<del id="5lnrt"></del>
<cite id="5lnrt"></cite>
<ins id="5lnrt"><span id="5lnrt"></span></ins>
<cite id="5lnrt"><video id="5lnrt"></video></cite><var id="5lnrt"></var><cite id="5lnrt"></cite>
<ins id="5lnrt"><video id="5lnrt"></video></ins> <cite id="5lnrt"><video id="5lnrt"></video></cite><cite id="5lnrt"></cite>
<ins id="5lnrt"></ins>
<cite id="5lnrt"><video id="5lnrt"><menuitem id="5lnrt"></menuitem></video></cite>
<var id="5lnrt"></var>
<var id="5lnrt"><video id="5lnrt"></video></var>
<menuitem id="5lnrt"><strike id="5lnrt"></strike></menuitem>
<cite id="5lnrt"><span id="5lnrt"></span></cite>
<cite id="5lnrt"><video id="5lnrt"><menuitem id="5lnrt"></menuitem></video></cite>
<span id="5lnrt"></span>
<cite id="5lnrt"><video id="5lnrt"><var id="5lnrt"></var></video></cite>
<cite id="5lnrt"></cite>
<cite id="5lnrt"></cite>
<cite id="5lnrt"></cite>
<var id="5lnrt"><video id="5lnrt"></video></var>
<var id="5lnrt"><video id="5lnrt"><menuitem id="5lnrt"></menuitem></video></var>
<var id="5lnrt"></var><ins id="5lnrt"><video id="5lnrt"></video></ins>
<cite id="5lnrt"></cite>
<ins id="5lnrt"></ins>
<cite id="5lnrt"><span id="5lnrt"><var id="5lnrt"></var></span></cite><cite id="5lnrt"></cite>
<listing id="5lnrt"><strike id="5lnrt"><progress id="5lnrt"></progress></strike></listing>
<cite id="5lnrt"></cite>
<menuitem id="5lnrt"><video id="5lnrt"></video></menuitem>
<cite id="5lnrt"><video id="5lnrt"><menuitem id="5lnrt"></menuitem></video></cite><menuitem id="5lnrt"></menuitem>
<var id="5lnrt"></var>
<var id="5lnrt"></var>
<var id="5lnrt"></var>
<var id="5lnrt"><video id="5lnrt"></video></var>
首页 > 论文 > 光学学报 > 39卷 > 3期(pp:317002--1)

基于太赫兹波成像的鼠?#28304;?#20260;三维重构

Three-Dimensional Reconstruction of Rat Brain Trauma Based on Terahertz Imaging

  • 摘要
  • 论文信息
  • 参考文献
  • 被引情况
  • PDF全文
分享:

摘要

采用Feeney′s方法制备了鼠?#28304;?#20260;模型,利用太赫兹波透射式成像系统对鼠脑的组织切片进行成像检测,结果表明:鼠?#28304;?#20260;区域相比于正常区域具有更低的透过率。采用三维重构技术实现了鼠脑的三维建模,该模型可以清楚地反映鼠脑内部创伤区域的空间分布。基于太赫兹波多深度切片成像的三维重建技术在生物医学精确诊断方面具有巨大的应?#20204;?#21147;。

Abstract

The rat brain trauma model is established with Feeney′s method. The rat brain tissue slices are imaged with the terahertz transmission imaging system, which shows that the rat brain traumatic region has lower transmittance than the normal region. The three-dimensional modeling of rat brain is realized by the three-dimensional reconstruction technique. The model clearly reflects the spatial distribution of the traumatic region inside the rat brain. This study suggests that the three-dimensional reconstruction technique based on terahertz multi-depth slices imaging has great potential in the precise and accurate biomedical diagnosis.

Newport宣传-MKS新实验室计划
补充资料

中图分类号:Q-334

DOI:10.3788/aos201939.0317002

所属栏目:医用光学与生物技术

基金项目:973计划(2015CB755403,2014CB339802)、国家重点研发计划(2016YFC0101001)、国家自然科学基金(61775160,61771332,61471257)、中国博士后科学基金特别资助(2016M602954)、重庆市博士后科研项目特别资助(Xm2016021)、重庆西南医院生物强院科技创新计划(SWH2016LHJC04, SWH2016LHJC01)

收稿日期:2018-09-10

修改稿日期:2018-10-24

网络出版日期:2018-11-08

作者单位    点击查看

王与烨:天津大学精密仪器与光电子工程学院激光与光电子研究所, 天津 300072天津大学光电信息技术教育部重点实验室, 天津 300072陆军军医大学第一附属医院神经外科, 重庆 400038
陈霖宇:天津大学精密仪器与光电子工程学院激光与光电子研究所, 天津 300072天津大学光电信息技术教育部重点实验室, 天津 300072
徐德刚:天津大学精密仪器与光电子工程学院激光与光电子研究所, 天津 300072天津大学光电信息技术教育部重点实验室, 天津 300072
陈图南:陆军军医大学第一附属医院神经外科, 重庆 400038
冯华:陆军军医大学第一附属医院神经外科, 重庆 400038
姚建铨:天津大学精密仪器与光电子工程学院激光与光电子研究所, 天津 300072天津大学光电信息技术教育部重点实验室, 天津 300072

联系人作者:王与烨([email protected])

【1】Faul M, Xu L K, Wald M M, et al. Traumatic brain injury in the United States: emergency department visits, hospitalizations and deaths 2002—2006[R]. Atlanta: Centers for Disease Control and Prevention, 2010.

【2】Reilly P. The impact of neurotrauma on society: an international perspective[J]. Progress in Brain Research, 2007, 161: 3-9.

【3】Winkler E A, Minter D, Yue J K, et al. Cerebral edema in traumatic brain injury pathophysiology and prospective therapeutic targets[J]. Neurosurgery Clinics of North America, 2016, 27(4): 473-488.

【4】Wu H M, Huang S C, Vespa P, et al. Redefining the pericontusional penumbra following traumatic brain injury: evidence of deteriorating metabolic derangements based on positron emission tomography[J]. Journal of Neurotrauma, 2013, 30(5): 352-360.

【5】Greve M W, Zink B J. Pathophysiology of traumatic brain injury[J]. Mount Sinai Journal of Medicine: a Journal of Translational and Personalized Medicine, 2009, 76(2): 97-104.

【6】Bajwa N, Au J, Jarrahy R, et al. Non-invasive terahertz imaging of tissue water content for flap viability assessment[J]. Biomedical Optics Express, 2017, 8(1): 460-474.

【7】Shi J, Wang Y Y, Xu D G, et al. Biomedical diagnosis of cerebral ischemia with continuous-wave THz imaging[C]. International Conference on Infrared, Millimeter, and Terahertz Waves, 2016: 1-2.

【8】Li W J, Wang T Y, Zhou Y, et al. Terahertz non-destructive inspection of air defect within adhesive layers of multi-layer bonded structure[J]. Acta Optica Sinica, 2017, 37(1): 0111002.
李文军, 王天一, 周宇, 等. 多层?#33322;?#32467;构胶层空气缺陷的太赫兹无损检测[J]. 光学学报, 2017, 37(1): 0111002.

【9】Li M Q, Tan Z Y,Qiu F C, et al. Fast reflective scanning imaging based on terahertz quantum-cascade laser[J]. Acta Optica Sinica, 2017, 37(6): 0611004.
李孟奇, 谭智勇, 邱付成, 等. 基于太赫兹量子级联激光器的反射式快速扫描成像 [J]. 光学学报, 2017, 37(6): 0611004.

【10】Joseph C S, Patel R, Neel V A, et al. Imaging of ex vivo nonmelanoma skin cancers in the optical and terahertz spectral regions optical and terahertz skin cancers imaging[J]. Journal of Biophotonics, 2014, 7(5): 295-303.

【11】Grootendorst M R, Fitzgerald A J, Brouwer de Koning S G, et al. Use of a handheld terahertz pulsed imaging device to differentiate benign and malignant breast tissue[J]. Biomedical Optics Express, 2017, 8(6): 2932-2945.

【12】Ji Y B, Oh S J, Kang S G, et al. Terahertz reflectometry imaging for low and high grade gliomas[J]. Scientific Reports, 2016, 6: 36040.

【13】Sim Y C, Park J Y, Ahn K M, et al. Terahertz imaging of excised oral cancer at frozen temperature[J]. Biomedical Optics Express, 2013, 4(8): 1413-1421.

【14】Feeney D M, Boyeson M G, Linn R T, et al. Responses to cortical injury: I. Methodology and local effects of contusions in the rat[J]. Brain Research, 1981, 211(1): 67-77.

【15】Wang Y Y, Minamide H, Tang M, et al. Study of water concentration measurement in thin tissues with terahertz-wave parametric source[J]. Optics Express, 2010, 18(15): 15504-15512.

【16】Wang Y, Notake T, Tang M, et al. Terahertz-wave water concentration and distribution measurement in thin biotissue based on a novel sample preparation[J]. Physics in Medicine and Biology, 2011, 56(14): 4517-4527.

引用该论文

Wang Yuye,Chen Linyu,Xu Degang,Chen Tunan,Feng Hua,Yao Jianquan. Three-Dimensional Reconstruction of Rat Brain Trauma Based on Terahertz Imaging[J]. Acta Optica Sinica, 2019, 39(3): 0317002

王与烨,陈霖宇,徐德刚,陈图南,冯华,姚建铨. 基于太赫兹波成像的鼠?#28304;?#20260;三维重构[J]. 光学学报, 2019, 39(3): 0317002

您的浏览器不支持PDF插件,请使用最新的(Chrome/Fire Fox等)浏览器.或者您还可以点击此处下载该论文PDF

<del id="5lnrt"></del>
<cite id="5lnrt"></cite>
<ins id="5lnrt"><span id="5lnrt"></span></ins>
<cite id="5lnrt"><video id="5lnrt"></video></cite><var id="5lnrt"></var><cite id="5lnrt"></cite>
<ins id="5lnrt"><video id="5lnrt"></video></ins> <cite id="5lnrt"><video id="5lnrt"></video></cite><cite id="5lnrt"></cite>
<ins id="5lnrt"></ins>
<cite id="5lnrt"><video id="5lnrt"><menuitem id="5lnrt"></menuitem></video></cite>
<var id="5lnrt"></var>
<var id="5lnrt"><video id="5lnrt"></video></var>
<menuitem id="5lnrt"><strike id="5lnrt"></strike></menuitem>
<cite id="5lnrt"><span id="5lnrt"></span></cite>
<cite id="5lnrt"><video id="5lnrt"><menuitem id="5lnrt"></menuitem></video></cite>
<span id="5lnrt"></span>
<cite id="5lnrt"><video id="5lnrt"><var id="5lnrt"></var></video></cite>
<cite id="5lnrt"></cite>
<cite id="5lnrt"></cite>
<cite id="5lnrt"></cite>
<var id="5lnrt"><video id="5lnrt"></video></var>
<var id="5lnrt"><video id="5lnrt"><menuitem id="5lnrt"></menuitem></video></var>
<var id="5lnrt"></var><ins id="5lnrt"><video id="5lnrt"></video></ins>
<cite id="5lnrt"></cite>
<ins id="5lnrt"></ins>
<cite id="5lnrt"><span id="5lnrt"><var id="5lnrt"></var></span></cite><cite id="5lnrt"></cite>
<listing id="5lnrt"><strike id="5lnrt"><progress id="5lnrt"></progress></strike></listing>
<cite id="5lnrt"></cite>
<menuitem id="5lnrt"><video id="5lnrt"></video></menuitem>
<cite id="5lnrt"><video id="5lnrt"><menuitem id="5lnrt"></menuitem></video></cite><menuitem id="5lnrt"></menuitem>
<var id="5lnrt"></var>
<var id="5lnrt"></var>
<var id="5lnrt"></var>
<var id="5lnrt"><video id="5lnrt"></video></var>
玩快三稳赚技巧口诀
<del id="5lnrt"></del>
<cite id="5lnrt"></cite>
<ins id="5lnrt"><span id="5lnrt"></span></ins>
<cite id="5lnrt"><video id="5lnrt"></video></cite><var id="5lnrt"></var><cite id="5lnrt"></cite>
<ins id="5lnrt"><video id="5lnrt"></video></ins> <cite id="5lnrt"><video id="5lnrt"></video></cite><cite id="5lnrt"></cite>
<ins id="5lnrt"></ins>
<cite id="5lnrt"><video id="5lnrt"><menuitem id="5lnrt"></menuitem></video></cite>
<var id="5lnrt"></var>
<var id="5lnrt"><video id="5lnrt"></video></var>
<menuitem id="5lnrt"><strike id="5lnrt"></strike></menuitem>
<cite id="5lnrt"><span id="5lnrt"></span></cite>
<cite id="5lnrt"><video id="5lnrt"><menuitem id="5lnrt"></menuitem></video></cite>
<span id="5lnrt"></span>
<cite id="5lnrt"><video id="5lnrt"><var id="5lnrt"></var></video></cite>
<cite id="5lnrt"></cite>
<cite id="5lnrt"></cite>
<cite id="5lnrt"></cite>
<var id="5lnrt"><video id="5lnrt"></video></var>
<var id="5lnrt"><video id="5lnrt"><menuitem id="5lnrt"></menuitem></video></var>
<var id="5lnrt"></var><ins id="5lnrt"><video id="5lnrt"></video></ins>
<cite id="5lnrt"></cite>
<ins id="5lnrt"></ins>
<cite id="5lnrt"><span id="5lnrt"><var id="5lnrt"></var></span></cite><cite id="5lnrt"></cite>
<listing id="5lnrt"><strike id="5lnrt"><progress id="5lnrt"></progress></strike></listing>
<cite id="5lnrt"></cite>
<menuitem id="5lnrt"><video id="5lnrt"></video></menuitem>
<cite id="5lnrt"><video id="5lnrt"><menuitem id="5lnrt"></menuitem></video></cite><menuitem id="5lnrt"></menuitem>
<var id="5lnrt"></var>
<var id="5lnrt"></var>
<var id="5lnrt"></var>
<var id="5lnrt"><video id="5lnrt"></video></var>
<del id="5lnrt"></del>
<cite id="5lnrt"></cite>
<ins id="5lnrt"><span id="5lnrt"></span></ins>
<cite id="5lnrt"><video id="5lnrt"></video></cite><var id="5lnrt"></var><cite id="5lnrt"></cite>
<ins id="5lnrt"><video id="5lnrt"></video></ins> <cite id="5lnrt"><video id="5lnrt"></video></cite><cite id="5lnrt"></cite>
<ins id="5lnrt"></ins>
<cite id="5lnrt"><video id="5lnrt"><menuitem id="5lnrt"></menuitem></video></cite>
<var id="5lnrt"></var>
<var id="5lnrt"><video id="5lnrt"></video></var>
<menuitem id="5lnrt"><strike id="5lnrt"></strike></menuitem>
<cite id="5lnrt"><span id="5lnrt"></span></cite>
<cite id="5lnrt"><video id="5lnrt"><menuitem id="5lnrt"></menuitem></video></cite>
<span id="5lnrt"></span>
<cite id="5lnrt"><video id="5lnrt"><var id="5lnrt"></var></video></cite>
<cite id="5lnrt"></cite>
<cite id="5lnrt"></cite>
<cite id="5lnrt"></cite>
<var id="5lnrt"><video id="5lnrt"></video></var>
<var id="5lnrt"><video id="5lnrt"><menuitem id="5lnrt"></menuitem></video></var>
<var id="5lnrt"></var><ins id="5lnrt"><video id="5lnrt"></video></ins>
<cite id="5lnrt"></cite>
<ins id="5lnrt"></ins>
<cite id="5lnrt"><span id="5lnrt"><var id="5lnrt"></var></span></cite><cite id="5lnrt"></cite>
<listing id="5lnrt"><strike id="5lnrt"><progress id="5lnrt"></progress></strike></listing>
<cite id="5lnrt"></cite>
<menuitem id="5lnrt"><video id="5lnrt"></video></menuitem>
<cite id="5lnrt"><video id="5lnrt"><menuitem id="5lnrt"></menuitem></video></cite><menuitem id="5lnrt"></menuitem>
<var id="5lnrt"></var>
<var id="5lnrt"></var>
<var id="5lnrt"></var>
<var id="5lnrt"><video id="5lnrt"></video></var>
海南飞鱼彩票推荐号码预测专家 湖北快3开奖结果实时查 11年双色球基本走势图 新11选5任五技巧 真人龙虎斗官网 山东20选5最新开奖结果 棒球游戏规则 3d开机号码和今晚上试机号 排列三走势图最近300 山西11选5任选3怎么玩 dnf怎么赚钱 安徽十一选五走势图一定 最新吉林快3开奖结果走势图 足球彩票任选9场公告 北京pk10牛牛是