Protamine reversal of unfractionated and low-molecular-weight heparin (LMWH) causes hypotension, bradycardia, pulmonary artery hypertension, and declines in oxygen consumption. Furthermore, protamine incompletely reverses the anti-Xa activity of LMWH. The present study assesses the efficacy and toxicity of three protamine variants having +16 and +18 charges in reversal of LMWH (Logiparin, LHN-1): [+16] P(AK2A2K2)4, [+18] PK(K2A2K2A)3K2AK3, and [+18B] acetyl-PA(K2A2K2A)4K2-amide. The [+18B] compound was made by acetylating and amidating the [+18] to decrease in vivo degradation and to increase the alpha-helix forming propensity. Variants were examined in a canine model (n = 7, each variant) and compared to controls (n = 7, each variant) and compared to controls (n = 7) reversed with standard protamine with a +21 charge. Animals were anesthetized, anticoagulated with LMWH (150 IU factor Xa activity/kg), and reversed with protamine variants (1.5 mg/kg with 100 IU/mg). Blood pressure (BP), heart rate (HR), cardiac output (CO), pulmonary artery pressures, oxygen saturations, and oxygen consumption (VO2) were continuously monitored. Comparisons were undertaken at baseline, after heparin, before variant administration, and for 30 min thereafter. A total toxicity score (TTS) was calculated for each variant, accounting for maximal declines in BP, HR, CO, and VO2 during the first 5 min after reversal. Protamine [+21] was most toxic, TTS -7.6, with the variants being less toxic (P < 0.01, ANOVA): TTS = [+16] -2.8, [+18] -1.3, and [+18B] -4.1.(ABSTRACT TRUNCATED AT 250 WORDS)