Surgical Intensive Care Medicine, University Hospital Zürich, 8091 Zürich, Switzerland.
Acta Neurochir (Wien). 2010 Apr;152(4):627-36. doi: 10.1007/s00701-009-0579-8. Epub 2009 Dec 24.
To prevent iatrogenic damage, transfusions of red blood cells should be avoided. For this, specific and reliable transfusion triggers must be defined. To date, the optimal hematocrit during the initial operating room (OR) phase is still unclear in patients with severe traumatic brain injury (TBI). We hypothesized that hematocrit values exceeding 28%, the local hematocrit target reached by the end of the initial OR phase, resulted in more complications, increased mortality, and impaired recovery compared to patients in whom hematocrit levels did not exceed 28%.
Impact of hematocrit (independent variable) reached by the end of the OR phase on mortality and morbidity determined by the extended Glasgow outcome scale (eGOS; dependent variables) was investigated retrospectively in 139 TBI patients. In addition, multiple logistic regression analysis was performed to identify additional important variables.
Following severe TBI, mortality and morbidity were neither aggravated by hematocrit above 28% reached by the end of the OR phase nor worsened by the required transfusions. Upon multiple logistic regression analysis, eGOS was significantly influenced by the highest intracranial pressure and the lowest cerebral perfusion pressure values during the initial OR phase.
Based on this retrospective observational analysis, increasing hematocrit above 28% during the initial OR phase following severe TBI was not associated with improved or worsened outcome. This questions the need for aggressive transfusion management. Prospective analysis is required to determine the lowest acceptable hematocrit value during the OR phase which neither increases mortality nor impairs recovery. For this, a larger caseload and early monitoring of cerebral metabolism and oxygenation are indispensable.
为了防止医源性损伤,应避免输血。为此,必须定义具体且可靠的输血触发因素。迄今为止,在严重创伤性脑损伤(TBI)患者中,初始手术室(OR)阶段的最佳血细胞比容仍不清楚。我们假设,与血细胞比容水平未超过 28%的患者相比,血细胞比容值超过 28%(达到初始 OR 阶段结束时的局部血细胞比容目标)会导致更多并发症、更高的死亡率和恢复受损。
回顾性研究了 139 例 TBI 患者,探讨了 OR 阶段结束时达到的血细胞比容(独立变量)对扩展格拉斯哥结局量表(eGOS;因变量)确定的死亡率和发病率的影响。此外,还进行了多项逻辑回归分析,以确定其他重要变量。
在严重 TBI 后,死亡率和发病率既不受 OR 阶段结束时达到的血细胞比容超过 28%的影响,也不受所需输血的影响。通过多项逻辑回归分析,eGOS 受到初始 OR 阶段内颅内压和脑灌注压的最高值显著影响。
基于这项回顾性观察性分析,在严重 TBI 后初始 OR 阶段将血细胞比容提高到 28%以上与改善或恶化的预后无关。这对积极输血管理的必要性提出了质疑。需要进行前瞻性分析以确定 OR 阶段内既不会增加死亡率也不会损害恢复的最低可接受血细胞比容值。为此,需要更大的病例数和早期监测脑代谢和氧合。
