The development of effective methods to increase the organism resistance to hypoxia is an important task of current medicine. One of such methods is preconditioning, as a result of which, a potent mobilization of the adaptive organism abilities occurs under a preconditioning factor action.
Aim. To study the possibility of potentiating of the hypoxic preconditioning effect with help of antihypoxants.
Methods. Evaluation of the effectiveness of combined preconditioning (antihypoxants + moderate hypobaric hypoxia) was performed on experimental models of acute hypoxia with hypercapnia, acute hypobaric hypoxia in mice, and bilateral occlusion of the common carotid arteries in rats. Investigated antihypoxants are amtizol, hypoxen, cobazole, metaprot, mexidol, mildronate, substances under the codes VM-606, pQ-4 and pQ-1104.
Results. PreC with use of amtizol at dose 25 mg/kg, cobazole at dose 30 mg/kg, VM-606, pQ-4 and pQ-1104 at doses 50 mg/kg in combination with moderate hypoxia increased the lifespan of mice in acute hypoxia with hypercapniamodel and acute hypobaric hypoxia from 57 to 170%. Combined preconditioning with amtizol, cobazole and pQ-4 significantly increased the survival rate of rats in cerebral ischemia, amtizol and pQ-4 reduced neurological deficiency in the post ischemic period as well.
Conclusion. Antitipoxants as amtizol, cobazole, VM-606, pQ-4, pQ-1104 potentiate the hypoxic preconditioning effect on acute hypoxia with hypercapnia, acute hypobaric hypoxia and occlusion of the common carotid arteries models, the most significant effect was noted for amtizol and pQ-4. Signal role in the adaptation induction to hypoxia and ischemia by combined preconditioning with use of antihypoxants hypoxia-inducible factor HIF-1α can play.