1.药学基础研究
[1]β-catenin disruption decreases macrophage exosomal α-SNAP and impedes Treg differentiation in acute liver injury.Published November 19, 2024 .JCI Insight. https://doi.org/10.1172/jci.insight.182515.(肝纤维化基础研究)
[2]The ROS-responsive FA@Ni@HA hydrogel promotes infected wound healing in DIO mice through endogenous antimicrobial peptides and macrophage recruitment.Chemical Engineering Journal.Volume 500, 15 November 2024, 157300.(糖尿病创面愈合机制及材料)
[3]Double-Layered Microneedle Patch Integrated with Multifunctional Nanoparticles and Live Bacteria for Long-Term Treatment of Atopic Dermatitis.First published: 15 November 2024 https://doi.org/10.1002/smll.202409121.(微针贴片治疗特应性皮炎)
[4]MMP-9 responsive hydrogel promotes diabetic wound healing by suppressing ferroptosis of endothelial cells.Bioactive Materials,2025,43:240-254(糖尿病创面愈合机制及材料)
[5] Discovery of Novel ERα and Aromatase Dual-Targeting PROTAC Degraders to Overcome Endocrine-Resistant Breast Cancer. Journal of Medicinal Chemistry. 2024 May 29.(乳腺癌研究)
[6]Hypoxia endothelial cells-derived exosomes facilitate diabetic wound healing through improving endothelial cell function and promoting M2 macrophages polarization,Bioactive Materials,2024,33:157-173(糖尿病创面愈合机制及材料)ESI全球1%高被引与0.1%热点论文,100篇湖北省优秀科技论文
[7]Targeting METTL3 reprograms the tumor microenvironment to improve cancer immunotherapy,Cell chemical biology,2023,https://doi.org/10.1016/j.chembiol.2023.09.001(癌症研究,Cell子刊)
[8]A mitochondrial EglN1-AMPKα axis drives breast cancer progression by enhancing metabolic adaptation to hypoxic stress,The EMBO journal,2023,42:e113743(乳腺癌研究,欧洲分子生物学杂志)
[9]Glucose-responsive, antioxidative HA-PBA-FA/EN106 hydrogel enhanced diabetic wound healing through modultion of FEM1b-FNIP1 axis and promoting angiogenesis,Bioactive Materials,2023,30:29-45(糖尿病创面愈合机制及材料)封面论文,100篇湖北省优秀科技论文
[10]Oral therapy of recombinant Subtilisin QK-2 potentiates thrombolytic effect in a carrageenan-induced thrombosis animal model,Journal of Functional Foods,2022,88:104896(抗凝新药动物模型研究)
[11]The application of biomacromolecules to improve oral absorption by enhanced intestinal permeability:A mini-review,Chinese Chemical Letters,2020,31(07):1729-1736(药物递送体系)
[12]A DNA Methylation-Based Panel for the Prognosis and Dagnosis of Patients With Breast Cancer and Its Mechanisms,Frontiers in molecular biosciences,2020,7:https://doi.org/10.3389/fmolb.2020.00118(癌症研究)
[13](±)-Walskiiglucinol A, a pair of rearranged acylphloroglucinol derivative enantiomers from Hypericum przewalskii,Organic biomolecular chemistry,2022,20:https://doi.org/10.1039/D2OB00562J(天然产物异构体研究)
[14]A density-tunable liquid-phase microextraction system based on deep eutectic solvents for the determination of polycyclic aromatic hydrocarbons in tea, medicinal herbs and liquid foods, Food Chemistry, 2021, 352: 129331
[15]Molecular beacon-peptide probe based double recycling amplification for multiplexed detection of serum exosomal microRNAs,Analytical Methods,2024,7:https://doi.org/10.1039/D4AY00629A
2.临床药学和医院药学
2.1临床药学教学
[1]临床药师培训和住院医师规范化培训的比较及启示[J].中南药学,2020,18(09):1595-1598
[2]基于一线药师认知与岗位实践的医院门诊药师规范化教学培训课程建设[J].中国多媒体与网络教学学报(上旬刊),2020,(09):212-214
[3]临床药学专业研究生药品质量检验基本实验技术的课程建设[J].中国多媒体与网络教学学报(上旬刊),2020,(04):197-199
[4]临床药学专业研究生学术与临床能力兼备的培养模式探索[J].中国多媒体与网络教学学报(上旬刊),2020,(01):119-122
[5]《临床药理学》绪论“药品的全生命周期”知识点微课视频制作[J].中国多媒体与网络教学学报(上旬刊),2020,(03):7-8+11
[6]临床药学专业研究生学术与临床能力兼备的培养模式探索[J].中国多媒体与网络教学学报(上旬刊),2020,(01):119-122
[7]基于人工智能LLM技术的虚拟患者系统构建与临床教学应用[J].医学新知, 2024, 34(7): 833-842.
2.2临床药学
[1]新型抗肿瘤药物致神经系统疾病综述及风险信息管理[J].药物流行病学杂志,2024,33(01):9-18
[2]基于海量处方医嘱条目信息的医院安全合理用药信息化示范应用场景构建[J].中国药师,2023,26(12):527-534.DOI:10.12173/j.issn.1008-049X.202304012
[3]常用的慢性非传染性疾病患者健康评估工具简介[J].药物流行病学杂志,2023,32(06):702-709.DOI:10.19960/j.issn.1005-0698.202306013
[4]中国居家药学服务的文献计量学研究及可视化分析[J].中国医院药学杂志,2022,42(24):2670-2675.DOI:10.13286/j.1001-5213.2022.24.17
[5]临床新兴抗肿瘤治疗方法发展概述[J].肿瘤防治研究,2022,49(03):176-181
[6]武汉市11家大型三甲医院中草药房调剂工作现状调查[J].中国药师,2021,24(03):610-613
[7]食品中抗生素残留的预处理及检测方法研究进展[J].食品与药品,2020,22(04):304-309
[8]维生素D在神经系统疾病中的作用[J].中国医院药学杂志,2015,35(17):1616-1619.DOI:10.13286/j.cnki.chinhosppharmacyj.2015.17.23
[9]甘草次酸与甘草酸二铵抗炎护肝作用的实验研究[J].中国药师,2012,15(05):604-606
[10]免疫重建炎性综合征研究进展[J].中国全科医学,2011,14(33):3776-3778+3792
[11]基于国外经验的基本药物可获得性和可及性探讨[J].中国药房,2011,22(20):1833-1835
2.3药物临床评价
[1]Global and Regional Burden of Bacterial Antimicrobial Resistance in Urinary Tract Infections in 2019,Journal of Clinical Medicine,2022,11(10):2817-2817
[2]急性STEMI患者行PCI术后应用替格瑞洛治疗的疗效及安全性Meta分析[J].药物流行病学杂志,2020,29(04):221-226+232.DOI:10.19960/j.cnki.issn1005-0698.2020.04.001
[3]依达拉奉联合氯吡格雷对比单用氯吡格雷治疗急性脑梗死疗效与安全性的Meta分析[J].中国药房,2016,27(33):4675-4678
[4]卡维地洛对比美托洛尔治疗慢性心力衰竭疗效和安全性的Meta分析[J].中国药房,2015,26(06):788-792
[5]甘油果糖注射液对比甘露醇注射液治疗脑水肿疗效和安全性的Meta分析[J].中国药房,2014,25(44):4140-4143
[6]培哚普利治疗心力衰竭疗效的系统评价[J].中国药房,2015,26(03):344-347
[7]福辛普利治疗轻、中度原发性高血压疗效和安全性的系统评价[J].中国药房,2014,25(36):3372-3376
[8]培哚普利治疗高血压的临床疗效及安全性系统评价[J].中国医院用药评价与分析,2014,14(06):515-519.DOI:10.14009/j.issn.1672-2124.2014.06.009
[9]复方丹参滴丸治疗冠心病心绞痛的有效性和安全性系统评价[J].医药导报,2013,32(01):100-105
[10]格列齐特缓释片治疗2型糖尿病的有效性与安全性系统评价[J].医药导报,2011,30(11):1442-1445
2.4湖北省科技成果
[1]重大新发突发传染病临床应急救治与应急药学创新策略及全程应用,武汉大学,国际领先水平,2023-11-15.
[2]安全合理用药研究与应用,武汉大学,国际先进水平,2013-03-19.
[3]新药临床前研究与临床评价体系构建及应用,武汉大学中南医院,国际先进水平,2013-02-28.
2.5药品生产批件4项:
炎琥宁无菌原料药,注射用炎琥宁;
3类新药兰索拉唑原料药,注射用兰索拉唑。
2.6三类新药原料药审批意见通知件与临床试验批件26项:
非诺贝酸胆碱原料药及缓释胶囊;
艾曲泊帕乙醇胺原料药及片剂;
磷酸二甲啡烷原料药及片剂、颗粒剂、糖浆剂;
醋酸钠林格葡萄糖注射液;
盐酸氯卡色林原料药及片剂;
复方醋酸钠葡萄糖注射液;
碳酸氢钠林格注射液;
硝酸异康唑原料药及栓剂、阴道软胶囊;
硝酸芬替康唑原料药及阴道软胶囊;
硝酸布康唑原料药及栓剂、阴道软胶囊等。
2.7新药研发相关发明专利
2.7.1授权发明专利
[1]一种阿昔替尼药物制剂及其制备方法.第一发明人.ZL202210786731.8
[2]一种炎琥宁无菌原料药的制备方法.第一发明人.ZL201910800928.0
[3]一种盐酸二甲双胍化合物及盐酸二甲双胍片组合物.第一发明人.ZL201910562736.0
[4]碳酸氢钠注射液包装用碳酸氢钠缓释片.第一发明人.ZL202010864823.4
[5]碳酸氢钠林格注射液及其制备方法.第一发明人.ZL201910636574.0
[6]醋酸阿比特龙制剂及其制备方法.第一发明人.ZL201911225983.8
[7]一种盐酸多巴胺注射液及其制备方法.第一发明人.ZL202010383788.4
[8]一种恩杂鲁胺化合物及其药物组合物制剂.第二发明人.ZL202010009858.X
[9]一种2,4-二羟基-3,3-二甲基丁酸的合成方法.第三发明人.ZL201910565017.4
[10]一种安全有效的镇咳药磷酸二甲啡烷的制备方法.第三发明人.ZL201410104046.8
[11]尼莫地平注射液及其制备方法.第一发明人.ZL202310465325.6
[12]一种高效液相色谱法测定虫草中虫草素含量的方法.第一发明人.ZL201910699621.6
2.7.2受理发明专利
[1]尼莫地平注射液及其制备方法.第一发明人.ZL202310465325.6
2.8新药研发相关论文
[1]正交试验优选磷酸二甲啡烷片的处方工艺[J].中国药房,2016,27(07):952-955
[2]顶空毛细管气相色谱法测定硝酸异康唑中5种有机溶剂残留[J].中国医院药学杂志,2016,36(01):9-12.DOI:10.13286/j.cnki.chinhosppharmacyj.2016.01.03
[3]冰片-葛根素脂质体的制备及其脑靶向性研究[J].中国药房,2015,26(28):3964-3966
[4]抗真菌新药硝酸异康唑的研究进展[J].中国药师,2015,18(07):1206-1208
[5]顶空气相色谱法测定硝酸布康唑中有机溶剂残留量[J].医药导报,2015,34(08):1072-1074
[6]抗真菌新药硝酸异康唑的研究进展[J].中国药师,2015,18(07):1206-1208
[7]苦荞黄酮提取物对2型糖尿病模型大鼠血糖与血脂的影响Δ[J].中国药房,2015,26(04):470-472
[8]气相色谱法测定磷酸二甲啡烷中有机溶剂残留[J].中国药师,2014,17(04):563-565
[9]苦荞提取物对2型糖尿病大鼠胰岛细胞凋亡的干预作用[J].中国药师,2014,17(01):1-4
[10]镇咳药——磷酸二甲啡烷[J].医药导报,2012,31(12):1592-1594
2.9科普学术理论研究
[1]新媒体时代受众对于科普信息接收方式的研究[J].中国传媒科技,2023,(10):41-45.DOI:10.19483/j.cnki.11-4653/n.2023.10.006
2.10应急药学创新策略
[1]武汉某三甲综合医院发热门诊药房设置与药事管理实践[J].中国药师,2022,25(12):2185-2189.DOI:10.19962/j.cnki.issn1008-049X.2022.12.021
[2]一种可提供生理应急帮助的医用防护服.第一发明人.ZL202021544811.5
[3]武汉客厅方舱医院新型冠状病毒肺炎轻症患者药品使用情况分析[J].中国药师,2020,23(07):1372-1376
[4]新型冠状病毒肺炎疫情后医院门诊药房调剂模式再造与优化构想[J].中国药师,2020,23(06):1230-1234
[5]新型冠状病毒肺炎疫情下的药品处方消毒方法综合分析[J].中国药师,2020,23(04):788-789
3.中药质量评价新方法及中药功效的科学表征
3.1中药质量评价新方法
[1]Comparative metabolic profiling of wild Cordyceps species and their substituents by liquid chromatography-tandem mass spectrometry,Frontiers in Pharmacology,2022,13:1036589(各品类冬虫夏草代谢物特征标志物筛选及代谢物全成分解析)
[2]Lipidomic profiling of wild cordyceps and its substituents by liquid chromatography-electrospray ionization-tandem mass spectrometry,LWT - Food Science and Technology, 2022, 163: 113497(各品类冬虫夏草脂质特征标志物筛选及全脂质成分解析)
[3]Fast quantification of free amino acids in food by microfluidic voltage-assisted liquid desorption electrospray ionization-tandem mass spectrometry,Analytical and bioanalytical chemistry,2020,412(8):1947-1954(食品及冬虫夏草中游离氨基酸快速定量检测新方法—微流体电压辅助液体解吸电喷雾电离串联质谱法)
[4]Quantification of Aromatic Amino Acids in Cordyceps fungi by Micellar Electrokinetic Capillary Chromatography,Wuhan University Journal of Natural Sciences,2019,24(3):245-250(冬虫夏草中芳香族氨基酸检测新方法)
[5]Profiling metals in Cordyceps sinensis by using inductively coupled plasma mass spectrometry,Analytical methods : advancing methods and applications,2017,9(4):724-72(各品类冬虫夏草中重金属研究)
[6]Identification of chemical markers in Cordyceps sinensis by HPLC-MS/MS,Analytical and bioanalytical chemistry,2015,407(26):8059-66(各品类冬虫夏草特征标志物组合的筛选)
[7]Simultaneous quantification of adenosine and deoxyadenosine isomers in foods with high sensitivity,Analytical Methods,2019,11(38):4946-4950(食品及冬虫夏草中特定异构体成分高灵敏检测新方法)
3.2冬虫夏草专利授权
[1]一种高效液相色谱法测定虫草中虫草素含量的方法.第一发明人.ZL201910699621.6
3.3中药功效的科学表征研究(质谱—多维组学)
[1]Multi-omics analysis reveals the healthy functions of Oviductus Ranae,Pharmacological Research - Modern Chinese Medicine, 2024, 10: 100369 (多组学分析揭示哈蟆油<雪蛤>的保健功效)
[2]基于宏基因组技术研究哈蟆油对大鼠肠道菌群的影响[J].药物流行病学杂志,2023,32(09):1008-1016.DOI:10.19960/j.issn.1005-0698.202309007
[3]基于宏基因组学技术研究生态繁育冬虫夏草对大鼠肠道菌群的影响[J].中国药师,2022,25(12):2137-2143.DOI:10.19962/j.cnki.issn1008-049X.2022.12.013
[4]基于网络药理学和分子对接研究冬虫夏草治疗糖尿病肾病的作用机制[J].中国药师,2021,24(06):1057-1063
4.医工交叉与生物工程
4.1器官芯片
[1]器官芯片技术在药物毒理学领域的研究现状及应用前景.[J].世界临床药物,2023,44(01):83-89.DOI:10.13683/j.wph.2023.01.014
[2]Fast quantification of free amino acids in food by microfluidic voltage-assisted liquid desorption electrospray ionization-tandem mass spectrometry,Analytical and bioanalytical chemistry,2020,412(8):1947-1954
[3]Direct Analysis of Biofluids by Mass Spectrometry with Microfluidic Voltage-Assisted Liquid Desorption Electrospray Ionization.,Analytical chemistry,2017,89(22):12014-12022
[4]A microchip electrophoresis-mass spectrometric platform with double cell lysis nano-electrodes for automated single cell analysis,Journal of Chromatography A,2016,1451156-163
[5]Microfluidic Platform with In-Chip Electrophoresis Coupled to Mass Spectrometry for Monitoring Neurochemical Release from Nerve Cells,Analytical chemistry,2016,88(10):5338-44
[6]D-serine uptake and release in PC-12 cells measured by chiral microchip electrophoresis-mass spectrometry,ACS chemical neuroscience,2015,6(4):582-7
4.1.1器官芯片系统组件—中国实用新型专利授权—质谱前生物样本自动化处理设备
[1]脂溶性物质自动化处理设备.第一发明人.ZL202320296097.X
[2]蛋白质提取多肽水解自动化处理设备.第一发明人.ZL202320296412.9
[3]极性代谢物自动化处理设备.第一发明人.ZL202320296211.9
4.1.2器官芯片系统—中国发明专利受理
[1]器官微流控芯片及药物安全性评价系统.第一发明人.ZL202310155973.1
[2]一种人体器官芯片微流控系统和实现方法.第一发明人.ZL202210809791.7
[3]一种人体器官芯片微流控系统和实现方法.第一发明人.ZL202210810808.0
4.2气道护理共融机器人
[1]一种黏液清除装置和实现方法.第一发明人.ZL202210823862.9.(中国发明专利受理)
[2]传染病病房气道护理共融机器人——2023年第二届湖北省生命健康科技创新创业大赛金奖
4.3智能药盒
[1]一种智能提醒服药装置及其使用方法.第一发明人.ZL202210593075.X.(中国发明专利受理)