气管内给予镍氧化物纳米材料在大鼠体内的动力学和溶解特性。

Kinetics and dissolution of intratracheally administered nickel oxide nanomaterials in rats.

机构信息

National Institute of Advanced Industrial Science and Technology (AIST), Tsukuba, Ibaraki, 305-8569, Japan.

Chemicals Evaluation and Research Institute (CERI), Hita, Oita, 877-0061, Japan.

出版信息

Part Fibre Toxicol. 2017 Nov 28;14(1):48. doi: 10.1186/s12989-017-0229-x.

DOI:10.1186/s12989-017-0229-x

PMID:29183341

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5706298/

Abstract

BACKGROUND

The toxicokinetics of nanomaterials are an important factor in toxicity, which may be affected by slow clearance and/or distribution in the body.

METHODS

Four types of nickel oxide (NiO) nanoparticles were single-administered intratracheally to male F344 rats at three doses of 0.67-6.0 mg/kg body weight. The rats were sacrificed under anesthesia and the lung, thoracic lymph nodes, bronchoalveolar lavage fluid, liver, and other organs were sampled for Ni burden measurement 3, 28, and 91 days post-administration; Ni excretion was measured 6 and 24 h after administration. Solubility of NiO nanoparticles was determined using artificial lysosomal fluid, artificial interstitial fluid, hydrogen peroxide solution, pure water, and saline. In addition, macrophage migration to trachea and phagosome-lysosome-fusion rate constants were estimated using pulmonary clearance and dissolution rate constants.

RESULTS

The wire-like NiO nanoparticles were 100% dissolved by 24 h when mixed with artificial lysosomal fluid (dissolution rate coefficient: 0.18/h); spherical NiO nanoparticles were 12% and 35% dissolved after 216 h when mixed with artificial lysosomal fluid (1.4 × 10 and 4.9 × 10/h). The largest irregular-shaped NiO nanoparticles hardly dissolved in any solution, including artificial lysosomal fluid (7.8 × 10/h). Pulmonary clearance rate constants, estimated using a one-compartment model, were much higher for the NiO nanoparticles with a wire-shape (0.069-0.078/day) than for the spherical and irregular-shaped NiO nanoparticles (0-0.012/day). Pulmonary clearance rate constants of the largest irregular-shaped NiO nanoparticles showed an inverse correlation with dose. Translocation of NiO from the lungs to the thoracic lymph nodes increased in a time- and dose-dependent manner for three spherical and irregular-shaped NiO nanoparticles, but not for the wire-like NiO nanoparticles. Thirty-five percent of the wire-like NiO nanoparticles were excreted in the first 24 h after administration; excretion was 0.33-3.6% in that time frame for the spherical and irregular-shaped NiO nanoparticles.

CONCLUSION

These findings suggest that nanomaterial solubility differences can result in variations in their pulmonary clearance. Nanoparticles with moderate lysosomal solubility may induce persistent pulmonary inflammation.

摘要

背景

纳米材料的毒代动力学是毒性的一个重要因素，其可能受到体内清除和/或分布缓慢的影响。

方法

将四种类型的氧化镍 (NiO) 纳米颗粒以 0.67-6.0mg/kg 体重的三个剂量经气管内单次给药至雄性 F344 大鼠。在给药后 3、28 和 91 天，大鼠在麻醉下处死，取样测定肺、胸淋巴结、支气管肺泡灌洗液、肝和其他器官中的 Ni 含量；在给药后 6 和 24 小时测定 Ni 排泄量。使用人工溶酶体液、人工间质液、过氧化氢溶液、纯水和生理盐水测定 NiO 纳米颗粒的溶解度。此外，还使用肺清除率和溶解速率常数来估计巨噬细胞向气管的迁移和吞噬体-溶酶体融合速率常数。

结果

线状 NiO 纳米颗粒在与人工溶酶体混合 24 小时后 100%溶解（溶解速率系数：0.18/h）；球形 NiO 纳米颗粒在与人工溶酶体混合 216 小时后分别溶解 12%和 35%（1.4×10 和 4.9×10/h）。最大的不规则形状 NiO 纳米颗粒几乎不溶于任何溶液，包括人工溶酶体液（7.8×10/h）。使用单室模型估计的肺清除率常数，对于具有线状形状的 NiO 纳米颗粒（0.069-0.078/天）明显高于球形和不规则形状的 NiO 纳米颗粒（0-0.012/天）。最大不规则形状 NiO 纳米颗粒的肺清除率常数与剂量呈反比关系。三种球形和不规则形状的 NiO 纳米颗粒从肺部向胸淋巴结的转移随时间和剂量呈依赖性增加，但线状 NiO 纳米颗粒则不然。给药后 24 小时内有 35%的线状 NiO 纳米颗粒排出；在该时间范围内，球形和不规则形状的 NiO 纳米颗粒的排泄量为 0.33-3.6%。

结论

这些发现表明，纳米材料溶解度的差异会导致其肺部清除率的变化。具有适度溶酶体溶解度的纳米颗粒可能会引起持续的肺部炎症。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/2cef/5706298/23e92f895bb3/12989_2017_229_Fig1_HTML.jpg

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气管内给予镍氧化物纳米材料在大鼠体内的动力学和溶解特性。

Kinetics and dissolution of intratracheally administered nickel oxide nanomaterials in rats.

机构信息

出版信息

BACKGROUND

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RESULTS

CONCLUSION

背景

方法

结果

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