plasmalyte-a and Water-Electrolyte-Imbalance

Intravenous fluid resuscitation is ubiquitous throughout medicine and is often considered a benign procedure. Yet, there is now clear recognition of the potential harms of fluid overload after initial resuscitation. In recent years, there has also been an increasing focus on comparing various resuscitation fluids with respect to both benefits and risks. Studies have examined colloids, such as albumin and starches, against the clinical standard of crystalloids. In addition, evidence has emerged to suggest that outcomes may be different between resuscitation with chloride-rich vs balanced crystalloid solutions. In this article, we review the current literature regarding choice of intravenous fluids for resuscitation in the intensive care setting and describe the dangers associated with fluid overload in critically ill patients.

Topics: Albumins; Chlorides; Colloids; Critical Care; Crystalloid Solutions; Electrolytes; Evidence-Based Medicine; Fluid Therapy; Humans; Hydroxyethyl Starch Derivatives; Infusions, Intravenous; Isotonic Solutions; Resuscitation; Sodium Chloride; Water-Electrolyte Imbalance

We sought to compare resuscitation with 0.9% NaCl versus Plasma-Lyte A, a calcium-free balanced crystalloid solution, hypothesizing that Plasma-Lyte A would better correct the base deficit 24 hours after injury.. Sodium chloride (0.9%) (0.9% NaCl), though often used for resuscitation of trauma patients, may exacerbate the metabolic acidosis that occurs with injury, and this acidosis may have detrimental clinical effects.. We conducted a randomized, double-blind, parallel-group trial (NCT01270854) of adult trauma patients requiring blood transfusion, intubation, or operation within 60 minutes of arrival at the University of California Davis Medical Center. Based on a computer-generated, blocked sequence, subjects received either 0.9% NaCl or Plasma-Lyte A for resuscitation during the first 24 hours after injury. The primary outcome was mean change in base excess from 0 to 24 hours. Secondary outcomes included 24-hour arterial pH, serum electrolytes, fluid balance, resource utilization, and in-hospital mortality.. Of 46 evaluable subjects (among 65 randomized), 43% had penetrating injuries, injury severity score was 23 ± 16, 20% had admission systolic blood pressure less than 90 mm Hg, and 78% required an operation within 60 minutes of arrival. The baseline pH was 7.27 ± 0.11 and base excess -5.9 ± 5.0 mmol/L. The mean improvement in base excess from 0 to 24 hours was significantly greater with Plasma-Lyte A than with 0.9% NaCl {7.5 ± 4.7 vs 4.4 ± 3.9 mmol/L; difference: 3.1 [95% confidence interval (CI): 0.5-5.6]}. At 24 hours, arterial pH was greater [7.41 ± 0.06 vs 7.37 ± 0.07; difference: 0.05 (95% CI: 0.01-0.09)] and serum chloride was lower [104 ± 4 vs 111 ± 8 mEq/L; difference: -7 (95% CI: -10 to -3)] with Plasma-Lyte A than with 0.9% NaCl. Volumes of study fluid administered, 24-hour urine output, measures of resource utilization, and mortality did not significantly differ between the 2 arms.. Compared with 0.9% NaCl, resuscitation of trauma patients with Plasma-Lyte A resulted in improved acid-base status and less hyperchloremia at 24 hours postinjury. Further studies are warranted to evaluate whether resuscitation with Plasma-Lyte A improves clinical outcomes.

Topics: Acidosis; Adult; Double-Blind Method; Electrolytes; Female; Fluid Therapy; Humans; Infusions, Intravenous; Isotonic Solutions; Linear Models; Male; Middle Aged; Pilot Projects; Plasma Substitutes; Resuscitation; Sodium Chloride; Treatment Outcome; Water-Electrolyte Imbalance; Wounds and Injuries

Many blood conservation techniques and strategies have been implemented to aid in decreasing the use of allogenic blood utilization during pediatric cardiothoracic surgery. Use of techniques, such as acute normovolemic hemodilution, retrograde autologous prime, venous autologous prime, and autotransfuion, may lead to a decrease in the need for allogenic blood products. Autotransfusion has become a standard of care for all cardiothoracic surgical procedures requiring cardiopulmonary bypass (CPB). Although widely used, there is still debate over which wash solution will produce the most physiologically normal autotransfusion product. Pediatric patients can be at a higher risk for electrolyte imbalance intraoperatively and postoperatively. In an attempt to minimize this, we sought out to evaluate three different wash solutions and how they would affect the final autotransfusion product. This comparison consisted of three wash solutions; .9% sodium chloride, Normosol-R

Topics: Blood Transfusion, Autologous; Cardiopulmonary Bypass; Electrolytes; Humans; Isotonic Solutions; Plasma Substitutes; Sodium Chloride; Water-Electrolyte Imbalance