Safety of neural stem cell therapy for traumatic brain injury

G. Shyam, L. Quesada, Maria E. Lujan, Long Di
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Abstract

Firearm injury is a serious public health problem in the United States (US) costing more than $70-75 billion annually [1,2]. Despite increasing incidence, timely neurosurgical intervention aided with improved neuroimaging and advances in acute trauma management have lowered the firearm fatality rate {Joseph, 2014 #42;Lin, 2012 #164;Young, 2008 #56}. Thus, among the estimated 5.3 million people living in the US with traumatic brain injury (TBI)-related disability, the proportion of gun-shot wound survivors has been rising steadily [3-8]. Among head injuries, penetrating injuries (PTBI) are associated with the worst outcomes [9,10], and no effective restorative treatment beyond physical therapy is currently available to mitigate post-TBI disability [9-11]. There is an urgent need to explore additional treatment options to address long-term TBI related disabilities. Since the demonstration of ability to culture, expand human fetal neural stem in vitro, their genetic modification and engraftment in rodents post transplantation [12-15] multiple insights into how embryonic transplant derived neurons integrate into adult circuits (Gotz 2016) and technical advances studies have supported clinically relevant studies in immunocompromised or immunosuppressed animal [16,17]. Athymic rats with TBI (Haus 2016), or Parkinson disease (Snyder 2016) have been used with neural stem cells derived from induced human pluripotent stem cells to demonstrate the viability of the approach.
神经干细胞治疗创伤性脑损伤的安全性
在美国,火器伤害是一个严重的公共卫生问题,每年造成的损失超过700 - 750亿美元[1,2]。尽管发病率不断上升,但及时的神经外科干预以及神经影像学的改善和急性创伤管理的进步降低了枪支死亡率[Joseph, 2014 #42;Lin, 2012 #164;Young, 2008 #56]。因此,在美国大约530万的创伤性脑损伤(TBI)相关残疾患者中,枪伤幸存者的比例一直在稳步上升[3-8]。在头部损伤中,穿透性损伤(PTBI)与最糟糕的预后相关[9,10],目前除了物理治疗之外没有有效的恢复性治疗来减轻tbi后的残疾[9-11]。迫切需要探索其他治疗方案,以解决长期创伤性脑损伤相关的残疾。自从人类胚胎神经干细胞在体外培养、扩增、基因改造和移植后植入啮齿类动物体内以来[12-15],关于胚胎移植来源的神经元如何融入成体神经回路的多项见解(Gotz 2016)和技术进展研究为免疫功能受损或免疫抑制动物的临床相关研究提供了支持[16,17]。患有脑外伤的胸腺大鼠(Haus 2016)或帕金森病的大鼠(Snyder 2016)已被用于诱导人类多能干细胞衍生的神经干细胞,以证明该方法的可行性。
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