Shock Syndromes II
Recommendations: Isotonic crystalloids are indicated in hemorrhagic shock. In trauma, restricted
volume replacement, usually less than 1.5 L of a balanced crystalloid, should be used initially, and
hypotonic solutions (e.g., lactated Ringer with a sodium content of 131 mmol/L) should be avoided
in patients with head trauma to minimize fluid shifts into the cerebral tissue. The most recent
European guidelines on managing major bleeding and coagulopathy after trauma recommend
isotonic balanced crystalloids over saline.
Packed red blood cells (PRBCs) and blood products
Indicated when the estimated blood loss is greater than 30% of the total blood volume. Each PRBC
unit is expected to increase circulating Hgb by around 1 g/dL.
Amount of blood products to transfuse is based on clinical examination, given that the initial
hemoglobin or hematocrit reading may not reflect blood loss because of compensatory mechanisms.
Although there are no randomized controlled trials evaluating transfusion thresholds for trauma,
the European guidelines on managing major bleeding and coagulopathy after trauma recommend
maintaining a hemoglobin of 7β9 g/dL after initial resuscitation.
| d. | In acute upper GI bleeding, a restrictive transfusion threshold (Hgb less than 7 g/dL) compared with |
|---|
a liberal transfusion threshold (Hgb less than 9 g/dL) was associated with a higher 6-week survival
rate (95% vs. 91%, hazard ratio [HR] 0.55 [95% confidence interval [CI], 0.33β0.92; p=0.02]) and
lower rates of further bleeding (10% vs. 16%, p=0.01) and adverse effects (40% vs. 48%, p=0.02).
Notable limitations of the study include its single-center design and exclusion of patients with
cirrhosis who have cardiovascular disease.
ii.
Despite these limitations, a transfusion threshold of 7 g/dL was endorsed by the 2017 AASLD
Practice Guidance for Portal Hypertension Bleeding in Cirrhosis, with recommendations to
maintain hemoglobin at 7β9 g/dL.
A randomized controlled trial of patients undergoing cardiac surgery compared a restrictive
transfusion threshold (less than 7.5 g/dL) with a liberal transfusion threshold (less than 9 g/dL).
The groups did not differ with respect to the composite primary end point of serious infection
or ischemic event (35.1% vs. 33.0%; OR 1.11; 95% CI, 0.91β1.34; p=0.30).
ii.
However, more deaths occurred in the restrictive transfusion group (4.2% vs. 2.6%; HR 1.64;
95% CI, 1.00β2.67; p=0.045).
iii.
Therefore, a restrictive transfusion strategy after cardiac surgery cannot be recommended.
A study examined transfusion practices in hospitalized general medicine patients and tested for
differences in the Hgb concentration at which patients have transfusions and the total number of
RBC units received by patientsβ race. The study aimed to determine any disparities in transfusion
practices according to race. In this study, African Americans had lower transfusion rates than
Whites (25% vs. 30%, respectively; p<0.01). For Hgb concentrations below a nadir Hgb of 9 g/dL,
African Americans had significantly lower transfusion rates than Whites. The transfusion rate for
Hgb concentrations of 8.0β8.9 g/dL was 1% for African American patients versus 7% for White
patient (p<0.01). The transfusion rate for Hgb concentrations of 7.0β7.9 g/dL was 15% and 28% for
African Americans and Whites, respectively (p<0.01). The transfusion rate for Hgb concentrations
below 7 g/dL was 80% for African Americans versus 86% for Whites (p<0.01). African American
patients also received fewer units of RBCs overall, with a beta coefficient of -0.17 (p<0.01), and
at lower Hgb concentrations, with a beta coefficient of 0.14 (p<0.01), than White patients. These
observed differences in the receipt of transfusion by race met the definition of a health care disparity.
Vasopressors
Attractive adjuncts in hemorrhagic shock to minimize the amount of fluid required to reverse tissue
hypoperfusion, but can increase cardiac afterload and are independently associated with increased
mortality in trauma