed in the dust particles from different mines or factories.Compared with the pottery dusts,higher LDH activity and the release of TNF-α induced by tungsten dust were observed.In the 120 μg/106 group,the TNF-α induced by tungsten dust,pottery dusts and China Standard Quartz was (5.2±2.0) ng/ml,(3.3±1.6) ng/ml and (2.8±0.5) ng/ml respectively.However,the impact on the cell viability induced by pottery dust was higher than that by tungsten mine.Conclusion Industrial dusts from various sources could induce different biological effects.The results of the biological effects of dusts in laboratory tests may be of potential use to provide base data for their adverse effects evaluation.