PURPOSE: Sodium N-[10-(2-hydroxybenzoyl)amino]decanoate (SNAD) is a novel carrier that allows the gastrointestinal absorption of low-molecular weight heparin (LMWH). The purpose of this experiment was to evaluate oral LMWH with SNAD for the prevention of deep venous thrombosis. METHODS: Sixty Sprague-Dawley rats were equally assigned to five experimental groups: group 1 (control), oral saline solution; group 2, oral LMWH (15 mg/kg); group 3, oral SNAD (300 mg/kg); group 4, subcutaneous LMWH (5 mg/kg); and group 5, oral LMWH (15 mg/kg) and SNAD (300 mg/kg). After treatment, the jugular vein was isolated, occluded, and bathed in an ethanol and formalin solution for 2 minutes. Two hours later, the vessel was examined for patency, presence of thrombus, and thrombus weight. Serum measurement of anti-factor Xa activity was performed in a separate set of 30 rats, which were placed into the following four groups: group A, LMWH (5 mg/kg); group B, oral LMWH (15 mg/kg) and SNAD (300 mg/kg); group C, oral LMWH (15 mg/kg); and group D, SNAD (300 mg/kg). RESULTS: The animals that underwent oral LMWH/SNAD therapy had a statistically significant decrease in visible thrombi. The thrombus weight of the oral LMWH/SNAD group was significantly less than the weights of all other groups, except the subcutaneous LMWH group. Anti-factor Xa levels were significantly elevated in the LMWH/SNAD group. There was no statistically significant difference between the data for the oral LMWH/SNAD group and the subcutaneous LMWH group. CONCLUSION: The combination of oral LMWH and SNAD prevented deep venous thrombosis. The oral LMWH and SNAD therapy effected an increase in levels of anti-factor Xa.
PURPOSE:Sodium N-[10-(2-hydroxybenzoyl)amino]decanoate (SNAD) is a novel carrier that allows the gastrointestinal absorption of low-molecular weight heparin (LMWH). The purpose of this experiment was to evaluate oral LMWH with SNAD for the prevention of deep venous thrombosis. METHODS: Sixty Sprague-Dawley rats were equally assigned to five experimental groups: group 1 (control), oral saline solution; group 2, oral LMWH (15 mg/kg); group 3, oral SNAD (300 mg/kg); group 4, subcutaneous LMWH (5 mg/kg); and group 5, oral LMWH (15 mg/kg) and SNAD (300 mg/kg). After treatment, the jugular vein was isolated, occluded, and bathed in an ethanol and formalin solution for 2 minutes. Two hours later, the vessel was examined for patency, presence of thrombus, and thrombus weight. Serum measurement of anti-factor Xa activity was performed in a separate set of 30 rats, which were placed into the following four groups: group A, LMWH (5 mg/kg); group B, oral LMWH (15 mg/kg) and SNAD (300 mg/kg); group C, oral LMWH (15 mg/kg); and group D, SNAD (300 mg/kg). RESULTS: The animals that underwent oral LMWH/SNAD therapy had a statistically significant decrease in visible thrombi. The thrombus weight of the oral LMWH/SNAD group was significantly less than the weights of all other groups, except the subcutaneous LMWH group. Anti-factor Xa levels were significantly elevated in the LMWH/SNAD group. There was no statistically significant difference between the data for the oral LMWH/SNAD group and the subcutaneous LMWH group. CONCLUSION: The combination of oral LMWH and SNAD prevented deep venous thrombosis. The oral LMWH and SNAD therapy effected an increase in levels of anti-factor Xa.
Authors: K Salartash; M Lepore; M D Gonze; A Leone-Bay; R Baughman; W C Sternbergh; J C Bowen; S R Money Journal: Ann Surg Date: 2000-06 Impact factor: 12.969