Abstract
BackgroundRecently, our group has proposed a new classification of hypovolemic shock based on the physiological shock marker base deficit (BD). The classification consists of four groups of worsening BD and correlates with the extent of hypovolemic shock in severely injured patients. The aim of this study was to test the applicability of our recently proposed classification of hypovolemic shock in the context of severe traumatic brain injury (TBI).MethodsBetween 2002 and 2011, patients ≥16 years in age with an AIShead ≥ 3 have been retrieved from the German TraumaRegister DGU® database. Patients were classified into four strata of worsening BD [(class I (BD ≤ 2 mmol/l), class II (BD > 2.0 to 6.0 mmol/l), class III (BD > 6.0 to 10 mmol/l) and class IV (BD > 10 mmol/l)] and assessed for demographic and injury characteristics as well as blood product transfusions and outcomes. The cohort of severely injured patients with TBI was compared to a population of all trauma patients to assess possible differences in the applicability of the BD based classification of hypovolemic shock.ResultsFrom a total of 23,496 patients, 10,201 multiply injured patients with TBI (AIShead ≥ 3) could be identified. With worsening of BD, a consecutive increase of mortality rate from 15.9% in class I to 61.4% in class IV patients was observed. Simultaneously, injury severity scores increased from 20.8 (±11.9) to 41.6 (±17). Increments in BD paralleled decreasing hemoglobin, platelet counts and Quick’s values. The number of blood units transfused correlated with worsening of BD. Massive transfusion rates increased from 5% in class I to 47% in class IV. Between multiply injured patients with TBI and all trauma patients, no clinically relevant differences in transfusion requirement or massive transfusion rates were observed.ConclusionThe presence of TBI has no relevant impact on the applicability of the recently proposed BD-based classification of hypovolemic shock. This study underlines the role of BD as a relevant clinical indicator of hypovolaemic shock during the initial assessment in respect to haemostatic resuscitation and transfusion requirements.
Highlights
Our group has proposed a new classification of hypovolemic shock based on the physiological shock marker base deficit (BD)
Recent analyses on data of multiple injured patients derived from the TraumaRegister Deutsche Gesellschaft für Unfallchirurgie (DGU)® and the TARN (Trauma Audit and Research Network) database indicated that the current Advanced TraumaLife Support (ATLS) classification of hypovolemic shock displays substantial deficits in the initial assessment of multiply injured trauma patients [5,6,7,8]
We developed and validated a new classification of hypovolemic shock on the physiological shock marker base deficit (Table 1) [9]
Summary
Our group has proposed a new classification of hypovolemic shock based on the physiological shock marker base deficit (BD). Recent analyses on data of multiple injured patients derived from the TraumaRegister DGU® and the TARN (Trauma Audit and Research Network) database indicated that the current ATLS classification of hypovolemic shock displays substantial deficits in the initial assessment of multiply injured trauma patients [5,6,7,8]. Based on these observations, we developed and validated a new classification of hypovolemic shock on the physiological shock marker base deficit (Table 1) [9]. This new classification of hypovolemic shock predicted transfusion requirements and mortality even more appropriately than the current ATLS classification of hypovolemic shock [9]
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