Alan Russell:讲人体的再生
Alan Russell研究的是再生医学 - 以一种突破性的思维方式去看待疾病与损伤,以一种方式向人体发送信号诱导其进行自我修复。
关于干细胞的肝脏再生研究
《关于干细胞的肝脏再生研究》,主要内容包括:
一、干细胞治疗产品临床试验报批流程
二、SOP和质控标准的修订和完善
三、脐带血巨核系祖细胞注射液治疗血小板减低
四、自体间充质干细胞注射液治疗心梗等缺血性心肌病
五、自体骨骼干细胞治疗肢体缺血性疾病等。
干细胞与汗腺再生研究
严重烧伤病人的皮肤治疗后不能出汗,还不是真正意义上的治愈,生活质量受到严重的影响。付小兵院士讲述利用细胞去分化,实现汗腺再生的初步应用研究。
从古希腊到21世纪,对多细胞生物中的再生能力的研究
Alejandro Sanchez-Alvarado (Stowers Institute for Medical Research) Part 1: History of Regeneration
Regeneration has fascinated philosophers and scientists since the beginning of history. The wide but uneven distribution of regenerative capacities among multicellular organisms is puzzling, and the permissive/inhibitory mechanisms regulating this attribute in animals remain a mystery. In the first part of this lecture, I will provide a general history of regeneration research from ancient Greece to the beginning of the 20th century. Key concepts will be introduced in their appropriate historical context, and many of the unanswered questions put forward by the problem of regeneration will be discussed.
Alejandro Sánchez Alvarado moved from the University of Utah to the Stowers Institute for Medical Research in 2011.
涡虫的再生原理
Alejandro Sanchez-Alvarado (Stowers Institute) Part 2: Principles of Planarian Regeneration
Planarians have attracted the attention of generations of biologists. It is not hard to see why: cut a worm into two fragments and each fragment regenerates a complete organism. Cut it into 8 fragments and each individual fragment will go on to regenerate a complete animal. In this second part of the lecture, I will briefly review the rich history of planarian research, followed by a summary of the central principles of planarian regeneration that have been derived from this extensive, often fascinating body of experimental work.
Alejandro Sánchez Alvarado moved from the University of Utah to the Stowers Institute for Medical Research in 2011.
在涡虫再生的分子基础
Alejandro Sanchez-Alvarado (Stowers Institute) Part 3: Molecular Basis of Regeneration in Planaria
In the third and last part of this lecture, I will introduce the model system we have developed to study animal regeneration, the planarian Schmidtea mediterranea. I will review its anatomy, and the biological attributes that make these animals extraordinarily well suited to dissect the molecular and cellular basis of regeneration. I will also discuss recent work from my laboratory aimed at identifying molecules associated with regenerative capacities.
Alejandro Sánchez Alvarado moved from the University of Utah to the Stowers Institute for Medical Research in 2011.
规模、比例和器官再生
自由生活的涡虫是扁形动物最有名的惊人能力从一小块组织中再生一个完整的有机体和“收缩”的能力,通过丢失的细胞,在饥饿。在他的第一次演讲中,S博士á桑切斯Alvarado讨论规模的内在矛盾和比例,涡虫生长和再生过程中的脸。这些生物体是如何增加的减少细胞数无扰动的功能不同的组织?他们如何再生一个特定的器官以及它如何整合和功能?通过对涡虫的咽RNAi筛选,的á桑切斯Alvarado和他的实验室能够识别所需的不同基因在这些复杂的过程中的不同的步骤。
马小京:靶向自分泌CCL5-CCR5轴重编程免疫抑制性骨髓细胞和再生抗肿瘤免疫
介绍了肿瘤微环境中的免疫细胞,髓源性抑制细胞(MDSC)的来源,提到MDSC的数量与癌症病人病情负相关,提到了三阴性乳腺癌(TNBC)及TNBC中的CCL5等相关内容。
白泽论坛总第35期·2020专家论坛第1期:《王晓冰博士:修复之力—干细胞修复再生医学前沿进展》
专家视角,为您分享全球干细胞再生医学领域最新进展,展现干细胞无与伦比的修复伟力。精彩内容,不容错过!