Woods R J, Prueckner S, Safar P, Radovsky A, Takasu A, Stezoski S W, Stezoski J, Tisherman S A
Safar Center for Resuscitation Research, University of Pittsburgh School of Medicine, Pennsylvania 15260, USA.
J Trauma. 1999 Dec;47(6):1028-36; discussion 1036-8. doi: 10.1097/00005373-199912000-00007.
Trauma victims rarely survive cardiac arrest from exsanguination. Survivors may suffer neurologic damage. Our hypothesis was that a hypothermic aortic arch flush of 500 mL of isotonic saline solution at 4 degrees C, compared with 24 degrees C (room temperature), administered at the start of prolonged exsanguination cardiac arrest (CA) would improve functional neurologic outcome in dogs.
Seventeen male hunting dogs were prepared under light N2O-halothane anesthesia. The animals were randomized into two groups: group I (n = 9) received 4 degrees C isotonic saline flush and group II (n = 6) received 24 degrees C flush. Two additional dogs received no flush. While spontaneously breathing, the dogs underwent normothermic (tympanic membrane temperature [Ttm] = 37.5 degrees C) exsanguination over 5 minutes to cardiac arrest, assured by electric induction of ventricular fibrillation. After 2 minutes of arrest, the flush was administered over 1 minute into the aortic arch by means of a 13 French balloon-tipped catheter inserted by means of the femoral artery. After 15 minutes of CA, resuscitation was with closed-chest cardiopulmonary bypass, return of shed blood, and defibrillation. For the first 12 hours after CA, core temperature was maintained at 34 degrees C. Mechanical ventilation was continued to 20 hours and intensive care to 72 hours, when final evaluation and perfusion-fixation killing for brain histologic damage scoring were performed.
Three dogs in group I were excluded because of extracerebral complications. All 14 dogs that followed protocol survived. During CA, the Ttm decreased to 33.6 +/- 1.2 degrees C in group I and 35.9 +/- 0.4 degrees C in group II (p = 0.002). At 72 hours, in group I, all dogs achieved an overall performance category (OPC) of 1 (normal). In group II, 1 dog was OPC 2 (moderate disability), 3 dogs were OPC 3 (severe disability), and 2 dogs were OPC 4 (coma). Both dogs without flush were OPC 4. Neurologic deficit scores (NDS 0% = normal, 100% = brain death) were 1 +/- 1% in group I and 41 +/- 12% in group II (p < 0.05). The two dogs without flush achieved an NDS of 47% and 59%. Total brain histologic damage scores were 35 +/- 28 in group I and 82 +/- 17 in group II (p < 0.01); and 124 and 200 in the nonflushed dogs.
At the start of 15 minutes of exsanguination cardiac arrest in dogs, hypothermic aortic arch flush allows resuscitation to survival with normal neurologic function and histologically almost clean brains.
创伤患者因失血导致心脏骤停后很少能存活。幸存者可能会遭受神经损伤。我们的假设是,在长时间失血导致心脏骤停(CA)开始时,给予500毫升4℃的等渗盐溶液进行低温主动脉弓冲洗,与24℃(室温)相比,会改善犬的功能性神经结局。
17只雄性猎犬在轻度一氧化二氮-氟烷麻醉下进行准备。动物被随机分为两组:第一组(n = 9)接受4℃等渗盐溶液冲洗,第二组(n = 6)接受24℃冲洗。另外两只狗未接受冲洗。在自主呼吸时,狗在5分钟内进行常温(鼓膜温度[Ttm]=37.5℃)失血至心脏骤停,通过电诱导心室颤动来确保。心脏骤停2分钟后,通过经股动脉插入的13号带气囊尖端导管在1分钟内将冲洗液注入主动脉弓。心脏骤停15分钟后,通过闭胸体外循环、回输失血和除颤进行复苏。心脏骤停后的前12小时,核心温度维持在34℃。机械通气持续至20小时,重症监护持续至72小时,此时进行最终评估并灌注固定处死以进行脑组织学损伤评分。
第一组有3只狗因脑外并发症被排除。所有14只按方案进行的狗均存活。在心脏骤停期间,第一组的Ttm降至33.6±1.2℃,第二组降至35.9±0.4℃(p = 0.002)。在72小时时,第一组所有狗的总体表现类别(OPC)为1(正常)。第二组中,1只狗为OPC 2(中度残疾),3只狗为OPC 3(重度残疾),2只狗为OPC 4(昏迷)。两只未接受冲洗的狗均为OPC 4。神经功能缺损评分(NDS 0% = 正常,100% = 脑死亡)在第一组为1±1%,在第二组为41±12%(p < 0.05)。两只未接受冲洗的狗的NDS分别为47%和59%。总的脑组织学损伤评分在第一组为35±28,在第二组为82±17(p < 0.01);未冲洗的狗分别为124和200。
在犬失血导致心脏骤停15分钟开始时,低温主动脉弓冲洗可使复苏后存活且神经功能正常,脑组织学上几乎无损伤。
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