韩端阳
博士学位(科研型)
13年临床工作经验
临床技能
北京大学和美国UCLA医学博士/理学博士,国家公派联合培养博士奖学金获得者,北京大学学术之星奖金获得者。妇产科医生,多年国内外顶级医疗机构工作经验。曾在北京大学人民医院、北京大学深圳医院、美国加州大学洛杉矶分校罗纳德里根医学中心访问学习并长期致力于干细胞科研工作,多年工作中积累丰富临床经验,对妇科常见病及多发病具有较高的诊疗能力,擅长诊疗多囊卵巢综合征、不排卵型宫血、卵巢早衰、卵巢内分泌紊乱导致的不排卵性不孕症、生殖内分泌紊乱导致的受孕困难、卵巢周期监测、子宫内膜薄导致的受孕困难、调理子宫内膜生长、特别对肥胖症导致的多囊卵巢综合征的综合诊治具有独到之处,深受广大患者好评。
本人及所带领的实验技术团队,可独立完成一代、二代及三代技术的所有临床及实验室技术流程。
临床方面,擅长各类降调周期方案、自然周期方案、微刺激方案,独立完成超声卵巢子宫监测、超声介导动态3D输卵管造影术、输卵管通液术。
参与学术会议情况
BSCRC 10th Annual Stem Cell Symposium,(UCLA,2014.01.31)
发表论文情况:
Muscle derived stem cell contains the potential to enhance longterm retention as well as an aesthetic outcome of autologous fat grafting.Med Hypotheses.2011 Jun;76(6):805-8.(硕士期间SCI第一作者)
Utilizing muscle-derived stem cells to enhance long-term retention and aesthetic outcome of autologous fat grafting:pilot study in mice.Aesthetic Plast Surg.2012 Feb;36(1):186-92.(硕士期间SCI并列第一作者)
Local administration of IKK small molecule inhibitor may enhance fracture healing in osteoporosis patient.Int J Clin Exp Med.2015 Jan 15;8(1):1411-5.eCollection 2015.(SCI第一作者)
Local transplantation of osteogenic pre-differentiated autologous adipose-derived mesenchymal stem cells may accelerate non-union fracture healing with limited pro-metastatic potency.Int J Clin Exp Med.2015 Jan 15;8(1):1406-10.eCollection 2015.(SCI第一作者)
A novel specialized staging system for cancellous fracture healing,distinct from traditional healing pattern of diaphysis corticalfracture?Int J Clin Exp Med.2015 Jan 15;8(1):1301-4.eCollection 2015.(SCI第一作者)
A study of cancellous fracture healing mechanism utilizing a novel specific cancellous fracture mice model.American Journal of Translational Research(SCI第一作者.IF:3.4)
Profiling of the dynamically alteredgene expression in peripheral nerve injury using NGS RNA sequencing technique.(SCI第一作者.IF:3.4)
CyclinD1 proteins supplement may enhance functional recovery after peripheral nerve lesions via WNT signals.(SCI一作投稿中)
Local administration of LPS loaded PLGA microspheres may promote peripheral nerve repair via NFκB activation(SCI一作投稿中)
Lithium administration accelerates axon debris clearance with enhanced remyelination after peripheral nerve injury.(SCI一作投稿中)