地塞米松增强微透析在损伤大鼠皮质中的延长(10 天)实时监测。
Extended (10-Day) Real-Time Monitoring by Dexamethasone-Enhanced Microdialysis in the Injured Rat Cortex.
机构信息
Department of Chemistry , University of Pittsburgh , Pittsburgh , Pennsylvania 15260 , United States.
Department of Physical Medicine and Rehabilitation , University of Pittsburgh School of Medicine , Pittsburgh , Pennsylvania 15213 , United States.
出版信息
ACS Chem Neurosci. 2019 Aug 21;10(8):3521-3531. doi: 10.1021/acschemneuro.9b00145. Epub 2019 Jun 27.
Abstract
Intracerebral microdialysis has proven useful for chemical monitoring in patients following traumatic brain injury. Recent studies in animals, however, have documented that insertion of microdialysis probes into brain tissues initiates a foreign-body response. Within a few days after probe insertion, the foreign body response impedes the use of microdialysis to monitor the K and glucose transients associated with spreading depolarization, a potential mechanism for secondary brain injury. Herein, we show that perfusing microdialysis probes with dexamethasone, a potent anti-inflammatory glucocorticoid, suppresses the foreign body response and facilitates the monitoring of spontaneous spreading depolarizations for at least 10 days following controlled cortical injury in the rat. In addition to spreading depolarizations, results of this study suggest that a progressive, apparently permanent, decline in pericontusional interstitial glucose may be an additional sequela of brain injury. This study establishes extended dexamethasone-enhanced microdialysis in the injured rodent cortex as a new paradigm for investigating trauma-induced metabolic crisis.
摘要
脑室内微透析已被证明可用于创伤性脑损伤患者的化学监测。然而,最近的动物研究记录表明,将微透析探针插入脑组织会引发异物反应。在探针插入后的几天内,异物反应会阻碍微透析用于监测与扩散性去极化相关的 K 和葡萄糖瞬变,扩散性去极化是继发性脑损伤的潜在机制。在此,我们表明,用地塞米松(一种有效的抗炎糖皮质激素)灌注微透析探针可抑制异物反应,并有助于监测大鼠皮质控制损伤后至少 10 天的自发性扩散性去极化。除了扩散性去极化外,本研究的结果还表明,损伤周围间质葡萄糖的渐进性、明显永久性下降可能是脑损伤的另一种后遗症。这项研究确立了延长的地塞米松增强微透析在受损啮齿动物皮质中的应用,作为研究创伤引起的代谢危机的新范例。
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