The document offers guidance on the four forms of fluid use; assessing whether intravenous fluid administration is indicated; and fluid therapy goals, timing, type, and other clinical parameters. The recommendations are based on a literature search that included 28 randomized clinical trials, 7 secondary analyses of RCTs, 20 observational studies, 5 systematic reviews or meta-analyses, 1 scoping review, 1 practice guideline, and 14 references from a reference review.
“Our review highlights that crystalloids should remain the standard of care for most critically ill patients, especially during early resuscitation,” Fernando G. Zampieri, MD, PhD, assistant adjunct professor of critical care medicine at the University of Alberta and Alberta Health Services, both in Edmonton, said in an interview. “In particular, starches should not be used in critically ill patients. Balanced solutions might be better for most patients, except for patients with traumatic brain injury, where 0.9% saline is recommended.”
The review was published online in JAMA.
Four therapeutic phases
Approximately 20%-30% of patients admitted to an intensive care unit have sepsis, and fluid therapy is a key component of their treatment. Although intravenous fluid can increase cardiac output and blood pressure, maintain or increase intravascular fluid volume, and deliver medications, too much fluid or the wrong type of fluid may cause harm.
“Deciding which type of fluid is the best for a patient [with sepsis] can be challenging,” said Dr. Zampieri.
Fluid therapy can be conceptualized as encompassing four overlapping phases from early illness through resolution of sepsis, according to the review. These phases include resuscitation (rapidly administering fluid to restore perfusion), optimization (assessing risks and benefits of additional fluids to treat shock and ensure organ perfusion), stabilization (using fluid therapy only when there is a signal of fluid responsiveness), and evacuation (eliminating excess fluid accumulated during treatment).
The review described the studies that underpin its key recommendations for management in these phases. Three RCTs included 3,723 patients with sepsis who received 1-2 L of fluid. They found that goal-directed therapy with administration of fluid boluses to attain a central venous pressure of 8-12 mm Hg, vasopressors to attain a mean arterial blood pressure of 65-90 mm Hg, and red blood cell transfusions or inotropes to attain a central venous oxygen saturation of at least 70% did not decrease mortality, compared with unstructured clinical care (24.9% vs. 25.4%, P = .68).
One RCT with 1,563 patients with sepsis and hypotension who received 1 L of fluid found that favoring vasopressor treatment did not improve mortality, compared with further fluid administration (14.0% vs. 14.9%, P = .61).
In another RCT, among 1,554 patients with septic shock who were treated in the ICU with at least 1 L of fluid, restricting fluid administration in the absence of severe hypoperfusion did not reduce mortality, compared with more liberal fluid administration (42.3% vs. 42.1%, P = .96).
An RCT of 1,000 patients with acute respiratory distress during the evacuation phase found that limiting fluid administration and giving diuretics improved the number of days alive without mechanical ventilation, compared with fluid treatment to attain higher intracardiac pressure (14.6 vs. 12.1 days, P < .001).
This study also found that hydroxyethyl starch significantly increased the incidence of kidney replacement therapy, compared with saline (7.0% vs. 5.8%, P = .04), Ringer lactate, or Ringer acetate.