Schwartz A E, Stone J G, Finck A D, Sandhu A A, Mongero L B, Adams D C, Jonassen A E, Young W L, Michler R E
Department of Anesthesiology, College of Physicians and Surgeons of Columbia University, New York, New York, USA.
Neurosurgery. 1996 Sep;39(3):577-81; discussion 581-2. doi: 10.1097/00006123-199609000-00028.
Hypothermia has been demonstrated to protect the brain from ischemic or traumatic injury. Previous efforts to induce cerebral hypothermia have relied on techniques requiring total body cooling that have resulted in serious cardiovascular derangements. A technique to selectively cool the brain, without systemic hypothermia, may have applications for the treatment of neurological disease.
After induction of general anesthesia in 12 baboons, the right common carotid artery and ipsilateral femoral artery were each occlusively cannulated and joined to a centrifugal pump. In a closed-circuit system, blood was continually withdrawn from the femoral artery, cooled by water bath, and infused through the common carotid artery with its external branches occluded. Pump flow was varied so that right carotid pressure approximated systemic blood pressure. In six animals, perfusate was cooled to decrease right cerebral temperature to < 19 degrees C for 30 minutes. In six animals, right cerebral temperature was decreased to < 25 degrees C for 3 hours. In those six animals, 133Xe was injected into the right carotid artery before, during, and after hypothermia. Peak radioactivity and washout curves were recorded from bilateral cranial detectors. Systemic warming was accomplished by convective air and warm water blankets. Esophageal, rectal, and bilateral cerebral temperatures were continuously recorded.
In animals cooled to < 19 degrees C, right cerebral temperature decreased from 34 degrees C to 18.5 +/- 1.1 degrees C (mean +/- standard deviation), P < 0.01, in 26 +/- 13 minutes. Simultaneously, left cerebral temperature decreased to 20.7 +/- 1.6 degrees C. During 30 minutes of stable cerebral hypothermia, esophageal temperature decreased from 35.1 +/- 2.3 degrees C to 34.2 +/- 2.2 degrees C, P < 0.05. In animals cooled to < 25 degrees C, right cerebral temperature decreased from 34 degrees C to 24.5 +/- 0.6 degrees C in 12.0 +/- 6.0 minutes, P < 0.01. Simultaneously, left cerebral temperature decreased to 26.3 +/- 4.8 degrees C. After 3 hours of stable cerebral hypothermia, esophageal temperature was 34.4 +/- 0.5 degrees C, P < 0.05. Right hemispheric cerebral blood flow decreased during hypothermia (26 +/- 16 ml/min/100 g) compared to values before and after hypothermia (63 +/- 29 and 51 +/- 34 ml/min/100 g, respectively; P < 0.05). Furthermore, hypothermic perfusion resulted in a proportionally increased radioactivity peak detected in the left cerebral hemisphere after right carotid artery injection of 133Xe (0.8 +/- 0.2:1, left:right) compared to normothermia before and after hypothermia (0.3 +/- 2 and 0.3 +/- 1, respectively; P < 0.05). Normal heart rhythm, systemic arterial blood pressure, and arterial blood gas values were preserved during hypothermia in all animals.
Bilateral cerebral deep or moderate hypothermia can be induced by selective perfusion of a single internal carotid artery, with minimal systemic cooling and without cardiovascular instability. This global brain hypothermia results from profoundly altered collateral cerebral circulation during artificial hypothermic perfusion. This technique may have clinical applications for neurosurgery, stroke, or traumatic brain injury.
低温已被证明可保护大脑免受缺血性或创伤性损伤。以往诱导脑部低温的方法依赖于需要全身降温的技术,这会导致严重的心血管紊乱。一种在不引起全身低温的情况下选择性冷却大脑的技术,可能对神经系统疾病的治疗有应用价值。
对12只狒狒进行全身麻醉后,将右侧颈总动脉和同侧股动脉分别进行闭塞插管,并连接到离心泵。在一个闭路系统中,血液持续从股动脉抽出,通过水浴冷却,然后在其外部分支闭塞的情况下经颈总动脉注入。改变泵流量,使右侧颈动脉压力接近全身血压。在6只动物中,将灌注液冷却以使右侧脑温降至<19℃并持续30分钟。在另外6只动物中,将右侧脑温降至<25℃并持续3小时。在这6只动物中,在低温前、低温期间和低温后,将133Xe注入右侧颈动脉。从双侧颅骨探测器记录放射性峰值和洗脱曲线。通过对流空气和温水毯实现全身复温。持续记录食管、直肠和双侧脑温。
在冷却至<19℃的动物中,右侧脑温在26±13分钟内从34℃降至18.5±1.1℃(平均值±标准差),P<0.01。同时,左侧脑温降至20.7±1.6℃。在30分钟的稳定脑部低温期间,食管温度从35.1±2.3℃降至34.2±2.2℃,P<0.05。在冷却至<25℃的动物中,右侧脑温在12.0±6.0分钟内从34℃降至24.5±0.6℃,P<0.01。同时,左侧脑温降至26.3±4.8℃。在3小时的稳定脑部低温后,食管温度为34.4±0.5℃,P<0.05。与低温前后的值(分别为63±29和51±34 ml/min/100 g)相比,低温期间右侧半球脑血流量降低(26±16 ml/min/100 g),P<0.05。此外,与低温前后的正常体温相比(分别为0.3±2和0.3±1),低温灌注导致在右侧颈动脉注射133Xe后左侧脑半球检测到的放射性峰值成比例增加(0.8±0.2:1,左:右),P<0.05。在所有动物的低温期间,正常心律、全身动脉血压和动脉血气值均得以维持。
通过选择性灌注单一颈内动脉可诱导双侧脑部深度或中度低温,全身冷却极少且无心血管不稳定。这种全脑低温是由于人工低温灌注期间侧支脑循环发生深刻改变所致。该技术可能在神经外科手术、中风或创伤性脑损伤的临床治疗中有应用价值。
