纳米原纤纤维素对小鼠肺部的影响表明，羧化作用降低了炎症和急性期反应。

Pulmonary effects of nanofibrillated celluloses in mice suggest that carboxylation lowers the inflammatory and acute phase responses.

机构信息

National Research Centre for the Working Environment (NFA), 105 Lersø Parkallé, Copenhagen Ø, Denmark.

Finnish Institute of Occupational Health (FIOH), P.O. Box 40, 00032, Työterveyslaitos, Helsinki, Finland.

出版信息

Environ Toxicol Pharmacol. 2019 Feb;66:116-125. doi: 10.1016/j.etap.2019.01.003. Epub 2019 Jan 14.

DOI:10.1016/j.etap.2019.01.003

PMID:30665014

Abstract

We studied if the pulmonary and systemic toxicity of nanofibrillated celluloses can be reduced by carboxylation. Nanofibrillated celluloses administered at 6 or 18 μg to mice by intratracheal instillation were: 1) FINE NFC, 2-20 μm in length, 2-15 nm in width, 2) AS (-COOH), carboxylated, 0.5-10 μm in length, 4-10 nm in width, containing the biocide BIM MC4901 and 3) BIOCID FINE NFC: as (1) but containing BIM MC4901. FINE NFC administration increased neutrophil influx in BAL and induced SAA3 in plasma. AS (-COOH) produced lower neutrophil influx and systemic SAA3 levels than FINE NFC. Results obtained with BIOCID FINE NFC suggested that BIM MC4901 biocide did not explain the lowered response. Increased DNA damage levels were observed across materials, doses and time points. In conclusion, carboxylation of nanofibrillated cellulose was associated with reduced pulmonary and systemic toxicity, suggesting involvement of OH groups in the inflammatory and acute phase responses.

摘要

我们研究了羧化是否可以降低纳米原纤纤维素的肺和全身毒性。通过气管内滴注将 6 或 18μg 的纳米原纤纤维素分别给予小鼠：1）FINE NFC，长度为 2-20μm，宽度为 2-15nm，2）AS（-COOH），羧化，长度为 0.5-10μm，宽度为 4-10nm，含有杀生物剂 BIM MC4901，3）BIOCID FINE NFC：与（1）相同，但含有 BIM MC4901。FINE NFC 给药增加 BAL 中的中性粒细胞浸润并诱导血浆中的 SAA3。AS（-COOH）比 FINE NFC 产生更低的中性粒细胞浸润和全身 SAA3 水平。BIOCID FINE NFC 的结果表明，杀生物剂 BIM MC4901 并不能解释降低的反应。在所有材料、剂量和时间点都观察到 DNA 损伤水平增加。总之，纳米原纤纤维素的羧化与降低的肺和全身毒性相关，表明 OH 基团参与了炎症和急性期反应。

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纳米原纤纤维素对小鼠肺部的影响表明，羧化作用降低了炎症和急性期反应。

Pulmonary effects of nanofibrillated celluloses in mice suggest that carboxylation lowers the inflammatory and acute phase responses.

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