用于治疗脊髓缺血性损伤的纳米气泡技术。
Nanobubble technology to treat spinal cord ischemic injury.
作者信息
Naganuma Masaaki, Saiki Yuriko, Kanda Keisuke, Akiyama Masatoshi, Adachi Osamu, Horii Akira, Saiki Yoshikatsu
机构信息
Division of Cardiovascular Surgery, Tohoku University, Sendai, Japan.
Department of Molecular Pathology, Tohoku University, Sendai, Japan.
出版信息
JTCVS Open. 2020 Jul 23;3:1-11. doi: 10.1016/j.xjon.2020.07.005. eCollection 2020 Sep.
BACKGROUND
Spinal cord ischemic injury is a severe complication of aortic surgery. We hypothesized that cerebrospinal fluid (CSF) oxygenation with nanobubbles after reperfusion could ameliorate spinal cord ischemic injury.
METHODS
Twenty white Japanese rabbits were categorized into 4 groups of 5 rabbits each: sham group, with balloon catheter insertion into the aorta; ischemia group, with spinal cord ischemic injury by abdominal aortic occlusion; nonoxygenated group, with nonoxygenated artificial CSF irrigation after spinal cord ischemic injury; and oxygenated group, with oxygenated artificial CSF irrigation after spinal cord ischemic injury. At 48 hours after spinal cord ischemic injury, the modified Tarlov score to reflect hind limb movement was evaluated. The spinal cord was histopathologically examined by counting anterior horn cells, and microarray and quantitative reverse-transcription polymerase chain reaction (qRT-PCR) analyses were performed.
RESULTS
The oxygenated group showed improved neurologic function compared with the ischemia and nonoxygenated groups ( < .01 and = .019, respectively). Anterior horn neuron prevention in the sham, nonoxygenated, and oxygenated groups was confirmed (mean modified Tarlov score: sham, 9.2 ± 1.9; nonoxygenated, 10.2 ± 2.2; oxygenated, 10.4 ± 2.2; ischemia, 2.7 ± 2.7). Microarray analysis identified 644 genes with twofold or greater increased signals between the ischemia and sham groups. Thirty-three genes related to inflammatory response were enriched among genes differentially expressed between the oxygenated and ischemia groups. Interleukin (IL)-6 and tumor necrosis factor (TNF) expression levels were significantly lower in the oxygenated group compared with the ischemia group, while qRT-PCR showed lower IL-6 and TNF expression levels in the oxygenated group compared with the ischemia group ( < .05).
CONCLUSIONS
CSF oxygenation with nanobubbles after reperfusion can ameliorate spinal cord ischemic injury and suppress inflammatory responses in the spinal cord.
背景
脊髓缺血性损伤是主动脉手术的严重并发症。我们推测再灌注后用纳米气泡进行脑脊液(CSF)氧合可改善脊髓缺血性损伤。
方法
将20只日本白兔分为4组,每组5只:假手术组,将球囊导管插入主动脉;缺血组,通过腹主动脉闭塞造成脊髓缺血性损伤;非氧合组,脊髓缺血性损伤后用非氧合人工脑脊液冲洗;氧合组,脊髓缺血性损伤后用氧合人工脑脊液冲洗。在脊髓缺血性损伤后48小时,评估反映后肢运动的改良Tarlov评分。通过计数前角细胞对脊髓进行组织病理学检查,并进行微阵列和定量逆转录聚合酶链反应(qRT-PCR)分析。
结果
与缺血组和非氧合组相比,氧合组的神经功能得到改善(分别为P<0.01和P = 0.019)。证实了假手术组、非氧合组和氧合组中前角神经元得到保护(平均改良Tarlov评分:假手术组,9.2±1.9;非氧合组,10.2±2.2;氧合组,10.4±2.2;缺血组,2.7±2.7)。微阵列分析确定了缺血组和假手术组之间信号增加两倍或更多的644个基因。在氧合组和缺血组之间差异表达的基因中,33个与炎症反应相关的基因富集。与缺血组相比,氧合组中白细胞介素(IL)-6和肿瘤坏死因子(TNF)的表达水平显著降低,而qRT-PCR显示氧合组中IL-6和TNF的表达水平低于缺血组(P<0.05)。
结论
再灌注后用纳米气泡进行脑脊液氧合可改善脊髓缺血性损伤并抑制脊髓中的炎症反应。
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