Sun Wei, Jin Cuihong, Bai Yinglong, Ma Ruixue, Deng Yuan, Gao Yuan, Pan Guowei, Yang Zuosen, Yan Lingjun
Research Center for Universal Health, School of Public Health, China Medical University, Shenyang 110122, People's Republic of China; Institute of Preventive Medicine, China Medical University, Shenyang 110122, People's Republic of China.
Department of Toxicology, School of Public Health, China Medical University, Shenyang 110122, People's Republic of China.
Sci Total Environ. 2022 Nov 20;848:157639. doi: 10.1016/j.scitotenv.2022.157639. Epub 2022 Jul 26.
Nano- and micro-plastic (NMP) pollution has emerged as a global issue; however, uptake in the blood is controversial. Also, there is no evidence that NMPs are excreted via urine. This study was designed to clarify the time course of NMPs absorption in blood and the excretion in urine. Male mice received a single administration of fluorescent polystyrene (PS) beads (100-nm and 3-μm) via tail vein injection, gavage, or pulmonary perfusion. Blood and urine samples were measured 0.5, 1, 2, and 4 h after exposure by confocal laser scanning microscope (CLSM). Transmission electron microscopy (TEM) was performed to corroborate the findings. Fluorescence particles were detected in both blood and urine from the 100-nm and 3-μm PS-treated groups after exposure. In the 3-μm PS treated group, particles with corresponding diameters were detected after intravenous injection and pulmonary perfusion, and particles with a diameter <3 μm were detected in blood samples after gavage. The fluorescent signal in urine was particularly weak and the size was <3 μm. Significant time course changes in fluorescence intensity were demonstrated in blood and urine (P < 0.05) after intravenous injection and pulmonary perfusion in the 100-nm PS-treated group. By contrast, significant changes were detected in the urine (P < 0.05), but not the blood, after gavage. TEM confirmed the presence of particles with corresponding diameters in blood samples; however, the excretion in urine was difficult to confirm for nano-plastics (NPs) and micro-plastics (MPs) because all particles with diameters of approximately 100 nm and 3 μm had irregular shapes and no clear boundaries. Our findings revealed that both NPs and MPs enter the blood circulation through digestive and respiratory pathways. Both 100-nm and 3-μm NMPs may be excreted through urine, but further evidence is needed. The physical and chemical properties of MPs may be impacted by digestive processes in vivo.
纳米塑料和微塑料(NMP)污染已成为一个全球性问题;然而,其在血液中的摄取情况存在争议。此外,没有证据表明NMPs会通过尿液排出。本研究旨在阐明NMPs在血液中的吸收时间进程以及在尿液中的排泄情况。雄性小鼠通过尾静脉注射、灌胃或肺灌注单次给予荧光聚苯乙烯(PS)珠(100纳米和3微米)。在暴露后0.5、1、2和4小时,通过共聚焦激光扫描显微镜(CLSM)测量血液和尿液样本。进行透射电子显微镜(TEM)以证实研究结果。暴露后,在100纳米和3微米PS处理组的血液和尿液中均检测到荧光颗粒。在3微米PS处理组中,静脉注射和肺灌注后检测到具有相应直径的颗粒,灌胃后在血液样本中检测到直径<3微米的颗粒。尿液中的荧光信号特别微弱,且尺寸<3微米。在100纳米PS处理组中,静脉注射和肺灌注后,血液和尿液中的荧光强度呈现出显著的时间进程变化(P<0.05)。相比之下,灌胃后在尿液中检测到显著变化(P<0.05),但在血液中未检测到。TEM证实血液样本中存在具有相应直径的颗粒;然而,由于所有直径约为100纳米和3微米的颗粒形状不规则且边界不清晰,难以确定纳米塑料(NPs)和微塑料(MPs)在尿液中的排泄情况。我们的研究结果表明,NPs和MPs均可通过消化和呼吸途径进入血液循环。100纳米和3微米的NMPs都可能通过尿液排出,但还需要进一步的证据。MPs的物理和化学性质可能会受到体内消化过程的影响。
