1 Department of Surgery, University of Michigan, Ann Arbor, Michigan.
2 Department of Neurosurgery, Henry Ford Hospital, Detroit, Michigan.
J Neurotrauma. 2019 Jan 1;36(1):54-60. doi: 10.1089/neu.2018.5711. Epub 2018 Jul 30.
Combined traumatic brain injury (TBI) and hemorrhagic shock (HS) remains a leading cause of preventable death worldwide. Mesenchymal stem cell-derived exosomes have demonstrated promise in small animal models of neurologic injury. To investigate the effects of exosome treatment in a clinically realistic large animal model, Yorkshire swine underwent TBI and HS. Animals were maintained in shock for 2 h before resuscitation with normal saline (NS). Animals were then resuscitated either with NS (3 × volume of shed blood) or with the same volume of NS with delayed exosome administration (1 × 10 particles/4 mL) (n = 5/cohort). Exosomes were administered 9 h post-injury, and on post-injury days (PID) 1, 5, 9, and 13. Neurologic severity scores (NSS) were assessed for 30 days, and neurocognitive functions were objectively measured. Exosome-treated animals had significantly lower NSS (p < 0.05) during the first five days of recovery. Exosome-treated animals also had a significantly shorter time to complete neurologic recovery (NSS = 0) compared with animals given NS alone (days to recovery: NS = 16.8 ± 10.6; NS + exosomes = 5.6 ± 2.8; p = 0.03). Animals treated with exosomes initiated neurocognitive testing earlier (days to initiation: NS = 9.6 ± 0.5 vs. NS + exosomes = 4.2 ± 0.8; p = 0.008); however, no difference was seen in time to mastery of tasks. In conclusion, treatment with exosomes attenuates the severity of neurologic injury and allows for faster neurologic recovery in a clinically realistic large animal model of TBI and HS.
颅脑创伤(TBI)合并失血性休克(HS)仍然是全球可预防死亡的主要原因。间充质干细胞衍生的外泌体在神经损伤的小动物模型中显示出了良好的效果。为了在临床现实的大动物模型中研究外泌体治疗的效果,选用约克夏猪制作 TBI 和 HS 模型。动物在休克 2 小时后,用生理盐水(NS)复苏。然后,动物分别用 NS(失血量的 3 倍)或含有延迟外泌体给药(1×10 个颗粒/4mL)的相同体积 NS(n=5/组)复苏。外泌体在损伤后 9 小时给药,在损伤后第 1、5、9 和 13 天给药。通过神经严重程度评分(NSS)评估 30 天,客观测量神经认知功能。外泌体治疗组在恢复的前五天 NSS 明显更低(p<0.05)。与单独给予 NS 的动物相比,外泌体治疗组神经恢复的时间明显缩短(恢复天数:NS=16.8±10.6;NS+外泌体=5.6±2.8;p=0.03)。接受外泌体治疗的动物更早开始神经认知测试(开始测试天数:NS=9.6±0.5 vs. NS+外泌体=4.2±0.8;p=0.008);然而,在外泌体治疗组和 NS 治疗组之间没有看到完成任务的时间差异。总之,在外泌体治疗组,在 TBI 和 HS 的临床现实大动物模型中,神经损伤的严重程度降低,神经恢复更快。
