中医药学院-孔维军导师介绍
孔维军
教授
硕,博士生导师
男
中医药学院
天然药物学
,中药学
中药复杂体系分析技术研究,中药质量分析,中药痕量外源性污染物分析,中药分析新技术新方法
kongwj302@126.com
2011年毕业于成都中医药大学,获医学博士学位。成都中医药大学、江西中医药大学、河南大学、中国医学科学院药用植物研究所硕士研究生兼职导师。
中华中医药学会中成药分会常务委员,中华中医药学会中药资源学分会第二届委员会委员、中华中医药学会中药化学分会第四届委员会委员,中国药学会第一届临床中药学专业委员会委员,中国医药生物技术协会药物分析技术分会第一届委员会委员,中药大品种联盟专家库成员,美国化学会会员。
先后主持国家自然科学基金面上项目、北京市自然科学基金面上项目、教育部高等学校博士学科点专项科研基金项目、中国医学科学院医学与健康科技创新工程子任务、中国医学科学院青年医学人才奖励项目、北京协和医学院青年教师项目、小规模特色办学经费资助北京协和医学院青年教师培养项目等课题10余项。国家自然科学基金项目通讯评审专家,教育部学位与研究生教育学位论文评审专家,分析测试百科网网络研讨会特约专家讲师及学术顾问。
获北京市科学技术奖1项(排名第5),荣获“中华中医药学会青年托举人才”、“协和新星”、“药植所杰出青年”、“2020、2021、2022年度药用植物研究所优秀指导教师”等称号。2013、2014年度中国医学科学院药用植物研究所优秀青年科技工作者。指导的研究生中有多人获得国家奖学金,并被评为“北京市优秀毕业生”。
为Journal of PharmaceuticalAnalysis、Chinese Medicine、Journal of Analysis and Testing、Acta Materia Medica、Chinese Herbal Medicines、《分析实验室》、《中南药学》期刊青年编委;Current Chromatography、Food Science and Engineering、Journal of Pharma & PharmaceuticalSciences、SEJ Biopharmaceutics、Journal of ExploratoryResearch in Pharmacology 期刊编委;已在Comprehensive Reviews in FoodScience and Food Safety、Trends in Food Science &Technology、Biosensors and Bioelectronics、Trends in Analytical Chemistry、Journal of Hazardous Materials、 AnalyticalChemistry、Analytica Chimica Acta、Food Chemistry、Chemosphere、Microchimica Acta等SCI期刊发表第一/共同第一及通讯作者论文80余篇,为ACS Sustainable Chemistry & Engineering、Talanta、Food Chemistry、Journal of Chromatography B、《药学学报》、《中国中药杂志》、《中草药》等杂志审稿人。
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科研项目
先后主持国家自然科学基金面上项目(5项)、北京市自然科学基金面上项目(2项)、教育部高等学校博士学科点专项科研基金项目、中国医学科学院医学与健康科技创新工程子任务、中国医学科学院青年医学人才奖励项目、北京协和医学院青年教师项目、小规模特色办学经费资助北京协和医学院青年教师培养项目等课题10余项。
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研究成果
(1)已发表论文:
1. Kai Deng, Xinqi Guo, Meizhu Guo, Xueying Li, Yining Zhang, Jiabo Wang, Yujiao Hou*, Weijun Kong*. One stone towards two birds: Y-shaped DNA probe and rGO-AuNPs aerogel-driven electrochemical aptasensor for AFB1 and OTA co-detection. Journal of Hazardous Materials, 2025, 496: 139451. (Co-corresponding author).
2. Nan Long, Qingbin Xu, Pengyue Song, Ying Li, Yujiao Hou, Jiabo Wang*, Weijun Kong*. Nanoparticles-assisted lateral flow immunoassays for mycotoxins: A state-of-the-art review. Trends in Environmental Analytical Chemistry, 2025, 45: e00254. (Co-corresponding author)
3. Wenjuan Wu, Pengyue Song, Qingbin Xu, Ying Li, Jianlong Liu, Tingting Di, Jiabo Wang, Bin Fu, Yujiao Hou*, Weijun Kong*. “Three-in-One” MIL@PDA-UiOL@AIEgens driven lateral flow immunosensor for multimodal detection of aflatoxin B1. Food Chemistry, 2025, 486: 144635. (Co-corresponding author)
4. Pengyue Song, Doudou Lei, Lingling Li, Nan Long, Qingbin Xu, Ying Li, Lidong Zhou*, Ruile Pan*, Weijun Kong*. AuNCs@ZIF-8 with enhanced AIE effect to develop a lateral flow immunosensor for POC dual-modal detection of acetochlor. Talanta, 2025, 287: 127649. (Co-corresponding author)
5. Ruiqi Yang, Liping Zhao, Mengqi Fang, Weijun Kong*, Yunxia Luan*. CRISPR-Cas12a-driven aptasensor for sensitive detection of alternariol by using a personal glucose meter. Talanta, 2025, 286: 127496. (Co-corresponding author)
6. Runran Ma, Te Li, Xueying Li, Jianwei Han, Xin Zhang, Tingting Di, Jiabo Wang*, Weijun Kong*. Advanced cortisol detection: A cMWCNTs-enhanced MB@Zr-MOF ratiometric electrochemical aptasensor. Bioelectrochemistry, 2025, 163: 108914. (Co-corresponding author)
7. Lingling Li, Doudou Lei, Pengyue Song, Lidong Zhou, Jiabo Wang, Weijun Kong*. Research advance of time-resolved fluoroimmunoassay for pesticides detection in food. Food & Medicine Homology, 2026, 3: 9420105.
8. Wenjuan Wu, Ying Li, Pengyue Song, Qingbin Xu, Doudou Lei, Jiabo Wang, Bin Fu, Weijun Kong*. UiOL@AIEgens-assisted lateral flow immunosensor for the ultrasensitive dual-modal point-of-care detection of aflatoxin B1. Journal of Hazardous Materials, 2024, 465: 133103. (Corresponding author).
9. Ying Li, Pengyue Song, Qingbin Xu, Wenjuan Wu, Nan Long, Jiabo Wang, Lidong Zhou*, Ruile Pan*, Weijun Kong*. Nitrogen-doped carbon dot and DNA tetrahedron nanostructure based electrochemiluminescence aptasensor for AFB1 detection. Sensors and Actuators: B. Chemical, 2024, 401: 135024. (Co-cprresponding author)
10. Kai Deng, Haipeng Guo, Xueying Li, Te Li, Tingting Di, Runran Ma, Doudou Lei, Yining Zhang, Jiabo Wang, Weijun Kong*. Two swords combination: Smartphone-assisted ratiometric fluorescent and paper sensors for dual-mode detection of glyphosate in edible malt. Food Chemistry, 2024, 454: 139744. (Corresponding author)
11. Ying Li, Boyu Jia, Pengyue Song, Nan Long, Linchun Shi, Peng Li, Jiabo Wang, Lidong Zhou, Weijun Kong*. Precision-SELEX aptamer screening for the colorimetric and fluorescent dual-readout aptasensing of AFB1 in food. Food Chemistry, 2024, 436: 137661. (Corresponding author)
12. Doudou Lei, Lingling Li, Pengyue Song, QingBin Xu, Lihua Huang, Xiao Ma, Lidong Zhou, Weijun Kong*. Construction of a N-CDs/AuNCs@ZIF-8-assisted ratiometric fluorescent nanosensor for glyphosate detection in edible and medicinal malt. Food Chemistry: X, 2024, 24: 10983. (Corresponding author)
13. Jing Wang, Qingbin Xu, Yang Yang, Jinxin Liu*, Weijun Kong*, Linchun Shi*. An electrochemical sensor founded on heterogeneous MXene & MOF composite for tanshinol sensing. Talanta, 2024, 268: 125344. (Co-corresponding author)
14. Qingbin Xu, Jing Wang, Pengyue Song, Ying Li, Nan Long, Wenjuan Wu, Lidong Zhou, Linchun Shi*, Ruile Pan*, Weijun Kong*. 3D nanocake‑like Au‑MXene/Au pallet structure-based label‑free electrochemical aptasensor for paraquat determination. Microchimica Acta, 2024, 191: 33. (Co-corresponding author)
15. Xueying Li, Te Li, Jiahuai Zhang, Qing Zhang, Kai Deng, Runran Ma, Jiabo Wang, Weijun Kong*. Establishment of a dual-signal enhanced fluorescent aptasensor for highly sensitive detection of ochratoxin A. ACS Omega, 2024, 9, 21035-21041. (Corresponding author)
16. Wenjuan Wu, Ying Li, Pengyue Song, Qingbin Xu, Nan Long, Peng Li, Lidong Zhou, Bin Fu, Jiabo Wang, Weijun Kong. Metal-organic framework (MOF)-based sensors for exogenous contaminants in food: Mechanisms, advances, and prospects. Trends in Food Science & Technology, 2023, 138: 238-271. (Co-corresponding author).
17. Runran Ma, Lizhu Fu, Nan Long, Haipeng Guo, Yujiao Hou, Ying Li, Peng Li, Jiabo Wang, Lidong Zhou, Weijun Kong. Gold Nanoclusters and Silica-Coated Carbon Dots-Assisted Ratiometric Fluorescent Nanosensors for Ultrasensitive Detection of Glyphosate. ACS Sustainable Chemistry & Engineering, 2023, 11, 5093−5104. (Corresponding author).
18. Xiaofang Liao, Ying Li, Nan Long, Qingbin Xu, Peng Li, Jiabo Wang, Lidong Zhou, Weijun Kong. Multi-mycotoxin detection and human exposure risk assessment in medicinal foods. Food Research International, 2023, 164: 112456. (Corresponding author)
19. Jing Wang, Qingbin Xu, Jinxin Liu, Weijun Kong, Linchun Shi. Electrostatic Self-Assembly of MXene on Ruthenium Dioxide-Modified Carbon Cloth for Electrochemical Detection of Kaempferol. Small, 2023, 19, 2301709. (Co-corresponding author).
20. Wenjuan Wu, Ying Li, Qingbin Xu, Nan Long, Pengyue Song, Jiabo Wang, Lidong Zhou, Bin Fu, Weijun Kong. Polydopamine-coated HKUST MOFs-based strip lateral flow immunoassay for on-site ultrasensitive detection of aflatoxin B1 in foods. Food Control, 2023, 152: 109864. (Co-corresponding author)
21. Haipeng Guo, Ruiqi Yang, Doudou Lei, Xiao Ma, Dingkun Zhang, Peng Li, Jiabo Wang, Lidong Zhou, Weijun Kong. Red-emissive carbon dots based fluorescent and smartphone-integrated paper sensors for sensitive detection of carbendazim. Microchemical Journal, 2023, 190: 108586. (Corresponding author)
22. YujiaoHou, Nan Long, Qingbin Xu, Ying Li, Pengyue Song, Minghan Yang, Jiabo Wang,Lidong Zhou, Ping Sheng, Weijun Kong.Development of a Nafion-MWCNTs and in-situ generated Au nanopopcorns dual-amplificationelectrochemical aptasensor for ultrasensitive detection of OTA. Food Chemistry, 2023, 403: 134375. (Corresponding author).
23. Yujiao Hou, Boyu Jia, Ping Sheng, Xiaofang Liao,Linchun Shi, Ling Fang, Lidong Zhou, Weijun Kong. Aptasensors formycotoxins infoods: Recent advances and future trends. Comprehensive Reviews in Food Scienceand Food Safety. 2022, 21: 2032-2073. (corresponding author)
24. Xin Zhang, Xiaofang Liao, Yujiao Hou, BoyuJia, Lizhu Fu, Mingxuan Jia, Lidong Zhou, Jinghua Lu, Weijun Kong. Recentadvances in synthesis and modification of carbon dots for optical sensing ofpesticides. Journal of Hazardous Materials, 2022, 422: 126881. (correspondingauthor)
25. Mingxuan Jia, Boyu Jia, Xiaofang Liao,Linchun Shi, Zheng Zhang, Miao Liu, Lidong Zhou, Donghui Li, Weijun Kong. ACdSe@CdS quantum dots based electrochemiluminescence aptasensor for sensitivedetection of ochratoxin A. Chemosphere, 2022, 287: 131994. (correspondingauthor)
26. Ling Fang, Nan Long, Ying Li, Xiaofang Liao,Linchun Shi, Haiping Zhao, Lidong Zhou, Weijun Kong. Transfer behavior ofpesticides from honeysuckle into tea infusions: Establishment of an empiricalmodel for transfer rate prediction. Ecotoxicology and Environmental Safety,2022, 234: 113377. (corresponding author)
27. Xin Zhang, Lizhu Fu, Yujiao Hou, Nan Long,Guangqiang Zhu, Xiaofang Liao, Lidong Zhou, Jinghua Lu, Weijun Kong. Anitrogen-doped carbon dots based fluorescent nanosensor for sensitive assay ofFe3+ ions in Dioscorea opposita Thunb. Industrial Crops & Products, 2022,177: 114439. (corresponding author)
28. Yujiao Hou, Nan Long, Boyu Jia, XiaofangLiao, Minghan Yang, Lizhu Fu, Lidong Zhou, Ping Sheng, Weijun Kong. Developmentof a label-free electrochemical aptasensor for ultrasensitive detection ofochratoxin A. Food Control, 2022, 135: 108833. (co-corresponding author)
29. Lizhu Fu, Yujiao Hou, Haipeng Guo, Chang Liu,Ying Li, Boyu Jia, Lidong Zhou, Weijun Kong. Gold nanoparticles andnitrogen-doped carbon dots based fluorescent nanosensor for ultrasensitivedetection of thiram in hawthorn. Microchemical Journal, 2022, 176: 107253. (correspondingauthor)
30. Qing Zhang, Ling Fang, Boyu Jia, Nan Long,Linchun Shi, Lidong Zhou, Haiping Zhao, Weijun Kong. Optical lateral flow teststrip biosensors for pesticides: Recent advances and future trends. Trends inAnalytical Chemistry, 2021, 144: 116427. (corresponding author)
31. Ling Fang, Mingxuan Jia, Haiping Zhao,Linzhi Kang, Linchun Shi, Lidong Zhou, Weijun Kong. Molecularly imprintedpolymer-based optical sensors for pesticides in foods: Recent advances andfuture trends. Trends in Food Science & Technology, 2021, 116: 387-404. (correspondingauthor)
32. Nan Long, Jinxin Liu, Xiaofang Liao, BoyuJia, Jiali Liu, Lidong Zhou, Linchun Shi, Weijun Kong. Fungal communities inNelumbinis semen characterized by high-throughput sequencing. InternationalJournal of Food Microbiology, 2021, 359: 109428. (co-corresponding author)
33. MingxuanJia, Xiaofang Liao, Ling Fang, BoyuJia, Miao Liu, Donghui Li, Lidong Zhou, Weijun Kong. Recent advances on immunosensorsfor mycotoxins in foods and other commodities. Trends in Analytical Chemistry,2021, 136: 116193. (corresponding author)
34. BoyuJia, Xiaofang Liao, Chaonan Sun,Ling Fang, Lidong Zhou, Weijun Kong. Development of a quantum dotnanobead-based fluorescent strip immunosensor for on-site detection ofaflatoxin B1 in lotus seeds. FoodChemistry, 2021, 356: 129614. (co-corresponding author)
35. Xiaofei Liu, Xiaofang Liao, Boyu Jia,Chaonan Sun,Lidong Zhou, Weijun Kong. Development of a multi-channel magneticbead micro-probe assay for high-throughput detection of zearalenone in edibleand medicinal Coix seed. Food Chemistry, 2021, 347: 128977. (co-correspondingauthor)
36. Ling Fang, Xiaofang Liao, Qing Zhang,Linchun Shi,Lidong Zhou, Haiping Zhao, Weijun Kong. An orthogonal experimental designand QuEChERS based UFLC-MS/MS for multi-pesticides and human exposure riskassessment in Honeysuckle. Industrial Crops & Products, 2021, 164: 113384.(co-corresponding author)
37. Ling Fang, Xiaofang Liao, BoyuJia,Linchun Shi, Linzhi Kang, Lidong Zhou, Weijun Kong. Recent progress inimmunosensors for pesticides. Biosensors and Bioelectronics, 2020, 164: 112255.(co-corresponding author)
38. ChaonanSun,Xiaofang Liao, Pinxuan Huang, Guangzhi Shan, Xiao Ma, Lizhu Fu, LidongZhou,Weijun Kong. A self-assembled electrochemical immunosensor for ultra-sensitivedetection of ochratoxin A in medicinal and edible malt. Food Chemistry, 2020,315: 126289. (co-correspondingauthor)
39. ChaonanSun,Xiaofang Liao, Boyu Jia, Linchun Shi, Dingkun Zhang, Ruilin Wang, LidongZhou,Weijun Kong. Development of a ZnCdS@ZnS quantum dots-based label-freeelectrochemiluminescence immunosensor for sensitive determination of aflatoxinB1 in lotus seed. MicrochimicaActa, 2020, 187: 236. (co-corresponding author)
40. XiaofangLiao, BoyuJia, Chaonan Sun, Linchun Shi, Xi Liu, Lidong Zhou, Weijun Kong. Reuse ofregenerated immunoaffinity column for excellent clean-up and low-costdetectionof trace aflatoxins in malt. Microchemical Journal, 2020, 157, 105007.(co-corresponding author)
41. XiaofangLiao,Chaonan Sun, Fang Wei, Lidong Zhou, Weijun Kong. Exploration ofthe safe watercontent and activity control points for medicinal and edible lotus seeds frommildew. AMB Express, 2020, 10: 89. (co-corresponding author)
42. Xiaofei Liu,Guangyao Ying, Xiaofang Liao, Chaonan Sun, FangWei, Xiaoyan Xing, Linchun Shi,Yifan Sun, Weijun Kong, Lidong Zhou. Cytometric microbead magnetic suspensionarray for high-throughput ultrasensitive detection of aflatoxin B1. AnalyticalChemistry, 2019, 91: 1194-1202. (co-corresponding author)
43. Qiutao Liu,Changbin Xiao, HongmeiLiu, Yichen Hu, Weiying Guo, Weijun Kong. Sensitiveassessment of multi-class mycotoxins residue in Atractylodisrhizome. IndustrialCrops & Products, 2019, 127:1-10. (corresponding author)
44. Fang Wei, XiaofeiLiu, XiaofangLiao, Linchun Shi, Shuwei Zhang, Jinghua Lu, Lidong Zhou, WeijunKong. Simultaneous determination of 19 mycotoxins in lotus seed using a multi-mycotoxinUFLC-MS/MSmethod. Journal of Pharmacy and Pharmacology, 2019, 71: 1172-1183.(co-corresponding author)
45. Pinxuan Huang,Qiutao Liu, Jiabo Wang, Zhijie Ma, Jinghua Lu,Weijun Kong. Development of an economicultrafast liquid chromatography with tandem mass spectrometry method for traceanalysis of multiclass mycotoxins in Polygonum multiflorum. Journal ofSeparation Science, 2019, 42: 491-500. (co-corresponding author)
46. Xi Liu, XiaofeiLiu, Pinxuan Huang,Fang Wei, Guangyao Ying, Jinghua Lu, Lidong Zhou, WeijunKong. Regeneration andreuse of immunoaffinity column for highly efficient clean-up and economicdetection of ochratoxin A in malt and ginger. Toxins, 2018,10: 462(co-corresponding author)
47. Guangyao Ying,Xiaofei Liu, HaiweiWang, Ruilin Wang, Xinping Ma, Weiying Guo, Weijun Kong. An economic and greenstrategy for preventing Chinese medicinal materials from toxigenic fungi:Couplet medicine technique. Industrial Crops & Products, 2018, 124: 429-434.(corresponding author)
48. Haiwei Wang, Zhixin Yang, GuangyaoYing, Meihua Yang, Yujiao Nian, FangWei, Weijun Kong. Antifungal evaluation ofplant essential oils and their major components against toxigenic fungi.Industrial Crops &Products, 2018, 120: 180-186. (corresponding author)
49. Xiaofei Liu, Guangyao Ying, ChaonanSun, Meihua Yang, Lei Zhang, Shanshan Zhang, Xiaoyan Xing, Qian Li, WeijunKong. Development of an ultrasonication-assisted extraction based HPLC with a fluorescencemethod for sensitive determination of aflatoxins in highly acidicHibiscussabdariffa. Frontiers in Pharmacology, 2018, 9: 284. (corresponding author)
50. Yujiao Nian, Haiwei Wang, GuangyaoYing, Meihua Yang, Ze Wang, Weijun Kong, ShihaiYang. Transfer rates ofaflatoxins from herbal medicines to decoctions determined by an optimizedhigh-performance liquid chromatography with fluorescence detection method.Journal of Pharmacy and Pharmacology, 2018, 70: 278-288. (co-correspondingauthor)
51. Zhixin Yang, Haiwei Wang, GuangyaoYing, Meihua Yang, Yujiao Nian, Jiajia Liu, Weijun Kong*. Relationship ofmycotoxins accumulation and bioactive components variation in ginger afterfungal inoculation. Frontiers in Pharmacology, 2017, 8:331.(co-correspondingauthor)
52. Weijun Kong, Changbin Xiao, GuangyaoYing, Xiaofei Liu, Xiaohong Zhao, Ruilin Wang, Li Wan, Meihua Yang. Magneticmicrospheres-based cytometric bead array assay for highly sensitive detectionof ochratoxin A. Biosensors and Bioelectronics, 2017, 94: 420-428.
(2)主编及参编著作
1)《水蛭的现代研究》,2020年,主编。
2)《中药真菌及真菌毒素污染研究与对策》,2020年,编委。
3)《中药质量控制与分析》,2020年,编委。
4)《中药质量生物评价》,2018年,编委。
(3)专利
已申请发明专利4项,授权3项。
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学校介绍
首都医科大学建校于1960年,是北京市重点高等院校,著名泌尿外科专家、中国科学院院士、中国工程院院士、原全国人大常委会副委员长吴阶平教授为首任院长。学校由校本部和附属医院(即临床医学院)组成。校本部设有基础医学院、生物医学工程学院、公共卫生与家庭医学学院、高等职业教育学院、中医药学院、顺义校区、继续教育学院、护理学院、卫生事业管理与发展学院及首都医科大学国际教学部;附属医院包括宣武医院(第一临床医学院)、附属北京友谊医院(第二临床医学院)、附属北京朝阳医院(第三临床医学院)、附属北京同仁医院(第四临床医学院)、附属北京天坛医院(第五临床医学院)、附属北京安贞医院(第六临床医学院)、附属北京口腔医院(口腔医学院)、附属北京儿童医院(儿科医学院)、附属北京妇产医院(妇产医学院)、附属北京安定医院(精神卫生学院)、附属复兴医院(第八临床医学院)、附属北京中医医院(中医药临床医学院)和康复医学院。
学校和附属医院现有教职员工和医护人员22575人。有院士4人,正高职称700余人,副高职称1800余人。学校学科专业齐全,学科力量雄厚,在基础和临床各专业拥有一大批具有很高造诣的专家学者,现有3个国家级重点学科,有38个博士学位授予权学科,58个硕士学位授予权学科和2个博士后科研流动站。
校本部和附属医院总占地面积97.3万平方米,总建筑面积134万平方米 ,固定资产总值近46.5亿元,图书馆藏书108.3万册 ,住院病床10039张。学校开办的七年制专业中设有临床医学和口腔医学;五年制专业中设有临床医学、口腔医学、预防医学、护理学、中医学等;四年制专业中设有生物医学工程、中药学和康复治疗学。在临床医学专业中设有儿科医学、康复医学、医学影像、精神卫生与精神病学和医学检验5个专业方向;在生物医学工程专业中设有医学影像设备与技术和听力学专业方向。高等职业教育设有护理、医学检验、药学、医学影像技术、康复技术、口腔修复工艺、眼科验光、实验动物技术、中医学、中药制剂、医学信息、临床医学、预防医学、中药经营贸易和中医学美容专业方向15个专业。首都医科大学现已成为以培养高层次本科生与研究生为核心、以临床应用型人才为主和培养预防、康复、生物医学工程和医学基础各学科、各层次人才,位于全国先进医学院校行列的高等学府。
学校具有较强的学术发展与科研实力,在校本部和附属医院建有一批国家级和市级重点学科和重点实验室,建有高水平的国家级或市级研究和培训机构,如卫生部全科医学培训中心、临床医学研究所、基础医学研究所、神经科学研究所、眼科研究所、老年病医疗研究中心、泌尿外科研究所、心肺血管医疗研究中心、生命科学院、卫生毒理检测中心、生物工程技术研究中心、祖国医学研究所、临床疾病研究中心、中医肝病临床研究中心、生殖医学研究所、心血管疾病临床试验及社区干预中心和北京市卫生政策与卫生经济研究中心等。神经生物学、细胞生物学、电生理学、基础免疫学、实验寄生虫学、医学图像处理、生物医学、信息检测与处理、神经内科、神经外科、心脏内外科、肾移植、呼吸和消化内科、口腔颌面外科、眼科、耳鼻咽喉科、小儿血液病等领域在国内外享有较高声誉,很多学科的研究和医疗水平已经达到或接近国际先进水平。
学校十分重视对外交流与合作,改革开放以来,先后与世界20多个国家和地区签定了友好交流协议, 近十年中,先后接待美国、加拿大、英国、澳大利亚、法国、瑞典、日本、荷兰、意大利、德国、丹麦及台湾、香港和澳门等50多个国家和地区的专家学者8000余人次来校进行学术交流和参观访问。同时,学校积极选送教师、科研人员和管理干部出国进修、参加学术会议和考察访问。
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