The effects of hypertonic saline-dextran (HSD) on cardiac contractility and hemodynamics after burns were studied in anesthetized animals with full-thickness 50% total body surface area burns that were resuscitated with HSD or lactated Ringer solution (LR) alone. No significant difference in cardiac contractility during 6 h postburn was observed between the two groups, as assessed by the end-systolic pressure-volume relationship and the stroke work-end-diastolic volume relationship. An additional bolus of HSD at 6 h postburn caused no significant changes in the end-systolic pressure-volume relationship and stroke work-end-diastolic volume relationship in the burned and sham-burned animals, both of which were resuscitated with HSD. Ten minutes of hemodynamic changes following HSD infusion at 30 min postburn revealed a sudden increase in stroke volume with biphasic responses in left ventricular systolic pressure, which first decreased, then increased, and finally returned to the pre-HSD value. End-diastolic volume was maintained at approximately 110% of the pre-HSD value during this period. We concluded that HSD does not enhance cardiac contractility after severe burns but does produce direct effects on postburn circulation to reduce afterload and augment preload, resulting in a short-lived increase in cardiac output.