The purpose of our studies was to determine whether hypertonic (7.5%) saline (HTS) resuscitation is effective in the setting of dehydration. We compared the effects of HTS (5 cc/kg) to those of Ringer's lactate (RL; 45 cc/kg) on renal function, following resuscitation from hypovolemia in hydrated (free access to food/water) vs. dehydrated (food/water restricted) rats (300-350 g). Renal failure was produced by hemorrhage (15 cc/kg) plus renal artery occlusion (25 min) followed by fluid resuscitation. Dehydration was confirmed by hemoconcentration and weight loss (8-10%). Renal function was assessed at 24 hr using 14C-inulin clearance (Cin) measurements. In hydrated animals, the Cin of RL-treated rats (625 +/- 54 microliters/min/100 g; n = 12) was no different from the Cin in HTS-treated rats (517 +/- 48 microliters/min/100 g; n = 13). Among dehydrated rats, Cin in HTS-treated rats (n = 6) was significantly lower (P < or = 0.05) than in RL-treated rats (n = 5) (117 +/- 33 microliters/min/100 g vs. 542 +/- 84 microliters/min/100 g, respectively). Cin in dehydrated RL-treated rats was not significantly different from that in hydrated RL-treated rats. Furthermore, in dehydrated animals, nine of nine resuscitated with RL survived, compared to six of 13 resuscitated with HTS. All hydrated animals survived. In summary, renal failure was ameliorated by RL and worsened by HTS resuscitation in dehydrated rats. Furthermore, mortality was increased in dehydrated animals resuscitated with HTS compared to RL.