Effect of Ultrafine Nano-Zinc Particles on Cardiac Structure and Function in Myocardial Infarction Rabbits

Q4 Biochemistry, Genetics and Molecular Biology Molecular & Cellular Biomechanics Pub Date : 2019-02-21 DOI:10.32604/MCB.2019.05724
Pei Niu, Li Li, Yufan Huang, Y. Huo
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引用次数: 1

Abstract

Due to ultrafine Nano-zinc particles are major component of PM0.1, so we aimed to  investigate how ultrafine Nano-zinc particles effect on cardiac structure and function in myocardial infarction (MI) rabbits.  We chose twenty-four New Zealand rabbits who were divided into sham group, MI group and MI exposure group randomly, 8 rabbits in each group. We preformed LAD ligation operation in MI group and MI exposure group. After two weeks rabbits suffered from MI successfully, we put the MI exposure group into ventilation chamber filled with 500ug/m3 ultrafine Nano-zinc particles for 6 hours per day. Sham group and MI group were raised in normal environment. Four weeks later, the heart function was detected using vevo2100 machine and all rabbits sacrificed, because we need to collect blood sample and heart tissue. According to echocardiography measurements, we found EF and FS both in MI group and MI exposure group decreased significantly, especially MI exposure group had severe decrease compared with MI group. In addition, left ventricular end-diastolic pressure (LVEDP) in MI exposure group increased obviously and LV +dp/dt max decreased significant. Both the formers in MI group changed to a lesser degree. HE staining results showed myocytes disorganization and LV wall thinning in MI and MI exposure groups. Masson trichrome staining showed that MI exposure group had maximum collagen. In summary, inhalation of ultrafine Nano-zinc particles indeed is harmful for MI rabbits. Moreover, ultrafine Nano-zinc particles can effect on myocardial systolic and diastolic function, thus promote the development from MI to heart failure.
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超细纳米锌颗粒对心肌梗死兔心脏结构和功能的影响
由于超细纳米锌颗粒是PM0.1的主要成分,因此我们旨在研究超细纳米锌颗粒对心肌梗死(MI)家兔心脏结构和功能的影响。选取24只新西兰兔,随机分为假手术组、心肌梗死组和心肌梗死暴露组,每组8只。MI组和MI暴露组分别行LAD结扎手术。在兔心肌梗死成功两周后,我们将心肌梗死暴露组置于充满500ug/m3超细纳米锌颗粒的通风室中,每天6小时。假手术组和心肌梗死组在正常环境下饲养。4周后,使用vevo2100机检测心功能,因为我们需要采集血液和心脏组织,所以所有的兔子都被处死。超声心动图测量发现,心肌梗死组和心肌梗死暴露组的EF和FS均明显下降,其中心肌梗死暴露组较心肌梗死组下降更严重。心肌梗死暴露组左室舒张末期压(LVEDP)明显升高,LV +dp/dt max显著降低。心肌梗死组前两者的改变程度较轻。HE染色结果显示心肌细胞紊乱,左室壁变薄。马松三色染色显示心肌暴露组胶原蛋白含量最高。综上所述,吸入超细纳米锌颗粒确实对心肌梗死家兔有害。此外,超细纳米锌颗粒可影响心肌收缩和舒张功能,从而促进心肌梗死向心力衰竭发展。
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来源期刊
Molecular & Cellular Biomechanics
Molecular & Cellular Biomechanics CELL BIOLOGYENGINEERING, BIOMEDICAL&-ENGINEERING, BIOMEDICAL
CiteScore
1.70
自引率
0.00%
发文量
21
期刊介绍: The field of biomechanics concerns with motion, deformation, and forces in biological systems. With the explosive progress in molecular biology, genomic engineering, bioimaging, and nanotechnology, there will be an ever-increasing generation of knowledge and information concerning the mechanobiology of genes, proteins, cells, tissues, and organs. Such information will bring new diagnostic tools, new therapeutic approaches, and new knowledge on ourselves and our interactions with our environment. It becomes apparent that biomechanics focusing on molecules, cells as well as tissues and organs is an important aspect of modern biomedical sciences. The aims of this journal are to facilitate the studies of the mechanics of biomolecules (including proteins, genes, cytoskeletons, etc.), cells (and their interactions with extracellular matrix), tissues and organs, the development of relevant advanced mathematical methods, and the discovery of biological secrets. As science concerns only with relative truth, we seek ideas that are state-of-the-art, which may be controversial, but stimulate and promote new ideas, new techniques, and new applications.
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