Evaluation of rapid ischemic preconditioning in a rabbit model of spinal cord ischemia

BACKGROUND: Rapid ischemic preconditioning (IPC) has been shown to reduce cellular injury after subsequent cardiac and cerebral ischemia. However, the data on rapid IPC of the spinal cord is limited. The authors investigated whether pretreatment with sublethal ischemia of spinal cord can attenuate neuronal injury after spinal cord ischemia in rabbits. METHODS: Forty-seven male New Zealand white rabbits were randomly assigned to one of three groups (n = 15 or 16 each). In the IPC(-) group, the infrarenal aorta was occluded for 17 min to produce spinal cord ischemia. In the IPC(+) group, 5 min of aortic occlusion was performed 30 min before 17 min of spinal cord ischemia. In the sham group, the aorta was not occluded. Hind limb motor function was assessed at 3 h, 24 h, 4 days, and 7 days after reperfusion using Tarlov scoring (0 = paraplegia; 4 = normal). Animals were killed for histopathologic evaluation at 24 h or 7 days after reperfusion. The number of normal neurons in the anterior spinal cord (L4-L6) was counted. RESULTS: Neurologic scores were significantly higher in the IPC(+) group than the IPC(-) group at 3 and 24 h after reperfusion (P < 0.05). However, neurologic scores in the IPC(+) group gradually decreased and became similar to those in the IPC(-) group at 4 and 7 days after reperfusion. At 24 h after reperfusion, the numbers of normal neurons were significantly higher in the IPC (+) group than in the IPC(-) group (P < 0.05) and were similar between the IPC(+) and sham groups. At 7 days after reperfusion, there was no difference in the number of normal neurons between the IPC(+) and IPC(-) groups. CONCLUSION: The results indicate that rapid IPC protects the spinal cord against neuronal damage 24 h but not 7 days after reperfusion in a rabbit model of spinal cord ischemia, suggesting that the efficacy of rapid IPC may be transient.     

缺血预处理对脊髓缺血损伤细胞内Ca2+变化的影响

目的　观察缺血预处理对脊髓缺血损伤细胞内 Ca2 变化的影响。　方法　将 44只健康新西兰大白兔随机分为三组 :缺血组 2 0只 ,缺血预处理组 2 0只 ,假手术组 4只。缺血组于左肾动脉下夹闭腹主动脉 40分钟后开放灌注 ;缺血预处理组夹闭腹主动脉 5分钟 ,开放 15分钟 ,再次夹闭 40分钟后开放再灌注 ;假手术组动物手术操作同缺血组 ,但不夹闭腹主动脉。分别于夹闭 40分钟后即刻、开放再灌注 2小时、8小时、2 4小时和 72小时各时相点测定脊髓组织 Ca2 含量 ,并评定、记录动物后肢神经功能。　结果　缺血预处理组脊髓组织 Ca2 显著低于缺血组各时相值 ;再灌注 8小时后神经功能评分缺血预处理组明显高于缺血组 (P<0 .0 1)。　结论　缺血预处理具有降低神经元胞浆游离 Ca2 浓度 ,防止Ca2 超载 ,稳定细胞内环境的能力 ,对主动脉阻断所致的脊髓缺血损伤有良好的保护作用。其表现为明显降低瘫痪发生率 ,增加术后神经评分     

芦荟多糖对脊髓缺血损伤的神经保护作用

目的:探讨芦荟多糖(aloe polysaccharide,AP)对兔脊髓缺血损伤是否有神经保护作用.方法:32只成年雄性新西兰兔随机分成4组(每组8只 ),即对照组(C 组)、芦荟多糖组(A组)、溶剂对照组( V组 ) 及假手术组(S组).A组在脊髓缺血前30min经耳缘静脉给予50m·kg-1芦荟多糖;V组以同样方式给予等容量生理盐水;C组仅仅制备脊髓缺血损伤模型,不进行其它处理;S组仅仅暴露腹主动脉,而不阻断它,其他处理同C组;兔脊髓缺血模型采用夹闭兔腹主动脉肾下段20min.再灌注后48h,对所有动物神经功能评分,然后处死动物取脊髓(L5-7),制作标本行组织病理学观察.结果:A组的神经功能评分和脊髓前角正常神经细胞数明显多于C组及V组(P<0.01);C组及V组的神经功能评分和脊髓前角正常神经细胞数组间无明显差异(P>0.05);神经功能评分与其对应脊髓前角正常神经细胞计数之间有显著相关性(r=0.804,P<0.01).结论:芦荟多糖对兔脊髓缺血再灌注损伤有明显的神经保护作用.     

缺血预处理对兔主动脉阻断后脊髓一氧化氮、后肢神经功能和肌电图的影响

目的　探讨缺血预处理 (IPC)对缺血预处理对兔主动脉阻断后脊髓功能和一氧化氮(NO)的影响。方法　 2 4只日本大白兔随机分为假手术组 (A组 )、缺血再灌注组 (B组 )和IPC保护组 (C组 ) ,每组 8只。分别于首次预处理即刻 (C 40 )、缺血即刻 (I0 )、缺血 45min(I45)、再灌注后 60min(R60 )和术后 7d处死动物前即刻 (R7d)采血检测血清和R7d脊髓组织NO的浓度。术后观察后肢神经功能的评分、后肢针电极肌电图 (EMG)和脊髓组织病理学的改变。结果　缺血再灌注损伤后B组血清NO浓度较缺血前和A、C组对应时点值显著升高 (P <0 .0 1)。C组R7d血清NO浓度明显低于其他时点及A组R7d测定值 (P <0 .0 5或 0 .0 1)。B组脊髓组织NO浓度显著高于A、C组(P <0 .0 1)。B组后肢神经功能和脊髓病理学评分均显著性低于A、C组 (P <0 .0 5或 0 .0 1) ,其后肢EMG亦较C组有显著性病理改变 (P <0 .0 1)。结论　IPC对家兔主动脉阻断后脊髓缺血再灌注损伤有良好的保护作用 ,其保护作用机制与抑制NO的生成有关。     

Effects of xenon on ischemic spinal cord injury in rabbits: a comparison with propofol

Background: Xenon has been shown to reduce cellular injury after cerebral ischemia. However, the neuroprotective effects of xenon on ischemic spinal cord are unknown. The authors compared the effects of xenon and propofol on spinal cord injury following spinal cord ischemia in rabbits. Methods: Thirty‐two male New Zealand white rabbits were randomly assigned to one of three groups. In the xenon and propofol group, 70% of xenon and 0.8 mg/kg/min of propofol were administered 30 min before an aortic occlusion and maintained until the end of the procedure. The aortic occlusion was performed for 15 min. In the sham group, the aorta was not occluded. After an assessment of the hind limb motor function using the Tarlov score (0=paraplegia, 4=normal) at 48 h after reperfusion, gray and white matter injuries were evaluated based on the number of normal neurons in the anterior spinal cord and the percentage areas of vacuolation in the white matter, respectively. Results: In the xenon and propofol groups, the Tarlov score and the number of normal neurons were significantly lower than those in the sham group, whereas the percentage areas of vacuolation were similar among the three groups. There were no significant differences in Tarlov scores and the number of normal neurons between the xenon and the propofol groups. Conclusion: The results indicated that 70% of xenon has no additional neuroprotective effects on ischemic spinal cord injury in rabbits compared with propofol.     

Effect of ischemic post-conditioning on spinal cord ischemic-reperfusion injury in rabbits

OBJECTIVES: To investigate the potential protective effect of ischemic post-conditioning (Post-con) on ischemia-reperfusion injury of the rabbit spinal cord, and to determine if there is an additive neuroprotective effect when ischemic preconditioning (IPC) and Post-con are combined. METHODS: Forty New Zealand white rabbits were randomly divided into four groups: group Control (C; n=10), aortic occlusion (AOC; for 30 min; group IPC (n=10) three cycles of three-minute AOC plus three-minute reperfusion before the 30-min AOC; group Post-con (n=10), three cycles of three-minute reperfusion plus three-minute AOC immediately upon reperfusion after 30-min AOC; group IPC+Post-con (n=10), where animals were subjected to both IPC and Post-con. At six hours, 24 hr and 48 hr following reperfusion, neurological function was assessed according to Tarlov scores, and at 48 hr, the spinal cords were procured for the histopathologic evaluation, by comparing the number of intact alpha-motor neurons in the anterior horn. RESULTS: The median count (and quartiles) of intact alpha-motor neurons was greatest in group Post-con 73 (69-76) and group IPC+Post-con 29 (22-42) compared to the numbers of viable alpha-motor neurons in groups C 6 (4-9) and IPC 15 (11-18) (P < 0.001). The numbers of animals who developed paraplegia according to Tarlov criteria were 7/10 in groups Post-con and IPC+Post-con, compared to 9/10 animals in each of groups C and IPC. CONCLUSIONS: This laboratory investigation provides histological evidence that Post-con may protect the spinal cord from moderate to severe ischemia reperfusion injury. Ischemic preconditioning conferred no additional benefits in this rabbit model. The results have potential clinical implications for patients undergoing thoracoabdominal aortic reconstructive surgery.     

Long-term assessment of hind limb motor function and neuronal injury following spinal cord ischemia in rats

Recent evidence suggests that brain injury caused by ischemia is a dynamic process characterized by ongoing neuronal loss for at least 14 days after ischemia. However, long-term outcome following spinal cord ischemia has not been extensively examined. Therefore, we investigated the changes of hind limb motor function and neuronal injury during a 14-day recovery period after spinal cord ischemia. Male Sprague-Dawley rats received spinal cord ischemia (n = 64) or sham operation (n = 21). Spinal cord ischemia was induced by inflation of a 2F Fogarty catheter placed into the thoracic aorta for 6, 8, or 10 minutes. The rats were killed 2, 7, or 14 days after reperfusion. Hind limb motor function was assessed with the 21-point Basso, Beattie, and Bresnahan (BBB) scale during the recovery period. The number of normal and necrotic neurons was counted in spinal cord sections stained with hematoxylin/eosin. Longer duration of spinal cord ischemia produced severer hind limb motor dysfunction at each time point. However, BBB scores gradually improved during the 14-day recovery period. Neurologic deterioration was not observed between 7 and 14 days after reperfusion. The number of necrotic neurons peaked 2 days after reperfusion and then decreased. A small number of necrotic neurons were still observed 7 and 14 days after reperfusion in some of the animals. These results indicate that, although hind limb motor function may gradually recover, neuronal loss can be ongoing for 14 days after spinal cord ischemia.     

Impact of ischemic preconditioning on dynamics of homing of endothelial progenitor cells after renal ischemia reperfusion injury

Objectives To investigate the impact of ischemic preconditioning (IPC) on dynamics of homing of endothelial progenitor cells (EPCs) after renal ischemia reperfusion injury (IR). Methods Sixty male Sprague-Dawley rats were randomly divided into three groups after right-side kidney nephrectomy: for sham-operated rats, lumbotomy without vascular clamping was performed; IR rats were clamped renal blood vessels for 40 minutes while IPC rats were pre-treated with 15 min ischemia and 10 min reperfusion. At 3, 12, 24 h, and 3 days after reperfusion, the pool of circulating, kidneys, lungs and spleens were harvested. The extent of renal injury was assessed by biochemical and histological examination. The dynamics of homing of EPCs was observed by flow cytometry. Results The rats in IPC group exhibited significant improvements in renal function and morphology. Compared with IR group and sham group, the number of EPCs in blood was increased in the IPC group at 12 h and 24 h after reperfusion (P＜0.05). The number of EPCs in kidney was increased at all times point in the IPC group and IR group as compared to the sham group (P＜0.05. In addition, EPCs number was increased in IPC group compared with the IR group at 12 h and 24 h [(11.36±0.66)% vs (6.37±0.69)%, (6.31±0.70)% vs (4.40±0.60)%, all P＜0.05]. Compared with IR group and sham group, the number of EPCs in the lung was increased in the IPC groups at 12 h after reperfusion [(2.95±0.66)% vs (1.78±0.59)%, (1.66±0.61)%, all P＜0.05]. The number of EPCs in spleen was increased in the IPC group at 72 h as compared with the IR group and sham group [(0.55±0.06)% vs (0.34±0.07)%, (0.31±0.06)%, all P＜0.05]. Conclusions Endogenous EPCs may home to injured kidney after IPC. EPCs can also gather in the lungs and spleen.     

Effect of puerarin on neural function and histopathological damages after transient spinal cord ischemia in rabbits

Ischemicspinalcordinjuryremainsadisastrouscomplicationofthedescendingandthoracoabdominalaortaeafteroperation .Thereportedincidenceofparaplegiarangesfrom 4 %to 33% .1Therefore ,agreatnumberofeffortshavebeenfocusedonsolvingthisproblem ,whichincludehypothermia ,cerebrospinalfluiddrainage ,temporarybypassandpharmacologicalagents .2 Thecellularandmolecularmechanismsofischemicspinalcordinjuryhavenotbeentotallyelucidated .Butvariousstudieshavesuggestedthatfreeradicalproduction ,calciumaccumulationand…     

Reevaluation of Gray and White Matter Injury after Spinal Cord Ischemia in Rabbits

Background: Although gray matter injury has been well characterized, the available data on white matter injury after spinal cord ischemia (SCI) in rabbits are limited. The current study was conducted to investigate the evolution of ischemia induced injury to gray and white matter and to correlate this damage to hind-limb motor function in rabbits subjected to SCI.

Methods: Thirty-eight rabbits were randomly assigned to 24-h, 4-day, or 14-day reperfusion groups or a sham group (n = 9 or 10 per group). SCI was induced by occlusion of the infrarenal aorta for 16 min. Hind-limb motor function was assessed using the Tarlov scale (0 = paraplegia, 4 = normal). The gray matter damage was assessed on the basis of the number of normal neurons in the anterior spinal cord. White matter damage was assessed on the basis of the extent of vacuolation and accumulation of amyloid precursor protein immunoreactivity.

Results: Tarlov scores gradually decreased and reached a nadir 14 days after reperfusion. There were no significant differences in the number of normal neurons among the 24-h, 4-day, and 14-day groups. The extent of vacuolation, expressed as a percent of total white matter area, was significantly greater in the 4-day and 14-day groups in comparison with the sham group. By contrast, there was no difference in vacuolation between the sham and 24-h groups. Amyloid precursor protein immunoreactivity was greater in the 4-day and 14-day groups.     

Anesthetic preconditioning with sevoflurane does not protect the spinal cord after an ischemic-reperfusion injury in the rat

Anesthetic preconditioning (APC) is a protective mechanism, whereby exposure to a volatile anesthetic renders a tissue resistant to a subsequent ischemic insult. We hypothesized that APC of the rat spinal cord with sevoflurane would reduce neurologic deficit after an ischemic-reperfusion injury. Rats were randomly assigned to 1 of 5 groups. The ischemic preconditioning (IPC) group (n = 14) had 3 min of IPC, 30 min of reperfusion, and 12 min of ischemia. The chronic APC (cSEVO) group (n = 14) had 1 h of APC with 3.5% sevoflurane on each of 2 days before ischemia. The acute APC (aSEVO) group (n = 14) had 1 h of APC with 3.5% sevoflurane followed by a 1-h washout period before the induction of ischemia. The controls (n = 14) underwent no preconditioning before ischemia. IPC attenuated the ischemia-reperfusion injury, whereas aSEVO and cSEVO groups were no better than control animals. Histologic evaluation of the spinal cord showed severe neurologic damage in all groups except for the IPC group and sham-operated rats. APC with sevoflurane did not reduce neurologic injury in a rat model of spinal cord ischemia. Traditional ischemic preconditioning had a strong protective benefit on neurologic outcome.     

羟乙基淀粉行急性等容血液稀释对兔脊髓缺血-再灌注损伤的保护作用

目的 探讨用羟乙基淀粉(HES130/0.4)急性等容血液稀释(ANH)对兔脊髓缺血-再灌注损伤的保护作用.方法 24只新西兰雄性大白兔,随机均分成三组:HES组,生理盐水组(NS组),对照组(C组).HES组和NS组分别用HES130/0.4和生理盐水行ANH,使红细胞压积(Hct)达30%.ANH的方法为:15 min内经股动脉恒速放出计算的血量,同时利用微量输液泵经静脉输注与放血量等量的液体(HES组)或输注3倍于放血量的液体(NS组),放血和输液速度相等,维持术中大白兔的血压和心率恒定.稳定15 min后,行肾下腹主动脉(IRA)阻闭建立脊髓缺血-再灌注损伤模型.分别于稀释前、稀释后和腹主动脉开放后采集动脉血进行血气分析.评估再灌注后4、8、12、24及48 h后肢运动功能,并于48 h处死动物取脊髓(L5)制标本行病理组织学观察.结果 再灌注后48 h.HES组和NS组动物的后肢运动功能比C组明显改善(P＜0.05或P＜0.01);HES组和NS组动物脊髓前角正常运动神经元计数比C组显著增加(P＜0.05或P＜0.01),但两组间差异无统计学意义.结论 HES130/0.4行适度ANH对脊髓缺血-再灌注损伤具有显著地保护作用.     

Reevaluation of gray and white matter injury after spinal cord ischemia in rabbits

BACKGROUND: Although gray matter injury has been well characterized, the available data on white matter injury after spinal cord ischemia (SCI) in rabbits are limited. The current study was conducted to investigate the evolution of ischemia induced injury to gray and white matter and to correlate this damage to hind-limb motor function in rabbits subjected to SCI. METHODS: Thirty-eight rabbits were randomly assigned to 24-h, 4-day, or 14-day reperfusion groups or a sham group (n = 9 or 10 per group). SCI was induced by occlusion of the infrarenal aorta for 16 min. Hind-limb motor function was assessed using the Tarlov scale (0 = paraplegia, 4 = normal). The gray matter damage was assessed on the basis of the number of normal neurons in the anterior spinal cord. White matter damage was assessed on the basis of the extent of vacuolation and accumulation of amyloid precursor protein immunoreactivity. RESULTS: Tarlov scores gradually decreased and reached a nadir 14 days after reperfusion. There were no significant differences in the number of normal neurons among the 24-h, 4-day, and 14-day groups. The extent of vacuolation, expressed as a percent of total white matter area, was significantly greater in the 4-day and 14-day groups in comparison with the sham group. By contrast, there was no difference in vacuolation between the sham and 24-h groups. Amyloid precursor protein immunoreactivity was greater in the 4-day and 14-day groups. CONCLUSION: The results in the current study show that SCI induced white matter injury as well as gray matter injury in a rabbit model of SCI. The time course for 14 days after reperfusion may differ among the gray and white matter damages and hind-limb motor function in rabbits subjected to SCI.     

Neuroprotective Effect of Epidural Electrical Stimulation against Ischemic Spinal Cord Injury in Rats: Electrical Preconditioning

Background: Electroconvulsion therapy is likely to serve as an effective preconditioning stimulus for inducing tolerance to ischemic brain injury. The current study examines whether electrical stimuli on the spinal cord is also capable of inducing tolerance to ischemic spinal cord injury by transient aortic occlusion.

Methods: Spinal cord ischemia was induced by occlusion of the descending thoracic aorta in combination with maintaining systemic hypotension (40 mmHg) during the procedure. Animals implanted with epidural electrodes were divided into four groups according to electrical stimulation and sham. Two groups consisted of rapid preconditioning (RE group, n = 8) and sham procedure (RC group, n = 8) 30 min before 9 min of spinal cord ischemia. In the two groups that underwent delayed preconditioning, rats were exposed to 9 min of aortic occlusion 24 h after either pretreatment with epidural electrical stimulation (DE group, n = 8) or sham (DC group, n = 8). In addition, rats were exposed to 6-11 min of spinal cord ischemia at 30 min or 24 h after epidural electrical stimulation or sham stimulation. The group P50 represents the duration of spinal cord ischemia associated with 50% probability of resultant paraplegia.

Results: Pretreatment with electrical stimulation in the DE group but not the RE group protected the spinal cord against ischemia, and this stimulation prolonged the P50 by approximately 15.0% in the DE group compared with the DC group.     

The effect of thalidomide on spinal cord ischemia/reperfusion injury in a rabbit model

STUDY DESIGN: Randomized study. OBJECTIVES: To evaluate the effects of thalidomide on spinal cord ischemia/reperfusion injury via reduced TNF-alpha production. SETTING: Animal experimental laboratory, Clinical Research Institute of Seoul National University Hospital, Seoul, Korea. METHODS: Spinal cord ischemia was induced in rabbits by occluding the infrarenal aorta. Rabbits in group N did not undergo ischemic insult, but rabbits in groups C (the untreated group), THA, and THB underwent ischemic insult for 15 min. The THA and THB groups received thalidomide (20 mg/kg) intraperitoneally (i.p.) before ischemia, but only the THB group received thalidomide (i.p., 20 mg/kg) after 24 and 48 h of reperfusion. After evaluating neurologic functions at 1.5 h, 3, and 5 days of reperfusion, rabbits were killed for histopathologic examination and Western blot analysis of TNF-alpha. RESULTS: The THA and THB groups showed significantly less neurologic dysfunction than the C group at 1.5 h, 3, and 5 days of reperfusion. The number of normal spinal motor neurons in ventral gray matter was higher in THA and THB than in C, but no difference was observed between THA and THB. Western blot analysis showed a significantly higher level of TNF-alpha in C than in THA and THB at 1.5 h of reperfusion, but no difference was observed between C, THA, or THB at 3 or 5 days of reperfusion. CONCLUSION: Thalidomide treatment before ischemic insult reduces early phase ischemia/reperfusion injury of the spinal cord in rabbits.     

氢饱和生理盐水对兔脊髓缺血再灌注损伤的神经保护作用

目的 研究氢气对脊髓缺血再灌注损伤的保护作用及其潜在机制。方法 新西兰兔随机分为3组：对照组、脊髓缺血再灌注损伤组和氢水治疗组。对照组仅接受暴露,无脊髓缺血再灌注损伤;缺血再灌注组动物采用ZIVIN法建立脊髓缺血再灌注损伤模型,造成脊髓腰骶段缺血35 min 后行再灌注;氢水治疗组动物在再灌注前5 min腹腔注射饱和氢盐水（5 mL/kg）,再灌注后8 h重复注射。不同时间点检测后肢运动功能。术后72 h取脊髓进行HE染色、TUNEL染色、氧化-抗氧化指标检测及ELISA检测细胞因子。结果 含氢生理盐水治疗能显著改善动物神经功能、抑制脊髓神经元凋亡、抑制氧化应激、改善抗氧化能力,同时降低炎症相关细胞因子,从而发挥脊髓保护作用。结论 腹腔注射含氢生理盐水通过抗氧化和抗炎对脊髓缺血再灌注损伤发挥保护作用。     

An evaluation of white matter injury after spinal cord ischemia in rats: a comparison with gray matter injury

We quantitatively assessed both gray and white matter injury after spinal cord ischemia in rats, and the relationship between the magnitude of gray and white matter injury was determined. Twenty-five male rats were anesthetized with isoflurane, and spinal cord ischemia (SCI) was induced by balloon intraaortic occlusion combined with hypotension. The animals were randomly allocated to one of the following three groups: animals with SCI for 12 min (SCI-12; n = 8), 15 min (SCI-15; n = 9), or those with sham operation (n = 8). Twenty-four hours after reperfusion, hindlimb motor function was assessed using the Basso-Beattie-Bresnahan scale scoring. Gray matter damage was assessed on the basis of the number of normal neurons in the ventral horn. White matter damage was assessed on the basis of the extent of vacuolation and amyloid precursor protein immunoreactivity in the ventral and ventrolateral white matter. There were significantly less normal neurons in the SCI-15 group compared with those in the SCI-12 and sham groups (P < 0.05). There was a significant positive correlation between the Basso-Beattie-Bresnahan scores and the number of normal neurons. The percentages of vacuolation areas in the SCI-15 group were significantly larger compared with those in the SCI-12 and sham groups (30% +/- 10% versus 9% +/- 7%, 0% +/- 0%, P < 0.05). Immunohistochemical analysis revealed increased amyloid precursor protein immunoreactivity in the swollen axons, especially in the SCI-15 group. There was a significant negative correlation between the number of normal neurons and percentages of vacuolation areas. These results indicate that both gray and white matter were injured after SCI in rats and the degree of white mater injury was correlated with the severity of gray matter injury after a relatively short recovery period.     

缺血预处理对大鼠肺组织中缺血再灌注损伤相关基因表达的影响

目的 探讨缺血预处理(IPC)后大鼠肺组织中缺血再灌注损伤(IRI)相关基因的表达,为研究IPC减轻IRI的分子机制提供依据.方法 将雄性Wistar大鼠随机分为三组,缺血预处理组(IPC组,n:20)阻断左肺门5 min,开放10 min,如此重复3次,然后阻断左肺门,1 h后恢复血流灌注;缺血再灌注组(IR组,n=20)直接阻断左肺门,1 h后开放血流;假手术组(n=5)仅松解肺下部韧带,不做其它处理.IPC组和IR组分别于再灌注后1、3、6及24 h各取大鼠5只,切取左肺组织,采用含有22 226个大鼠基因点的Illumina RatRef-12全基因组表达谱微珠芯片检测肺组织中基因表达情况,比较IPC组与IR组各再灌注时间点基因表达的差异.结果 与IR组再灌注1 h相比,IPC组再灌注1 h时有1849个基因表达发生改变,其中上调的有918个,下调的有931个.与IR组再灌注3 h相比,IPC组再灌注3 h时有2568个基因表达发生改变,其中上调的有1377个,下调的有1191个.与IR组再灌注6 h相比,IPC组再灌注6 h时有1370个基因表达发生改变,其中上调的有563个,下调的有807个.与IR组再灌注24 h相比,IPC组再灌注24 h时仅有77个基因表达发生改变,全部为下调.结论 IPC对缺血再灌注损伤肺组织中基因表达的影响主要在再灌注后6 h内,以3 h最为明显;IPC可能通过影响凋亡相关基因、氧化应激相关基因、炎症反应及循环相关基因、能量代谢相关基因的表达来减轻IRI.     

Ischemic preconditioning reduces neurologic injury in a rat model of spinal cord ischemia.

BACKGROUND: Ischemic preconditioning (IPC) is an endogenous cellular protective mechanism whereby brief, noninjurious periods of ischemia render a tissue more resistant to a subsequent, more prolonged ischemic insult. We hypothesized that IPC of the spinal cord would reduce neurologic injury after experimental aortic occlusion in rats and that this improved neurologic benefit could be induced acutely after a short reperfusion interval separating the IPC and the ischemic insult. METHODS: Forty male Sprague-Dawley rats under general anesthesia were randomly assigned to one of two groups. The IPC group (n = 20) had 3 minutes of aortic occlusion to induce spinal cord ischemia 30 minutes of reperfusion, and 12 minutes of ischemia, whereas the controls (n = 20) had only 12 minutes of ischemia. Neurologic function was evaluated 24 and 48 hours later. Some animals from these groups were perfusion-fixed for hematoxylin and eosin staining of the spinal cord for histologic evaluation. RESULTS: Survival was significantly better at 48 hours in the IPC group. Sensory and motor neurologic function were significantly different between groups at 24 and 48 hours. Histologic evaluation at 48 hours showed severe neurologic damage in rats with poor neurologic test scores. CONCLUSIONS: Ischemic preconditioning reduces neurologic injury and improves survival in a rat model of spinal cord ischemia. The protective benefit of IPC is acutely invoked after a 30-minute reperfusion interval between the preconditioning and the ischemic event.     

重复高压氧预处理对大鼠脊髓缺血再灌注时低氧诱导因子-1α及促红细胞生成素表达的影响

目的 探讨重复高压氧预处理对大鼠脊髓缺血再灌注时低氧诱导因子-1α(HIF-1α)和促红细胞生成素(EPO)表达的影响.方法 雄性SD大鼠48只,体重250～300g,采用随机数字表法,将其随机分为3组(n=16):假手术组(S组)、脊髓缺血再灌注组(I/R组)和重复高压氧预处理(HOP组).HOP组实施高压氧预处理,参数为:氧浓度＞98%,氧含量1000ml/L,压力2.5 ATA,1 h/d,连续5 d,最后1 d处理后24 h,I/R组和HOP组采用夹闭腹主动脉20min再开放的方法制备脊髓缺血再灌注模型.再灌注48h时评价后肢运动功能,然后处死大鼠,取L5-7节段脊髓组织,测定HIF-1α、EPO的mRNA及其蛋白表达水平,光镜下观察病理学结果.结果 与S组比较,I/R组和HOP组后肢运动功能和脊髓前角正常运动神经元计数降低,脊髓组织HIF-1α、EPO的mRNA及其蛋白表达水平上调(P＜0.05);与I/R组比较,HOP组后肢运动功能和脊髓前角正常运动神经元计数升高,脊髓组织HIF-1α及EPO的mRNA及其蛋白表达水平上调(P＜0.05).HOP组脊髓组织病理学损伤程度轻于I/R 组.结论 重复高压氧预处理可上调HIF-1α及EPO表达,从而减轻大鼠脊髓缺血再灌注损伤.

Abstract：

Objective To investigate the effect of repeated hyperbaric oxygen preconditioning (HOP) on the expression of hypoxia-inducible factor-1 alpha (HIF-1a) and erythropoietin (EPO) following spinal ischemiareperfusion (I/R) in rats. Methods Forty-eight male SD rats weighing 250-300 g were randomly divided into 3 groups (n = 16 each): sham operation group (S group); I/R group and repeated HOP group (HOP group). The animals in HOP group were pretreated with O2 ( ＞ 98 % ) at 2.5 ATA I h/d for 5 consecutive days at 24 h before spinal cord I/R. The animals were anesthetized with intraperitoneal pentobarbital sodium 35 mg/kg. Spinal cord ischemia was produced by cross-clamping of abdominal aorta distal to renal artery for 20 min in I/R and HOP groups. Hind-limb motor function was assessed and scored st 48 h of reperfusion. The animals were then sacrificed and the L5-7 segment of the spinal cord was removed for determination of the expression of HIF-1 α and EPO mRNA and protein and microscopic examination. Results Compared with group S, the hind-limb motor function scores and the number of normal motor neurons in the anterior horn of the spinal cord were significantly decreased, and the expression of HIF-1α and EPO mRNA and protein was up-regulated in I/R and HOP groups ( P ＜ 0.05). Compared with group I/R, the hind-limb motor function scores and the number of normal motor neurons in the anterior horn of the spinal cord were significantly increased, and the expression of HIF-1α and EPO mRNA and protein was up-regulated in group HOP ( P ＜ 0.05). The spinal cord injury was attenuated in group HOP compared with group I/R. Conclusion Repeated HOP can reduce the spinal cord I/R injury though up-regulating the expression of HIF1α and EPO in rats.