首页> 美国政府科技报告 >Mechanical Loading of Neurons and Astrocytes with Application to Blast Traumatic Brain Injury

【24h】

Mechanical Loading of Neurons and Astrocytes with Application to Blast Traumatic Brain Injury

机译：神经元和星形胶质细胞的机械载荷应用于爆炸性创伤性脑损伤

获取原文

页面导航

摘要
著录项
相似文献
相关主题

摘要

Investigations of the mechanical properties of cells are essential for linking mechanical deformation and loading to injury mechanisms at the cellular level. This is especially important when studying traumatic brain injury (TBI). Neurons and astrocytes are susceptible to damage mechanisms arising from various loading scenarios ranging from motor vehicle accidents to sports injuries and pressure waves generated by explosions. Obtaining the mechanical properties of cells of the central nervous system (CNS) is a critical step for the development of hierarchical models and multi-scale simulation tools to elucidate how applied macroscopic loading conditions such as pressure waves, translate into cell deformation and damage. Here we present atomic force microscopy (AFM) indentation data and finite element simulation results on the mechanical response of single neurons and astrocytes to dynamic loading at large strains. Specific AFM testing protocols were developed to characterize the mechanical behavior of both cortical neurons and astrocytes over a range of indentation rates spanning three orders of magnitude - i.e. 10, 1, and 0.1 micrometers/s. The response of both cell types showed similar qualitative nonlinear viscoelastic patterns although, quantitatively some differences were noted between the two CNS cell populations. The rheological data were complemented with geometrical measurements of cell body morphology obtained through bright-field and confocal microscopy images. A constitutive model was developed, enabling quantitative comparisons within and between populations of neurons and astrocytes. The proposed model, built upon previous constitutive model developments carried out at the cortical tissue level, was implemented into a three-dimensional finite element framework. The simulated cell responses were successfully calibrated to the experimental measurement under the selected test conditions.

著录项

作者

展开▼
作者单位

展开▼
年度 2010
页码 p.1-10
总页数 10
原文格式 PDF
正文语种 eng
中图分类工业技术;
关键词
Astrocytes ; Wounds and injuries ; Brain ; Brain damage ; Trauma ; Central nervous system ; Nerve cells ; Cells(Biology) ; Nonlinear systems ; Images ; Geometry ; Dynamic loads ; Hierarchies ; Blast ; Cerebral cortex ; Mechanical waves ; Motor vehicle accidents ; Microscopy ; Explosions ; Morphology ; Vulnerability ; Viscoelasticity ; Deformation ; Finite element analysis ; Mechanical properties ; Rheology;

机译：星形胶质细胞;伤口和损伤;脑;脑损伤;创伤;中枢神经系统;神经细胞;细胞（生物学）;非线性系统;图像;几何;动态载荷;层次结构;爆炸;大脑皮质;机械波;机动车事故;显微镜;爆炸;形态学;脆弱性;粘弹性;变形;有限元分析;力学性能;流变学;

相似文献

外文文献
中文文献
专利

1. Primary Blast-Induced Traumatic Brain Injury in Rats Leads to Increased Prion Protein in Plasma: A Potential Biomarker for Blast-Induced Traumatic Brain Injury [J] . Pham Nam, Sawyer Thomas W., Wang Yushan, Journal of neurotrauma . 2015,第1期

机译：大鼠原发性爆炸诱导的颅脑外伤导致血浆Pri蛋白增加：爆炸诱导的颅脑外伤的潜在生物标志物
2. Differential Susceptibility of Cortical and Subcortical Inhibitory Neurons and Astrocytes in the Long Term Following Diffuse Traumatic Brain Injury [J] . Carron Simone F., Yan Edwin B., Alwis Dasuni S., The Journal of Comparative Neurology . 2016,第17期

机译：弥漫性颅脑损伤后长期抑制皮质和皮质下抑制神经元和星形胶质细胞的敏感性。
3. Mechanics of blast loading on the head models in the study of traumatic brain injury using experimental and computational approaches [J] . Ganpule S., Alai A., Plougonven E., Biomechanics and modeling in mechanobiology . 2013,第3期

机译：使用实验和计算方法在颅脑外伤研究中头部模型上爆炸载荷的力学
4. Non-Penetrative Blast-Induced Traumatic Brain Injury: Visualization of Representative Human Skull and Brain Response to Shock and Blast Loading [C] . Andrea Hsu, Brian Hardy, Veronica Eliasson, AIAA fluid dynamics conference and exhibit . 2011

机译：非穿透性爆炸诱发的颅脑外伤：可视化的代表性人类头骨和大脑对电击和冲击载荷的反应
5. Biomechanical analysis of blast induced traumatic brain injury---A finite element modeling and validation study of blast effects on human brain. [D] . Sharma, Sumit. 2011

机译：爆炸诱发的颅脑损伤的生物力学分析---冲击波对人脑的有限元建模和验证研究。
6. Primary Blast-Induced Traumatic Brain Injury in Rats Leads to Increased Prion Protein in Plasma: A Potential Biomarker for Blast-Induced Traumatic Brain Injury [O] . Nam Pham, Thomas W. Sawyer, Yushan Wang, -1

机译：大鼠原发性爆炸诱导的颅脑外伤导致血浆to蛋白增加：爆炸引起的颅脑外伤的潜在生物标志物
7. Shock Waves Simulating Blast-Induced Traumatic Brain Injury Activate Purinergic Signaling in Astrocytes [O] . Ravin Rea, Blank Paul S., Ravin Nitay, 2013

机译：冲击波模拟爆炸诱发的颅脑外伤激活星形胶质细胞的嘌呤信号。

Mechanical Loading of Neurons and Astrocytes with Application to Blast Traumatic Brain Injury

摘要

著录项

相似文献

相关主题

期刊订阅