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科研平台1

综合生物医学影像平台

发布时间:2018-08-28浏览量:374

 

综合生物医学影像平台

该中心是一个包括各类影像设备和医学软件的医学影像平台,该平台将为脑数据平台的发展起到重要的推动作用。同时,在脑数据平台的建设中,广泛布局的医疗设备如影像仪器,以及将人性化的扩展体检中心、家庭和个人手机客户端引入商业模式,纳入相关医保支付范畴,打造具有核心自主知识产权的“互联网+智能医疗健康”产品。

团队PI人员

张笑良 | 胡小平 |  林庆波  | 王鹤 |  罗畯义 | 张孝勇

主要研究方向

方向一:生物医学影像技术研发

磁共振新成像序列、重建技术、脑结构及功能成像、神经影像、波谱技术、医学图像后处理等。

方向二:分子影像学研究

脑损伤与修复的磁共振分子影像学研究;缺血性脑卒中的分子机制研究;肿瘤血管生成的分子显像;纳米磁颗粒定量成像;分子探针的研发与应用等。

方向三:磁共振技术应用

语言理解、注意和视知觉等脑认知功能的fMRI研究、神经结构影像动物模型、大脑生命周期及老龄化结构及功能影像、脑疾病如抑郁症、精神分裂症等相关研究。

方向四:影像辅助诊断

基于多模态影像的疾病诊断方法研究,包括脑卒中、脑肿瘤、肝癌、乳腺癌、胰腺癌等。

研究进展

林庆波教授团队通过多方合作,包含台湾乐生疗养院精神部苏宗伟主任、台中荣总精神部蓝祚鸿主任及其团队、以及英国剑桥大学Edward Bullmore教授,结合临床、影像以及计算模型等领域,揭开隐藏在精神分裂症之大脑功能网络系统的内在表现型(Endophenotype)。 精神分裂症是一种精神疾病,主要在情绪、思考、与感觉产生混乱,常见的征状包含幻听、幻觉、以及妄想等。精神分裂症具有高度遗传性,过去研究已证实患者大脑有不正常神经连接现象。近年来,功能性磁共振造影技术借由非侵入的方式侦测脑区之间的运作模式,可将大脑描绘成由点与线所构成之网络系统。本研究运用静息态功能性磁振影像,发现黄种人精神分裂症患者的大脑网络连结失衡,呈现较为随机化网络架构,与过去白种人为主体之研究结果相吻合,说明大脑网络随机化是精神分裂症中跨人种的重要标记。同时也发现,精神分裂症患者的大脑网络在主要神经网络节点受到攻击(例如大脑受其他疾病影响导致脑区无法运作)时,有较高的整体网络抵抗力,当精神分裂症患者的大脑网络受到攻击时,则依旧维持在过高的连结效率。一般健康人大脑均处于最佳化网络连结状态,但当主要脑区受到攻击时,整体连结效率会衰退得非常快(如同交通网络,当主要城市交通瘫痪时,则无法完成整体工作)。更重要的是,本研究团队发现在精神分裂症患者的健康近亲(包括父母、子女或兄弟姐妹)的大脑网络中,也有相似的随机化连结情形,都较一般健康受试者的神经网络杂乱;同时,患者与其近亲的大脑对于脑网络架构受到其他攻击时,皆有较高的抵抗性,显示大脑网络随机化及对于网络架构受攻击的抵抗力可能为精神分裂症之内在表现型或者遗传风险标记。

研究团队发现不仅精神分裂症患者有随机化大脑网络架构,他们的健康近亲的大脑网络亦有相似的随机化脑网络架构,称为潜在的内在表现型,也可能是未来早期诊断或预测高危险族群转换的依据。然而,此大脑网络内在表现型可能对于其他神经精神相关疾病的攻击具有较强的抵抗力,也可能说明了基因型对于精神分裂症之生物选择性及持续性。此次研究发现精神分裂症的大脑受基因调控所构成之神经网络特性,解开隐藏在病症下的内在表现型, 是此病症的专一性,也可能是抵抗其他病变的优势所在,无论在神经科学领域以及临床医学上,皆具有相当大的贡献与意义。

Reference:《Randomization and resilience of brain functional networks as systems-level endophenotypes of schizophreniaChun-Yi Zac Lo, Tsung-Wei Su, Chu-Chung Huang, Chia-Chun Hung, Wei-Ling Chen, Tsuo-Hung Lan, Ching-Po Lin*, and Edward T Bullmore, Randomization and resilience of brain functional networks as systems-level endophenotypes of schizophrenia, Proceedings of the National Academy of Sciences, 2015 vol. 112 (29) pp. 9123-9128. doi: doi.org/10.1073/pnas.1502052112.

代表成果

  1.  

    1. Li K, Li Z, Langley J, and Hu X [2015]. Connectivity profiles for individualized resting state networks and ROIs. Brain Connectivity 69-79

    2. Chen X, Huddleston D, Langley J, Ahn S, Barnum C, Factor SA, Levey AI, and Hu X [2014]. Simultaneous imaging of locus coeruleus and substantia nigra with a quantitative neuromelanin MRI approach. Magn Reson Imag 1301-1306.

    3. Felger J, Li Z, Haroon E, Woolwine B, Jung M, Hu X, and Andrew Miller. Inflammation is associated with decreased functional connectivity within corticostriatal reward circuitry in depression. Mol Psych (in press).

    4. Chen S, Langley J, Chen X, and Hu X. Spatiotemporal modeling of brain dynamics using resting-state fMRI with Gaussian hidden Markov model. Brain Connect (in press).

    5. Langle J, Huddleton DE, Merritt M, Chen X, McMurray R, Silver M, Factor SA and Hu X. Diffusion tensor imaging of the substantia nigra in Parkinson’s disease revisited. Human Brain Mapp (in press).

    6. Ji, B., Li, Z., Li, K., Li, L., Langley, J., Shen, H., Nie, S., Zhang, R., Hu, X. (2016) Dynamic thalamus parcellation from resting-state fMRI data. Hum Brain Mapp, 37:954-67.

    7. Langley, J., Huddleston, D.E., Chen, X., Sedlacik, J., Zachariah, N., Hu, X. (2015) A multicontrast approach for comprehensive imaging of substantia nigra. Neuroimage (cover article), 112:7-13.

    8. Li, Z., Coles, C.D., Lynch, M.E., Luo, Y., Hu, X. (2016) Longitudinal changes of amygdala and default mode activation in adolescents prenatally exposed to cocaine. Neurotoxicology and teratology, 53:24-32.

    9. Prudente, C.N., Stilla, R., Buetefisch, C.M., Singh, S., Hess, E.J., Hu, X., Sathian, K., Jinnah, H.A. (2015) Neural Substrates for Head Movements in Humans: A Functional Magnetic Resonance Imaging Study. J Neurosci, 35:9163-72.

    10. Xue, S., Yang, H., Qiao, J., Pu, F., Jiang, J., Hubbard, K., Hekmatyar, K., Langley, J., Salarian, M., Long, R.C., Bryant, R.G., Hu, X.P., Grossniklaus, H.E., Liu, Z.R., Yang, J.J. (2015) Protein MRI contrast agent with unprecedented metal selectivity and sensitivity for liver cancer imaging. Proc Natl Acad Sci U S A, 112:6607-12.

    11. Zhang, T., Kong, J., Jing, K., Chen, H., Jiang, X., Li, L., Guo, L., Lu, J., Hu, X., Liu, T. (2015) Multi-scale and Multimodal Fusion of Tract-tracing, Myelin Stain and DTI-derived Fibers in Macaque Brains. Med Image Comput Comput Assist Interv, 9350:246-54.

    12. Nai-Fang Chi, Ching-Po Lin*, Jen-Tsung Yang, Jr-Rung Lin, Chaur-Jong Hu, Tsong-Hai Lee* Protective Effect of Ischemic Preconditioning against Forebrain Ischemia in Adult and Aged Gerbils- Diffusion Tensor Imaging and Histopathological Study. Scientific Reports, 2016, (in press)

    13. Wei Cheng, Edmund T. Rolls; Jiang Qiu; Wei Liu, Yanqing Tang, Chu-Chung Huang, XinFa Wang, Jie Zhang, Wei Lin, Lirong Zheng, JunCai Pu, Shih-Jen Tsai, Albert C Yang, Ching-Po Lin*, Fei Wang*, Peng Xie*, Jianfeng Feng* Medial reward and lateral non-reward orbitofrontal cortex circuits change in opposite directions in depression. Brain, 2016, 139(12): 3296-3309

    14. Chun-Chao Huang, Shang-Hua Lin, Ching-Po Lin* The effect of network template from normal subjects in the detection of network impairment. Acta Neurobiol Exp, 2016, 76: 294–303

    15. Chih-Ping Chung, Kun-Hsien Chou, Wei-Ta Chen, Li-Kuo Liu, Wei-Ju Lee, Liang-Kung Chen*, Ching-Po Lin*, Pei-Ning Wang* Strictly Lobar Cerebral Microbleeds Are Associated with Deficits in Global Cognitive and Visuospatial Executive Function Cognitive Impairment. Stroke, 2016, 47(10): 2497-502

    16. Kun-Hsien Chou, Fu-Chi Yang, Jong-Ling Fuh, Chen-Yuan Kuo, Yi-Hsin Wang, Jiing-Feng Lirng, Yung-Yang Lin, Shuu-Jiun Wang*, Ching-Po Lin* Bout-associated intrinsic functional network changes in cluster headache: a longitudinal resting-state functional MRI study. Cephalalgia, 2016, (In press)

    17. Chiao-Yun Chen, Adrian Raine, Kun-Hsien Chou, I-Yun Chen, Daisy Hung, Ching-Po Lin*Abnormal White Matter Integrity in Rapists as Indicated by Diffusion Tensor Imaging. BMC Neuroscience, 2016, 17(1):45

    18. Albert C. Yang, Shih-Jen Tsai, Mu-En Liu, Chu-Chung Huang, Ching-Po Lin* The association of aging with white matter integrity and functional connectivity hubs. Frontiers in Aging Neurosciences, 2016, 8(2): 919-13

    19. Chu-Chung Huang, Mu-En Liu, Hung-Wen Kao, Kun-Hsien Chou, Albert C. Yang, Ying-Hsiu Wang, Tong-Ru Chen, Shih-Jen Tsai, Ching-Po Lin* Effect of Alzheimer's Disease Risk Variant rs3824968 at SORL1 on Regional Gray Matter Volume and Age-Related Interaction in Adult Lifespan. Scientific Reports, 2016, 6(23362): srep23362

    20. Chih-Ping Chung, Kun-Hsien Chou, Wei-Ta Chen, Li-Kuo Liu, Wei-Ju Lee, Liang-Kung Chen*, Ching-Po Lin*, Pei-Ning Wang* Cerebral microbleeds are associated with physical frailty – a community-based study. Neurobiology of Aging, 2016, 44: 143-50

    21. Shang-Hua Lin, Geng-Hong Lin, Pei-Jung Tsai, Albert C. Yang, Men-Tzung Lo, Ching-Po Lin*, Changwei W. Wu* Sensitivity Enhancement of Task-evoked fMRI using Ensemble Empirical Mode Decomposition. Journal of Neuroscience Methods, 2016, 258: 56-66

    22. Chen-Chia Lan, Shih-Jen Tsai, Chu-Chung Huang, Ying-Hsiu Wang, Tong-Ru Chen, Heng-Liang Yeh, Mu-En Liu, Ching-Po Lin*, Albert C. Yang* Functional Connectivity Density Mapping of Depressive Symptoms and Loneliness in Non-Demented Elderly Male. Frontiers in Aging Neuroscience, 2016, 7: e251

    23. Han-Jui Lee, Sheng-Che Hung, Ting-Rong Hsu, Shih-Chi Ko, Chui-Mei Tiu, Chu-Chung Huang, Dau-Ming Niu*, Ching-Po Lin* Brain MR imaging findings of cardiac type Fabry disease with an IVS4+919G>A mutation. AJNR, 2016, 37(6): 1044-1049

    24. Chun-Yi Zac Lo, Tsung-Wei Su, Chu-Chung Huang, Chia-Chun Hung, Wei-Ling Chen, Tsuo-Hung Lan, Ching-Po Lin*, Ed Bullmore Randomization and resilience of brain functional networks as systems-level endophenotypes of schizophrenia. Proceedings of the National Academy of Sciences, 2015, 112(29): 9123-9128

    25. Wei-Che Lin, Kung-Hsien Chou, Pei-Lin Lee, Yung‐Cheng Huang, Nai‐Wen Tsai, Hsiu‐Ling Chen, Kuei‐Yueh Cheng, Hung‐Chen Wang, Tsu‐Kung Lin, Shau‐Hsuan Li, Meng‐Hsiang Chen, Cheng‐Hsien Lu*, Ching-Po Lin* (2015). Brain mediators of systemic oxidative stress on perceptual impairments in Parkinson's disease. Journal of Translational Medicine, 2015, 13(1): 386

    26. Tsung-Wei Su, Tun-Wei Hsu, Yi-Ching Lin, Ching-Po Lin* Schizophrenia symptoms and brain network efficiency: A resting-state fMRI study. Psychiatry Research: NeuroImage, 2015, 234(2): 208-218

    27. Tun Jao, Manuel Schröter, Chao-Long Chen, Yu-Fan Cheng, Chun-Yi Zac Lo, Kun-Hsien Chou, Ameera X Patel, Wei-Che Lin*, Ching-Po Lin*, Edward T Bullmore Functional brain network changes associated with clinical and biochemical measures of the severity of hepatic encephalopathy. NeuroImage, 2015, 122: 332-344

    28. Chia-Yen Yang, Ching-Po Lin* Time-Varying Network Measures in Resting and Task States Using Graph Theoretical Analysis. Brain Topography, 2015, 28(4): 529–540

    29. Chia-Yen Yang, Ching-Po Lin* Gender difference in the theta/alpha ratio during the induction of peaceful audiovisual modalities. Journal of Integrative Neuroscience, 2015, 14(3): 343-354

    30. Chun-Chao Huang, Wen-Jin Hsieh, Pei-Lin Lee, Li-Ning Peng, Li-Kuo Liu, Wei-Ju Lee, Jon-Kway Huang, Liang-Kung Chen*, Ching-Po Lin* Age-related changes in resting-state networks of a large sample size of healthy elderly. CNS Neuroscience & Therapeutics, 2015, 21(10): 817-825

    31. Yu Sun, Fu-Chi Yang, Ching-Po Lin*, Ying Han* Biochemical and Neuroimaging Studies in Subjective Cognitive Decline: Progress and Perspectives. CNS Neuroscience & Therapeutics, 2015, 21(10): 768-775

    32. Hsiu-Ling Chen, Cheng-Hsien Lu, Cheng-Hsien Lu, Pei-Chin Chen, Kun-Hsien Chou, Wei-Ming Lin, Nai-Wen Tsai, Yu-Jih Su, Michael Frideman, Ching-Po Lin*, Wei-Che Lin* White Matter Damage and Systemic Inflammation in Obstructive Sleep Apnea. Sleep, 2015, 38(3): 361-70

    33. Fu-Chi Yang, Kun-Hsien Chou, Jong-Ling Fuh, Pei-Lin Lee, Jiing-Feng Lirng, Yung-Yang Lin, Ching-Po Lin*, Shuu-Jiun Wang* Altered hypothalamic functional connectivity in cluster headache: a longitudinal resting-state functional MRI study. Journal of Neurology, Neurosurgery, and Psychiatry, 2015, 86(4): 437-45

    34. Wang C, Zhang R, Zhang X, Wang H, Zhao K, Jin L, Zhang J, Wang X, Fang J. Simultaneous dynamic R2 R2', and R2* measurement using periodic π pulse shifting multiecho asymmetric spin echo sequence moving estimation strategy: A feasibility study for lower extremity muscle. Magn Reson Med. 2017;77:766-73.

    35. MM. Karaman, H. Wang, Y. Sui, HH. Engelhard, YH. Li, XJ. Zhou. A fractional motion diffusion model for grading pediatric brain tumors. NeuroIamge: Clinical. 2016;12:707-14.

    36. Wang C, Zhang R, Wang R, Jiang L, Zhang X, Wang H, Zhao K, Jin L, Zhang J, Wang X, Fang J. Noninvasive measurement of renal oxygen extraction fraction under the influence of respiratory challenge. J Magn Reson Imaging. 2016;44:230-37.

    37. Wang C, Zhao K, Zhang R, Jiang L, Wang R, Zhang X, Wang H, Jin L, Zhang J, Wang X, Fang J. Evaluation of renal oxygenation change under the influence of carbogen breathing using a dynamic R2 , R2 ' and R2 * quantification approach. NMR Biomed. 2016;29:1601-07.

    38. Y. Sui, H. Wang, GZ. Liu, FW. Damen, C. Wanamaker, YH. Li, XH. Zhou. Differentiation of Low- and High-Grade Pediatric Brain Tumors with High b-Value Diffusion-weighted MR Imaging and a Fractional Order Calculus Model. Radiology, 2015.

    39. CY. Wang, R. Zhang, XD. Zhang, H. Wang, K. Zhao, LX. Jin, J. Zhang, XY. Wang, J. Fang. Noninvasive Measurement of Lower Extremity Muscle Oxygen Extraction Fraction under Cuff Compression Paradigm. J Magn Reson Imaging, 2015.

    40. K. M, Y. Sui, H. Wang, RL. Magin, YH. Li, XH. Zhou. Differentiating Low- and High-Grade Pediatric Brain Tumors Using a Continuous-Time Random-Walk Diffusion Model at High b-Values. Magn Reson Med, 2015.

    41. ST. Suo, KB. Zhang, MQ. Cao, XS. Suo, JH. Hua, XC. Geng, J. Chen, ZG. Zhuang, X. Ji, Q. Lu, H. Wang, JR. Xu. Characterization of breast masses as benign or malignant at 3.0T MRI with whole-lesion histogram analysis of the apparent diffusion coefficient. J Magn Reson Imaging, 2015.

    42. JL. Gao, ST. Feng, BX. Wu, NJ. G, MH. L, PM. Wu, H. Wang, XM. He, BS. H. Microstructural Brain Abnormalities of Children of Idiopathic Generalized Epilepsy With Generalized Tonic-Clonic Seizure: A Voxel-Based Diffusional Kurtosis Imaging Study. J Magn Reson Imaging, 2015.

    43. D. Wang, ZH. Guo, XH. Liu, YH. Li, H. Wang. Examination of hippocampal differences between Alzheimer disease, amnestic mild cognitive impairment and normal aging: diffusion kurtosis. Curr Alzheimer Res, 2015.

    44. ST. Suo, N. Lin, H. Wang, LB. Zhang, R. Wang, S. Zhang, J. Hua, JR. Xu. Introvoxel incoherent motion diffusion-weighted MR imaging of cancer at 3.0 tesla: comparison of diffusion curve-fitting methods. J Magn Reson Imaging, 2015.

对外合作

我们与华山医院精神科以及上海精神卫生中心已建立了长期且深入的合作关系,在脑影像采集的项目已启动多年,特别是上海精神卫生中心对于老龄化问题开展了长期的研究,积累了大量的研究资料,也在积极筹划采集影像、基因、行为等多尺度老龄化数据。本研究院胡小平教授在脑成像机制的研究成果是目前脑成像领域的生理基础,也为复旦今后开发新的脑成像方法做好了充分的准备。他同时也是高场磁共振成像的先驱者,在高场上的工作为目前高场磁共振成像,尤其是脑成像,已为脑科学研究奠定了基础。此外,胡教授的小组在分子影像的成果,包括开发了磁共振成像的报告基因与纳米磁颗粒的定量成像,以及波谱成像在脑肿瘤药物治疗的评估和跟踪。在弥散成像方面,本研究院林庆波教授在复杂弥散磁振影像的验证和临床医学应用皆已有许多卓越的研究发表,做出独特的成绩

上海市浦东新区张江高科技园区张衡路825号复旦大学张江校区

  • 复旦大学类脑智能科学与技术研究院,复旦大学类脑研究院