犬出血、休克及复苏过程中骨骼肌的氧分压、二氧化碳分压和pH值
Skeletal muscle PO2, PCO2, and pH in hemorrhage, shock, and resuscitation in dogs.
作者信息
McKinley B A, Parmley C L, Butler B D
机构信息
University of Texas-Houston Medical School, Department of Anesthesiology, 77030, USA.
出版信息
J Trauma. 1998 Jan;44(1):119-27. doi: 10.1097/00005373-199801000-00015.
OBJECTIVE
To test fiber-optic PO2, PCO2, and pH sensors placed in skeletal muscle as monitors of hemorrhage, shock, and resuscitation, compared with mean arterial blood pressure, cardiac output, and blood gas variables.
DESIGN
Observational study in physiology laboratory, using a canine controlled hemorrhagic shock model.
MATERIALS AND METHODS
Mongrel dogs (20-35 kg; n = 10) were monitored with arterial, venous, and pulmonary artery catheters. A probe (0.5 mm in diameter) with fiber-optic PO2, PCO2, and pH sensors was placed percutaneously in the adductor muscle of the right medial thigh. Mean arterial blood pressure of 45 to 50 mm Hg was maintained for 1 hour with controlled hemorrhage, after which shed blood was reinfused. The animals were monitored for 4 hours after reinfusion.
MEASUREMENTS AND MAIN RESULTS
Skeletal muscle PO2 (PmO2) decreased from 31+/-9 to 5+/-4 mm Hg during shock and recovered with reinfusion. Skeletal muscle pH (pHm) decreased from 7.24+/-0.10 to 6.94+/-0.12 during shock, to 6.90+/-0.13 with reinfusion, and recovered to near baseline 2 hours after reinfusion. PmCO2 increased from 48+/-14 to 134+/-86 mm Hg during shock, to 138+/-92 mm Hg with a time course inverse to pHm, and recovered to near baseline 30 minutes after reinfusion. On average, skeletal muscle PCO2 (PmCO2) and pHm did not recover to baseline, possibly indicating persistent anaerobic metabolic effects. O2 delivery, mixed venous PO2, mixed venous O2, saturation and PmO2 responded with similar time courses.
CONCLUSION
PmO2, PmCO2, and pHm can be monitored simultaneously for several hours with fiber-optic sensors in a single, small probe. PmO2 may provide information comparable to O2 delivery. PmCO2 may reflect adequacy of perfusion. pHm may indicate success of resuscitation. This technology may offer new insight into the extent of injury and refinement of shock resuscitation and monitoring.
目的
测试置于骨骼肌中的光纤氧分压(PO2)、二氧化碳分压(PCO2)和pH传感器,将其作为出血、休克及复苏的监测指标,并与平均动脉血压、心输出量及血气变量进行比较。
设计
在生理学实验室进行的观察性研究,采用犬类控制性出血性休克模型。
材料与方法
用动脉导管、静脉导管和肺动脉导管对杂种犬(20 - 35千克;n = 10)进行监测。将一个带有光纤PO2、PCO2和pH传感器的探头(直径0.5毫米)经皮置于右大腿内侧内收肌中。通过控制性出血使平均动脉血压维持在45至50毫米汞柱1小时,之后回输流出的血液。回输后对动物监测4小时。
测量与主要结果
休克期间骨骼肌PO2(PmO2)从31±9毫米汞柱降至5±4毫米汞柱,并在回输后恢复。休克期间骨骼肌pH(pHm)从7.24±0.10降至6.94±0.12,回输时降至6.90±0.13,并在回输后2小时恢复至接近基线水平。休克期间PmCO2从48±14毫米汞柱升至134±86毫米汞柱,回输时升至138±92毫米汞柱,其时间进程与pHm相反,并在回输后30分钟恢复至接近基线水平。平均而言,骨骼肌PCO2(PmCO2)和pHm未恢复至基线水平,这可能表明存在持续无氧代谢效应。氧输送、混合静脉PO2、混合静脉氧饱和度和PmO2的反应时间进程相似。
结论
使用单个小探头中的光纤传感器可同时对PmO2、PmCO2和pHm进行数小时监测。PmO2可能提供与氧输送相当的信息。PmCO2可能反映灌注是否充足。pHm可能表明复苏是否成功。该技术可能为损伤程度及休克复苏和监测的优化提供新的见解。
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