Using 10mL/kg doses of (SL-DTO-Rh; Table 4 experiment 5) or (SL-DTO-TS-Rh; Table 4 experiments 6 and 7) the animals received 15–20 units of Rh. Employing 10mL/kg injections of (SL-DTO; Table 4 experiment 2) or (SL-DTO-TS; Table 4 experiments 3 and 4) the dose for DTO was 11.5mg/kg and 14.2mg/kg for the coencapsulated TS. SN (100mg/kg; sc), was injected 45min prior to CN (sc) Inhibitors,research,lifescience,medical injection (Table 4 experiments 4 and 7). The animals were evaluated 24 hours after CN exposure for mortality; surviving animals were observed
for an additional week for late-developing toxicity. No toxic effects which could be attributed to VE-822 research buy SL-DTO, SL-DTO-TS, SL-DTO-Rh, SL-DTO-TS-Rh, TS, or SN (when administered alone or in various combinations) were noted in any of the mice at the doses applied. LD50 values were determined by the Dixon up and down method [25], using 8–18 mice for each LD50 determination. The LD50 values were given for three or more experiments. The “antidotal potency ratio” (APR) is expressed as a Inhibitors,research,lifescience,medical ratio of LD50 (mean) of CN with antagonists and LD50 (mean) of CN without antagonists. Table 4 Prophylactic protection by various cyanide antidotal combinations. APR denotes antidotal potency ratio, which can be calculated as the ratio of the average LD50 of CN with and without antagonists. 2.10. Therapeutic Protection against CN in Mice Using SL-DTO-TS and SL-DTO-TS-Rh in Combination with SN Animals Inhibitors,research,lifescience,medical received antidotes
Inhibitors,research,lifescience,medical administered intravenously one min after CN injection (sc). Doses of antidotes were the same as described above for the prophylactic experiments. The animals were evaluated 24 hours after CN exposure for mortality. Results are given as % survival (animals alive/animals total). Total numbers of animals were 6 for each therapeutic experiment for each antidotal system. 3. Results and Discussion These studies focused on the encapsulation optimization for new sulfur donor DTO when encapsulated with Rh and/or TS within sterically stabilized liposomes. The in vitro sulfur Inhibitors,research,lifescience,medical donor reactivity comparison shows that DTO reacts 15-times faster with CN at constant Rh concentration than TS (Table 1). Encapsulation efficiencies
for both Sclareol Rh and DTO were optimized as a function of Rh-load, DTO-load, and lipid composition. Table 1 Comparison of in vitro sulfur donor reactivity of TS and DTO determined with free Rh. When encapsulating Rh alone, small amount of the cationic lipid DOTAP proved to be beneficial to enhance encapsulation efficiency (Table 2). The optimum Rh concentration within the liposomes was 0.25mg/mL (Table 2). Table 2 Rh-load optimization with and without DOTAP. For the encapsulation of DTO with a concentration of 2mM, six different liposomal compositions were examined to rule out the role of lipid composition (Table 3). Each contained PEG-PE-2000 in 5.1mol%, lipid-to-Chol ratio was 9 to 1. Also, the cationic lipid, DOTAP in 3.
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