Biswas A K, Scott W A, Sommerauer J F, Luckett P M
Department of Pediatrics, University of Texas Southwestern Medical Center, Dallas, USA.
Crit Care Med. 2000 Dec;28(12):3907-12. doi: 10.1097/00003246-200012000-00030.
To evaluate heart rate variability (HRV) by power spectral analysis of heart rate and its relationship to intracranial pressure (ICP), cerebral perfusion pressure (CPP), and outcomes in children with acute traumatic head injury.
Prospective, case series.
Pediatric intensive care unit in a level II trauma center/children's hospital.
Fifteen critically ill children with documented acute traumatic brain injury and four control subjects.
None.
The normalized total power from 0.04 to 0.15 Hz was used to quantify low-frequency HRV and from 0.15 to 0.40 Hz to quantify high-frequency HRV. The ratio of low- to high-frequency (LF/HF) power was used as a measure of sympathetic modulation of heart rate. The power spectral data from the 5-min samples were averaged over each hour of data collection, and an hourly LF/HF ratio was obtained based on a 60-min electrocardiogram collection (twelve 5-min segments). The daily mean LF/HF ratio was calculated from the hourly LF/HF measurements. We found no linear correlation between the LF/HF ratio and either ICP or CPP (p = NS). There was a significant decrease in the LF/HF ratio when the intracranial pressure was >30 mm Hg (p < .001) or the cerebral perfusion pressure was <40 mm Hg (p < .001). Children with a Glasgow Coma Scale score of 3-4 had a lower LF/HF ratio compared with those who had a Glasgow Coma Scale score of 5-8 (p < .005). Patients who progressed to brain death had a markedly lower LF/HF ratio (p < .001), with a significant decrease after the first 4 hrs of hospitalization. Patients with more favorable outcomes had significantly higher LF/HF ratios.
Our findings suggest that an ICP of >30 mm Hg or a CPP of <40 mm Hg may be associated with marked autonomic dysfunction and poor outcome. We speculate that HRV power spectral analysis may be a useful adjunct in determining the severity of neurologic insult and the prognosis for recovery in children. The LF/HF ratio may be helpful not only in identifying those patients who will progress to brain death but also in predicting which patients will have favorable outcomes.
通过心率功率谱分析评估急性创伤性脑损伤患儿的心率变异性(HRV)及其与颅内压(ICP)、脑灌注压(CPP)和预后的关系。
前瞻性病例系列研究。
二级创伤中心/儿童医院的儿科重症监护病房。
15例有记录的急性创伤性脑损伤重症患儿和4例对照受试者。
无。
采用0.04至0.15Hz的归一化总功率量化低频HRV,0.15至0.40Hz的归一化总功率量化高频HRV。低频与高频功率之比(LF/HF)用作心率交感神经调节的指标。将5分钟样本的功率谱数据在每小时的数据收集过程中进行平均,并基于60分钟心电图收集(12个5分钟片段)获得每小时的LF/HF比值。每日平均LF/HF比值根据每小时的LF/HF测量值计算得出。我们发现LF/HF比值与ICP或CPP之间无线性相关性(p = 无统计学意义)。当颅内压>30mmHg(p <.001)或脑灌注压<40mmHg(p <.001)时,LF/HF比值显著降低。格拉斯哥昏迷量表评分为3 - 4分的患儿与评分为5 - 8分的患儿相比,LF/HF比值更低(p <.005)。进展为脑死亡的患者LF/HF比值明显更低(p <.001),在住院的前4小时后显著下降。预后较好的患者LF/HF比值显著更高。
我们的研究结果表明,颅内压>30mmHg或脑灌注压<40mmHg可能与明显的自主神经功能障碍和不良预后相关。我们推测HRV功率谱分析可能是确定儿童神经损伤严重程度和恢复预后的有用辅助手段。LF/HF比值不仅有助于识别那些将进展为脑死亡的患者,还能预测哪些患者预后良好。