可编程微芯片监测中风后发热:阿司匹林和扑热息痛对大鼠体温和梗死面积的影响
Programmable microchip monitoring of post-stroke pyrexia: effects of aspirin and paracetamol on temperature and infarct size in the rat.
作者信息
Legos Jeffrey J, Mangoni Arduino A, Read Simon J, Campbell Colin A, Irving Elaine A, Roberts Jenny, Barone Frank C, Parsons Andrew A
机构信息
GlaxoSmithKline, High Throughput Biology, Discovery Research, 709 Swedeland Road, PO Box 1539, King of Prussia, PA 19406, USA.
出版信息
J Neurosci Methods. 2002 Jan 30;113(2):159-66. doi: 10.1016/s0165-0270(01)00488-5.
BACKGROUND
Recent studies have demonstrated spontaneous and prolonged hyperthermia following stroke in both humans and rodents. However, a full characterization of these pyretic changes and the effects of anti-pyretic drugs on outcome is not available.
METHODS
The aims of this study were to monitor conscious body temperature (n=10 per group) using programmable microchips for up to 24 h in rats following either permanent (p) or 90 min transient (t) middle cerebral artery occlusion (MCAO) or sham surgery, and to evaluate the relationship to hypothalamic damage. Also, the effects of anti-pyretic drug therapy on body temperature and infarct volume were evaluated in animals treated with vehicle, optimal doses of either aspirin or paracetamol (250 mg/kg i.p.) following pMCAO (n=10 per group).
RESULTS
At 1 h, body temperature significantly (P<0.01) increased to 38.6+/-0.2 degrees C following tMCAO and 38.9+/-0.1 degrees C following pMCAO compared with sham-operated animals (37.1+/-0.1 degrees C). Sustained hyperthermia (> or =38.1 degrees C) was observed for up to 24 h following pMCAO but approached baseline within 30 min (37.6+/-0.2 degrees C) following tMCAO with reperfusion. The post-stroke pyrexia was related to the degree of ischemia where hypothalamic damage was observed in (80%) of the animals undergoing pMCAO and (0%) in the tMCAO group (P<0.05). Treatment with paracetamol (250 mg/kg i.p.) significantly attenuated (P<0.05) but did not normalize core body temperature up to 2 h (38.2+/-0.4 degrees C) compared with vehicle treated animals (39.3+/-0.1 degrees C). Aspirin had no effect on temperature under these conditions. Hypothalamic damage and lesion volume were not different between animals treated with paracetamol (253.3+/-8.5 mm(3)), aspirin (264.0+/-11.6 mm(3)) or vehicle (274.4+/-8.2 mm(3)).
CONCLUSIONS
This study is the first to demonstrate the utility of programmable microchips to monitor serial changes in post-stroke hyperthermia. The sustained post-stroke pyrexia and negative effects of antipyretic treatment may be attributed to the extensive hypothalamic injury suggesting that better pharmacologic approaches to reduce body temperature should be identified and evaluated for brain protection in severe experimental stroke.
背景
最近的研究表明,人类和啮齿动物中风后会出现自发性和持续性高热。然而,这些发热变化的全面特征以及退烧药对预后的影响尚不清楚。
方法
本研究的目的是在大鼠永久性(p)或90分钟短暂性(t)大脑中动脉闭塞(MCAO)或假手术后,使用可编程微芯片监测清醒动物体温(每组n = 10)长达24小时,并评估其与下丘脑损伤的关系。此外,在pMCAO后用载体、最佳剂量的阿司匹林或对乙酰氨基酚(250mg/kg腹腔注射)治疗的动物中(每组n = 10),评估退烧药治疗对体温和梗死体积的影响。
结果
与假手术动物(37.1±0.1℃)相比,tMCAO后1小时体温显著(P<0.01)升高至38.6±0.2℃,pMCAO后体温升高至38.9±0.1℃。pMCAO后观察到持续高热(≥38.1℃)长达24小时,但tMCAO再灌注后30分钟内体温接近基线(37.6±0.2℃)。中风后发热与缺血程度有关,pMCAO组80%的动物观察到下丘脑损伤,tMCAO组为0%(P<0.05)。与载体治疗的动物(39.3±0.1℃)相比,对乙酰氨基酚(250mg/kg腹腔注射)治疗在长达2小时内显著降低(P<0.05)但未使核心体温恢复正常(38.2±0.4℃)。在这些条件下,阿司匹林对体温没有影响。用对乙酰氨基酚(253.3±8.5mm³)、阿司匹林(264.0±11.6mm³)或载体(274.4±8.2mm³)治疗的动物下丘脑损伤和病变体积没有差异。
结论
本研究首次证明了可编程微芯片在监测中风后高热连续变化方面的实用性。中风后持续发热和退烧药治疗的负面影响可能归因于广泛的下丘脑损伤,这表明应确定并评估更好的降低体温的药理学方法,以保护严重实验性中风中的大脑。
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