Judas Gustavo Ieno, Ferreira Sueli Gomes, Simas Rafael, Sannomiya Paulina, Benício Anderson, da Silva Luiz Fernando Ferraz, Moreira Luiz Felipe Pinho
Laboratory of Cardiovascular Surgery and Circulation Pathophysiology (LIM 11), Heart Institute (InCor) of São Paulo University Medical School, São Paulo, Brazil.
Laboratory of Cardiovascular Surgery and Circulation Pathophysiology (LIM 11), Heart Institute (InCor) of São Paulo University Medical School, São Paulo, Brazil
Interact Cardiovasc Thorac Surg. 2014 Jun;18(6):757-62. doi: 10.1093/icvts/ivu021. Epub 2014 Mar 4.
Spinal cord ischaemia with resulting paraplegia remains a devastating and unpredictable complication after thoraco-abdominal aortic surgery. With the advent of stem cell therapy and its potential to induce nervous tissue regeneration processes, the interest in the use of these cells as a treatment for neurological disorders has increased. Human stem cells, derived from the umbilical cord, are one of the strong candidates used in cell therapy for spinal cord injury because of weak immunogenicity and ready availability. We sought to evaluate the use of human umbilical cord blood stem cells (HUCBSCs) to attenuate the neurological effects of spinal cord ischaemia induced by high thoracic aorta occlusion.
Forty Wistar rats were randomized to receive intrathecal injection of 10 µl phosphate buffered saline (PBS) solution containing 1 × 10(4) HUCBSCs, 30 min before (Tpre group: n = 10) and 30 min after (Tpos group: n = 10) descending thoracic aorta occlusion by intraluminal balloon during 12 min. Control groups received only PBS solution (Cpre group: n = 10; and Cpos group: n = 10). During a 28-day observational period, motor function was assessed by a functional grading scale (Basso, Beattie and Bresnahan). Segments of thoracolumbar spinal cord specimens were analysed for histological and immunohistochemical assessment for detection and quantification of human haematopoietic cells (CD45(+)) and apoptosis (transferase-mediated deoxyuridine triphosphate-biotin nick-end labelling).
Overall mortality was 12 animals (30%). Therefore, the observational sample was composed of 28 animals. All groups showed similar incidence of paraplegia and mortality. The mean motor function scores showed no difference during time between the animals of each group, excepting for the Tpos group, which improved from 8.14 (±8.6) to 14.28 (±9.8) (P < 0.01). A treatment-by-time interaction was detected among animals that received HUCBSCs 30 min after ischaemia, with BBB scores higher from Days 14 to 28 compared with the first observational day with statistical difference (P = 0.01). Number of viable neurons was higher in the Tpos group (P = 0.14) and the incidence of apoptosis was lower in the same animals (P = 0.048), but showed no difference with its respective control. We confirmed the presence of CD45(+) cells 4 weeks after intrathecal injection in both therapeutic groups but mainly in the Tpos group.
Intrathecal transplantation of HUCBSCs is feasible, and it improved spinal cord function, when they were delivered 30 min after spinal cord ischaemia, in a model of endovascular descending thoracic aorta occlusion in rats. Human umbilical cord blood is one of the potentially useful sources of stem cells for therapy of spinal cord ischaemia.
脊髓缺血导致的截瘫仍然是胸腹主动脉手术后一种极具破坏性且不可预测的并发症。随着干细胞治疗的出现及其诱导神经组织再生过程的潜力,将这些细胞用于治疗神经系统疾病的兴趣日益增加。源自脐带的人类干细胞因其免疫原性弱且易于获取,是用于脊髓损伤细胞治疗的有力候选者之一。我们试图评估人类脐带血干细胞(HUCBSCs)对减轻高位胸主动脉闭塞所致脊髓缺血的神经学影响。
40只Wistar大鼠被随机分为在胸主动脉腔内球囊闭塞12分钟前(Tpre组:n = 10)和闭塞后30分钟(Tpos组:n = 10)鞘内注射10微升含1×10⁴个HUCBSCs的磷酸盐缓冲盐水(PBS)溶液。对照组仅接受PBS溶液(Cpre组:n = 10;Cpos组:n = 10)。在28天的观察期内,通过功能分级量表(Basso、Beattie和Bresnahan)评估运动功能。对胸腰段脊髓标本进行组织学和免疫组织化学分析,以检测和定量人类造血细胞(CD45⁺)及凋亡情况(转移酶介导的脱氧尿苷三磷酸 - 生物素缺口末端标记)。
总死亡率为12只动物(30%)。因此,观察样本由28只动物组成。所有组的截瘫发生率和死亡率相似。除Tpos组外,每组动物在各时间点的平均运动功能评分无差异,Tpos组评分从8.14(±8.6)改善至14.28(±9.8)(P < 0.01)。在缺血后30分钟接受HUCBSCs治疗的动物中检测到治疗与时间的交互作用,从第14天到第28天,其BBB评分高于首个观察日,差异有统计学意义(P = 0.01)。Tpos组存活神经元数量更多(P = 0.14),同一组动物的凋亡发生率更低(P = 0.048),但与各自对照组相比无差异。我们在两个治疗组鞘内注射4周后均证实存在CD45⁺细胞,但主要在Tpos组。
在大鼠胸主动脉腔内闭塞模型中,脊髓缺血后30分钟鞘内移植HUCBSCs是可行的,且能改善脊髓功能。人类脐带血是治疗脊髓缺血潜在有用的干细胞来源之一。
