Lips Jeroen, de Haan Peter, Bouma Gert Joan, Holman Rebecca, van Dongen Eric, Kalkman Cor J
Department of Neurosurgery, Academic Hospital Groningen, Groningen, The Netherlands.
Anesthesiology. 2005 Feb;102(2):340-5. doi: 10.1097/00000542-200502000-00016.
Perioperative assessment of spinal cord oxygenation might guide measures to prevent neurologic deficits secondary to ischemic or traumatic damage of the spinal cord. Although cerebrospinal fluid (CSF) partial pressure of oxygen (Po2) measurement has been used to detect spinal cord ischemia (SCI), the diagnostic value and the temporal resolution of CSF Po2 measurement compared with functional assessment of the spinal cord is unknown. This study compared CSF Po2 with transcranial motor evoked potentials (tcMEPs) for detection of experimental SCI.
The aorta and segmental arteries were exposed in 10 sufentanil-ketamine-anesthetized pigs (weight, 40-50 kg). Myogenic tcMEPs were recorded from the upper and lower limbs, and continuous assessment of CSF Po2 was provided by two Clark-type microcatheters inserted in the lumbar and thoracic intrathecal space. Graded lumbar SCI was produced by sequential clamping of segmental arteries. The relation between CSF Po2 and tcMEP during graded SCI was determined using linear regression. Diagnostic characteristics of CSF Po2 values for clinical SCI were determined using different cutoff points of CSF Po2.
Lumbar CSF Po2 (baseline, 44 [interquartile range, 38-54] mmHg) decreased below 50% in all animals and was linearly related to loss of tcMEP amplitude in all animals. The median lumbar CSF Po2 during reduction of tcMEP to less than 25% of baseline was 11 (4-29) mmHg, whereas thoracic CSF Po2 remained constant (40 [28-50] mmHg). During absence of the tcMEP signal, lumbar CSF Po2 was less than 20 mmHg in 80% of the animals. Optimal sensitivity and predictive values of CSF Po2 measurement for SCI were in the range of 40-60% of baseline.
The data indicate that intrathecal Po2 measurement is a sensitive monitoring technique to track real-time changes in local spinal cord oxygenation. Continuous monitoring of CSF Po2 might be applied for evaluation of patients who are at risk for direct or secondary SCI.
脊髓氧合的围手术期评估可能有助于采取措施预防继发于脊髓缺血或创伤性损伤的神经功能缺损。虽然脑脊液(CSF)氧分压(Po2)测量已被用于检测脊髓缺血(SCI),但与脊髓功能评估相比,CSF Po2测量的诊断价值和时间分辨率尚不清楚。本研究比较了CSF Po2与经颅运动诱发电位(tcMEP)在检测实验性SCI中的作用。
在10只接受舒芬太尼-氯胺酮麻醉的猪(体重40-50千克)中暴露主动脉和节段动脉。记录上肢和下肢的肌源性tcMEP,并通过插入腰段和胸段鞘内空间的两根Clark型微导管持续评估CSF Po2。通过依次夹闭节段动脉产生分级腰段SCI。使用线性回归确定分级SCI期间CSF Po2与tcMEP之间的关系。使用不同的CSF Po2截止点确定CSF Po2值对临床SCI的诊断特征。
所有动物的腰段CSF Po2(基线,44[四分位间距,38-54]mmHg)降至50%以下,并且与所有动物tcMEP振幅的降低呈线性相关。tcMEP降至基线的25%以下时,腰段CSF Po2的中位数为11(4-29)mmHg,而胸段CSF Po2保持恒定(40[28-50]mmHg)。在tcMEP信号消失期间,80%的动物腰段CSF Po2低于20 mmHg。CSF Po2测量对SCI的最佳敏感性和预测值在基线的40-60%范围内。
数据表明鞘内Po2测量是一种敏感的监测技术,可追踪脊髓局部氧合的实时变化。CSF Po2的连续监测可用于评估有直接或继发性SCI风险的患者。