Department of Neurosurgery, University of Pennsylvania, Philadelphia, Pennsylvania 19107, USA.
Neurosurgery. 2010 May;66(5):925-31; discussion 931-2. doi: 10.1227/01.NEU.0000368543.59446.A4.
Transport of critically ill intensive care unit patients may be hazardous. We examined whether brain oxygen (brain tissue oxygen partial pressure [PbtO2]) is influenced by transport to and from a follow-up head computed tomography (transport head computed tomography [tHCT]) scan.
Forty-five patients (24 men, 21 women; Glasgow Coma Scale score < or =8; mean age, 47.3 +/- 19.0 years) who had a traumatic brain injury (n = 26) or subarachnoid hemorrhage (n = 19) were retrospectively identified from a prospective observational cohort of PbtO2 monitoring in a neurosurgical intensive care unit at a university-based level I trauma center. PbtO2, intracranial pressure, and cerebral perfusion pressure were monitored continuously and compared during the 3 hours before and after 100 tHCT scans.
The mean PbtO2 before and after the tHCT scans for all 100 scans was 37.9 +/- 19.8 mm Hg and 33.9 +/- 17.2 mm Hg, respectively (P = .0001). A decrease in PbtO2 (>5%) occurred after 54 tHCTs (54%) and in 36 patients (80%). In instances in which a decrease occurred, the average decrease in mean, minimum, and maximum PbtO2 was 23.6%, 29%, and 18.1%, respectively. This decrease was greater when PbtO2 was compromised (<25 mm Hg) before tHCT. An episode of brain hypoxia (<15 mm Hg) was identified in the 3 hours before tHCT in 9 and after tHCT in 19 instances. On average, an episode of brain hypoxia was 46.6 +/- 16.0 (standard error) minutes longer after tHCT than before tHCT (P = .008). Multivariate analysis suggests that changes in lung function (PaO2/fraction of inspired oxygen [FiO2] ratio) may account for the reduced PbtO2 after tHCT (parameter estimate 0.45, 95% confidence interval: 0.024-0.871; P = .04).
These data suggest that transport to and from the intensive care unit may adversely affect PbtO2. This deleterious effect is greater when PbtO2 is already compromised and may be associated with lung function.
转运危重症患者可能存在风险。本研究旨在探讨将患者转运至神经外科重症监护病房(NICU)进行头部 CT 复查(转运头部 CT 扫描,tHCT)是否会影响脑氧合(脑组织氧分压,PbtO2)。
我们从一家大学附属的 I 级创伤中心的神经外科 NICU 前瞻性观察性脑氧监测队列中回顾性地确定了 45 名患者(男 24 名,女 21 名;格拉斯哥昏迷量表评分≤8 分;平均年龄 47.3±19.0 岁)的资料,这些患者患有创伤性脑损伤(n=26)或蛛网膜下腔出血(n=19)。在 100 次 tHCT 扫描前和扫描后 3 小时内连续监测 PbtO2、颅内压和脑灌注压,并进行比较。
所有 100 次扫描的平均 PbtO2 在 tHCT 扫描前和扫描后分别为 37.9±19.8mmHg 和 33.9±17.2mmHg(P=0.0001)。54 次(54%)和 36 名患者(80%)的 PbtO2 下降。在发生下降的情况下,平均 PbtO2 下降的幅度分别为 23.6%、29%和 18.1%。在 tHCT 前 PbtO2 已经受损(<25mmHg)时,下降幅度更大。在 tHCT 前的 3 小时内发现有 9 例出现脑缺氧(<15mmHg),在 tHCT 后发现有 19 例出现脑缺氧。平均而言,tHCT 后出现脑缺氧的时间比 tHCT 前延长了 46.6±16.0 分钟(标准误差)(P=0.008)。多变量分析表明,肺功能(PaO2/吸入氧分数[FiO2]比值)的变化可能是 tHCT 后 PbtO2 降低的原因(参数估计 0.45,95%置信区间:0.024-0.871;P=0.04)。
这些数据表明,在转运至 NICU 前后可能会对 PbtO2 产生不利影响。当 PbtO2 已经受损时,这种有害影响更大,并且可能与肺功能有关。
