ABSTRACT
Effects like hyperconjugation, with definite negative and positive poles, become most prominent, inducing nanoemulsion developing activities with definite friccohesity data. In the case of nanoemulsions the viscosity increases and the surface tension decreases because the cohesive forces of the solvent are utilized to work for dispersing the surfactant, protein, or drug particles. The effect of hyperconjugation on such activities with these systems becomes a matter of advanced research. Anticoagulants are related to antiplatelet drugs and thrombolytic drugs that manipulate various pathways of blood coagulation. The development of finer nanoemulsions of these systems could be most efficient and widely useful. The high level of thermodynamic and kinetic stabilities of the nanoemulsions of drugs could offer one of the best remedies because of the fact that they have the best percolation and thin film forming capacity during use. The indications for anticoagulant therapy include: atrial fibrillation forms an atrial appendage clot; and deep vein thrombosis leads to pulmonary embolism and ischemic stroke.
