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Unmodified CdSe Quantum Dots Induce Elevation of Cytoplasmic Calcium Levels and Impairment of Functional Properties of Sodium Channels in Rat Primary Cultured Hippocampal Neurons

机译：未经修饰的CdSe量子点可导致大鼠原代培养海马神经元细胞质钙水平升高和钠通道功能特性受损。

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Background The growing applications of nanotechnologic products, such as quantum dots (QDs), increase the likelihood of exposure. Furthermore, their accumulation in the bioenvironment and retention in cells and tissues are arousing increasing worries about the potentially harmful side effects of these nanotechnologic products. Previous studies concerning QD cytotoxicity focused on the reactive oxygen species produced by QDs. Cellular calcium homeostasis dysregulation caused by QDs may be also responsible for QD cytotoxicity. Meanwhile the interference of QDs with voltage-gated sodium channel (VGSC) current (INa) may lead to changes in electrical activity and worsen neurotoxicologic damage.

机译：背景技术纳米技术产品（例如量子点（QD））的不断增长的应用增加了暴露的可能性。此外，它们在生物环境中的积累以及在细胞和组织中的保留正在引起人们对这些纳米技术产品潜在有害副作用的担忧。先前有关QD细胞毒性的研究集中在QD产生的活性氧上。 QD引起的细胞钙稳态失调也可能是QD细胞毒性的原因。同时，量子点受电压门控钠通道（VGSC）电流（INa）的干扰可能导致电活动的改变并加剧神经毒性。

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期刊名称 Environmental Health Perspectives
作者
Mingliang Tang; Tairan Xing; Jie Zeng; Huili Wang; Chenchen Li; Shuting Yin; Dan Yan; Hongmin Deng; Jin Liu; Ming Wang; Jutao Chen; Di-Yun Ruan;
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作者单位

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年(卷),期 2008(116),7
年度 2008
页码 915–922
总页数 8
原文格式 PDF
正文语种
中图分类公共卫生工程;
关键词
calcium overload cell viability nanoparticles QD voltage-gated sodium channels;

机译：钙超载;细胞活力;纳米颗粒;量子点;电压门控钠通道;

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专利

1. Unmodified CdSe quantum dots induce elevation of cytoplasmic calcium levels and impairment of functional properties of sodium channels in rat primary cultured hippocampal neurons. [J] . Tang M, Xing T, Zeng J, Environmental health perspectives. . 2008,第7期

机译：未修饰的CdSe量子点诱导大鼠原代培养海马神经元细胞质钙水平的升高和钠通道功能特性的损害。
2. Mechanisms of unmodified CdSe quantum dot-induced elevation of cytoplasmic calcium levels in primary cultures of rat hippocampal neurons. [J] . Tang M, Wang M, Xing T, Biomaterials . 2008,第33期

机译：未修饰的CdSe量子点诱导大鼠海马神经元原代培养物中胞质钙水平升高的机制。
3. Action potential changes associated with impairment of functional properties of sodium channels in hippocampal neurons induced by melamine. [J] . Yang JJ, Yang Z, Zhang T Toxicology Letters: An International Journal Providing a Forum for Original and Pertinent Contributions in Toxicology Research . 2010,第2期

机译：与三聚氰胺诱导的海马神经元钠通道功能特性受损相关的动作电位变化。
4. Monitoring calcium concentration in dendritic spines of cultured hippocampal neurons with cameleons [C] . Xiuli Liu, Wei Zhou, Xiangning Li, Plasmonics in Biology and Medicine II; Progress in Biomedical Optics and Imaging; vol.6, no.18 . 2005

机译：监测含有海参的培养海马神经元树突棘中的钙浓度
5. Efficient Computation of Quantum Dot Properties: Application of Modified Charge Equilibration to Large Inclusive Sets of Wurtzite CdSe Nanocrystal Structures [D] . Weeks, Nathan John. 2019

机译：量子点特性的有效计算：修正电荷平衡在纤锌矿CdSe纳米晶体结构的大包容性组中的应用
6. Formaldehyde increases intracellular calcium concentration in primary cultured hippocampal neurons partly through NMDA receptors and T-type calcium channels [O] . Ye-Nan Chi, Xu Zhang, Jie Cai, 2012

机译：甲醛部分通过NMDA受体和T型钙通道增加海马原代培养神经元的细胞内钙浓度
7. Unmodified CdSe Quantum Dots Induce Elevation of Cytoplasmic Calcium Levels and Impairment of Functional Properties of Sodium Channels in Rat Primary Cultured Hippocampal Neurons [O] . Tang, Mingliang, Xing, Tairan, Zeng, Jie, 2008

机译：未经修饰的CdSe量子点可导致大鼠原代培养海马神经元细胞质钙水平升高和钠通道功能特性受损。

Unmodified CdSe Quantum Dots Induce Elevation of Cytoplasmic Calcium Levels and Impairment of Functional Properties of Sodium Channels in Rat Primary Cultured Hippocampal Neurons

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