Application of Khavinson peptides technology in military and industrial sector

The use of peptide bioregulators in the army:

1. Clinic, diagnosis and treatment of asthenic disorders in military personnel with associated injuries.
Khabarov I.Yu., Akperov E.K., Salamatov V.E.
Biomedical and socio-psychological problems of safety in emergency situations, 5, 2009, p. 8-11. Link

2. Features of the clinical course and treatment of the effects of traumatic brain injuries received in combat conditions.
Bodrug V.P.
Abstract of thesis, 2007. Reference

3. Psychophysiological correction of psychosomatic disorders in military personnel.
Savchenko S.V.
Abstract of dissertation, 2006. Reference

4. Phenomenology and complex correction of psychosomatic disorders in military personnel.
Savchenko S.V.
Bulletin of Psychotherapy 14. 2005. P. 119-134 Reference

5. Treatment of the effects of brain injuries received during the period of combat operations.
Yemelyanov A.Yu., Lustik S.I.
Mechanisms of stress in extreme conditions: a collection of scientific papers. state N.-. test in-t military honey. morph Voronezh, 2004. p. 146-148.

6. Cytamines - a means of maintaining high professional suitability and longevity of military personnel.
Khavinson V.Kh., Chernyak S.I., Dyakonov M.M.
Military Medical Journal. - 2001. - V. 322, No. 2. - P.26-28. Reference

7. Clinical and epidemiological efficacy of timogen in acute respiratory viral infections in a military team.
Furgal S.M., Degtyarev A.A., Gray S.V., Khavinson V.Kh.
Military Medical Journal. - 1993. - № 2. - p. 31-32.

8. Research methods in the physiology of military labor.
Novikov V.S., Andrianov V.P., Bortnovsky V.N., Egorov V.A., Lesnoy N.K., Lobzin Yu.V., Mastryukov A.A., Mirolyubov A.V., Morozov V. .G., Khavinson V.Kh.
Guide. - M .: Military publishing house. - 1993. - 240 p.

9. Clinical and immunological efficacy of timogen in the complex therapy of pseudotuberculosis in the military.
K.P. Plotnikov
Abstract of dissertation. 1992 Reference

10. The use of means of optimizing and correcting the immune system in the prevention of infectious diseases in the army
Degtyarev I.D., Zemskov A.M., Furgal S.M.
Military Medical Journal. 1990. No. 7. S. 38.

11. The effectiveness of the use of biologically active substances to increase the resistance of the body of navy personnel.
Novikov V.S., Bortnovsky V.N., Lotovin A.P., Mastyukova A.A.
MilitaryMedical Journal, 308/10, 1987, pp . 50-51. Reference

12. Evaluation of the immune status of the organism in medical institutions of the Soviet Army and Navy.
Kozhemyakin LA, Korolyuk AM, Morozov V.G., Khavinson V.Kh., Bondarenko I.G.
Toolkit. - M .: Publishing House of the USSR Ministry of Defense. - 1987. - 62 p.

Use of Peptide Bioregulators in Emergency Response

13. Characteristics of psychosomatic disorders of liquidators of radiation accidents and their neuropeptide correction.
Sorokin V.V.
Military Medical Academy. CM. Kirova, master's thesis abstract, 2009. Link

14. Therapy of cognitive impairment in arterial hypertension in individuals exposed to radiation.
Podsonnaya I.V., Efremushkin G.G., Golovin V.A.
Rational pharmacotherapy in cardiology,4/5.2008, pp. 11-15. Reference

15. Correction of radiation immunodeficiency.
Smirnov V.S., Khavinson V.Kh., Yakovlev G.M., Novikov V.S.
Publication "Science": St. Petersburg Department, St. Petersburg, 1992. Reference

16. Correction of secondary radiation immunodeficiencies.
Yakovlev G.M., Smirnov V.S., Khavinson V.Kh., Morozov V.G.
Military Medical Journal. 1991. No. 1., P. 446.

17. Biochemical and immunological indicators in the rehabilitation of the injured personnel of the nuclear-powered submarine Komsomolets after the accident.
Yakovlev G.M., Khavinson V.Kh., Gray S.V., Zhukov V.V., Neburchilov V.G.
Military Medical Journal. - 1991. - № 9. - p. 28-33.

Use of peptide bioregulators in aerospace medicine

18. Study of the effectiveness of the combined use of cortexin and exercise in optimizing the functional system of human statokinetic resistance.
Sorokina L.A., Buinov L.G., Plakhov N.N., Aizman R.I.
Bulletin of the Novosibirsk State Pedagogical University 8/1. 2018 pp. 223-238. Reference

19. Investigation of the effectiveness of the combined use of electrotranquilization of the central nervous system and peptide bioregulator "Cortexin" in increasing the statokinetic stability of a person.
Buinov L.G., Sorokina L.A., Blaginin A.A., Glaznikov L.A.
The article is edited by the journal Human Physiology (2018).

20. Increasing the statokinetic stability of healthy volunteers with pharmacological agents.
Buinov L.G., Sorokina L.A., Buznik G.V., Shabanov P.D.
Reviews of clinical pharmacology and drug therapy. 2015. V. 13. No. 3. S. 48-52. Reference

21. Cortexin correction of statokinetic resistance in cerebrovascular disease.
Buinov L.G., Sorokina L.A., Shabanov P.D.
In the collection: Cerebrovascular pathology - new opportunities for low-dose neuroprotection a collection of scientific articles. St. Petersburg, 2014. p. 140-147.

22. Effect of Cortexin on human statokinetic resistance.
Buinov L.G., Sorokina L.A., Voeikov I.M., Shabanov P.D.
Reviews of clinical pharmacology and drug therapy. 2014. Vol. 12. No. 4. P. 67-71. Link

23. Use of Cortexin to increase human statokinetic resistance.
Glaznikov L.A., Buinov L.G., Ryzhak G.A., Khavinson V.Kh.
Medical Academic Journal. 2002. T. 2. № 3. S. 91-98.

24. Statokinetic resistance and approaches to its pharmacological correction.
Bujnov L.G.
Reviews of clinical pharmacology and drug therapy. 2002. T. 1. № 2. S. 27-50.

25. Methodological aspects of forecasting, evaluating and correcting the functional state of aerospace specialists.
Cheprasov V.Yu.
Military honey Academy, doctoral thesis abstract, 1997. Reference

Use of peptide bioregulators to increase human resistance

26. The use of peptide bioregulators during exercise.
Potupchik TV, Veselova OF, Evert LS, Gatskih I.V.
Sports medicine: science and practice, 7/1, 2017 p. 53-59 Ref

27. Personalized prevention of age pathology and increase in the reserve capacity of the human body in the conditions of the Far North.
Khavinson V.Kh.1, Trofimova S.V.1, Koryakin A.Yu.2, Chubukin A.G.2, Ternovoy V.M.2
Problems of age pathology in the Arctic region: biological, clinical and social aspects, 2016, p. 125-126. Link

28. Personalized prevention of morbidity in the conditions of the Far North.
Trofimova SV, Trofimov AV, Koryakin A., Chubukin A., Ternovoy V.
Doctor, Russian Doctor Publishing House, 6, 2016, p. 64. Reference

29. Theory and practice of using peptides for improvement adaptation to adverse professional influences.
Lysenko A.V., Finochenko T.A., Nazimko V.A., Sheikhova R.G.
Monograph, 2011. Ref

30. The conceptual framework for the prevention of premature aging of workers in hazardous working conditions.
Bashkireva A.S.
Abstract of thesis, 2010. Reference

31. Morphofunctional changes of the retina when exposed to laser radiation threshold intensity and their correction dipeptide.
Anikina E.Yu.
Abstract of thesis, 2010. Reference

32. Peptide regulation of the adaptation of the organism to stress effects.
Lysenko A.V.Arutyunyan AV, KozinLS
Monograph, 2005. Ref

33. The use of a peptide bioregulator of brain functions of Cortexin for the correction of maladaptive neuropsychic states of young and middle-aged people.
Savchenko S.V., Zakutsky N.G.
The human factor: problems of psychology and ergonomics, 3-2 (32), 2005 P. 115-116. Reference

34. Bioregulating therapy in the complex treatment of patients with severe burns.
Sizonenko V.A., Tsepelev V.L.
Siberian Medical Journal (Irkutsk), 36/1, 2003 P. 55-58. Link

35. Behavioral and neuropeptide components of emotional stress responses in case of injuries under extreme conditions.
Novikov V.S., Shanin V.Yu., Gypsy V.P.
Military Medical Journal. 1995. No. 1. P. 39.

36. Resistance, stress, regulation.
Yakovlev G.M., Novikov V.S., Khavinson V.Kh.
Monograph, Leningrad, 1990.

37. Syndrome of chronic fatigue and its correction with Cortexin.
Gypsy V.N.
Russian Medical Journal, 16, 2010 p. 1004-1007. Link

38. Peptide bioregulators: new approaches to the extension of professional longevity.

39. Modern preventive medicine and regulatory peptides. Link

40. Short peptides as components of nutrition: molecular basis for the regulation of homeostasis. Reference

41. Scientific rationale for improving the organization of food for military personnel in the field - Reference

The use of peptide bioregulators in sports

41. Increasing the reserve capacity of the body of highly qualified athletes.

42. Cytamines in the correction of immune dysfunction syndrome in highly skilled athletes.

43. Cytamines in the correction of immune dysfunction syndrome in athletes of higher skill.

44. Peptide bioregulators for injuries of the musculoskeletal system.

45. The use of peptide bioregulators during exercise.

46. Evaluation and bioregulating correction of the reserves of gymnasts' adaptation to physical loads. Reference

47. Cytamines in the correction of immune dysfunction syndrome in athletes of higher skill. Link

48. Cytamines: conceptual approaches of application in sport.

49. Influence of cytamines and their combination with ecdysten, apilak, vitamax and essentiale on the performance of athletes. Reference

50. Potentiation of cytamines by the action of medicinal substances that increase the endurance of athletes.

51. Pharmacology of recovery in sports.

52. Evaluation and effectiveness of individual biomedical and psychophysiological technologies in the sport of the highest achievements. Link

53. Rehabilitology in the sport of high achievements.,

54. Justification of the directions of correction of the functional state of athletes based on the methodology of extreme states
Shustov EB Karkishchenko N.N. Karkishchenko V.N.