Acta Scientific Medical Sciences (ISSN: 2582-0931)

Mini Review Volume 4 Issue 6

Artificial Human Hibernation: From Hypothermia to Pharmacological Hypobiosis. Part I. History of Hypothermia

Cheboksarov D1*, Muntyan M2 and Anikeev A3

1Associate Professor of the Department of Anesthesiology and Intensive Care with a Course of Medical Rehabilitation of the Medical Institute of RUDN University, Head of the Department of Resuscitation and Intensive Care for Patients with CVA in GBUZ “City Clinical Hospital Named After V.V. Vinogradov DZM", Moscow, Russia
2Resident of the Department of Anesthesiology and Intensive Care with a Course of Medical Rehabilitation of the Medical Institute of RUDN University, Moscow, Russia
36th Grade Student of the Medical Faculty in the RUDN University, Moscow, Russia

*Corresponding Author: Cheboksarov D, Associate Professor of the Department of Anesthesiology and Intensive Care with a Course of Medical Rehabilitation of the Medical Institute of RUDN University, Head of the Department of Resuscitation and Intensive Care for Patients with CVA in GBUZ “City Clinical Hospital Named After V.V. Vinogradov DZM", Moscow, Russia.

Received: March 14, 2020; Published: May 08, 2020

×

Abstract

This article is a literature review of the development of human hibernation and highlights the historical aspects of the formation of hypothermia as a method of controlling human metabolism and neuroprotection of the brain in critical conditions.

Keywords:Hibernation; Hypothermia; Hypobiosis; Metabolism

×

References

  1. Litasova EE., et al. "Stages of development of non-perfusion hypothermic protection". Pathology of Blood Circulation and Cardiac Surgery 1 (1997): 114-120.
  2. Samoilov AC., et al. “Prospects for the use of artificial hibernation in emergency medicine”. Emergency Medicine 59 (2017): 78-88.
  3. Timofeev NN. “Hypobiosis and cryobiosis. Present, past and future”. M: Inform-Knowledge, (2005): 255.
  4. Alzaga A., et al. “Breaking the thermal barrier: Dr. Temple Fay”. Resuscitation 69 (2006): 359-364.
  5. Bernard SA., et al. “Treatment of comatose survivors of out-of-hospital cardiac arrest with induced hypothermia”. The New England Journal of Medicine8 (2002): 557-563.
  6. Bigelow WG and McBirnie JE. “Further experiences with hypothermia for intracardiac surgery in monkeys and groundhogs”. Annals of Surgery3 (1953): 361-365.
  7. Botterell EH., et al. “Hypothermia, and Interruption of Carotid, or Carotid and Vertebral Circulation, in the Surgical Management of Intracranial Aneurysms”. Journal of Neurosurgery1 (1956): 1-42.
  8. Boyer BB and Barnes BM. “Molecular and metabolic aspects of hibernation”. Bioscience 49 (1999): 713-724.
  9. Buck CL and Barnes BM. “Effects of ambient temperature on metabolic rate, respiratory quotient, and torpor in an arctic hibernator”. American Journal of Physiology. Regulatory, Integrative and Comparative Physiology 279 (2000): 255-262.
  10. Drew KL., et al. “Hypoxia tolerance in mammalian heterotherms”. Journal of Experimental Biology 207 (2004): 3155-3162.
  11. Drew KL., et al. “Central nervous system regulation of mammalian hibernation: implications for metabolic suppression and ischemia tolerance”. Journal of Neurochemistry6 (2007):1713-1726.
  12. Irazuzta JE., et al. “Hypothermia as an adjunctive treatment for severe bacterial meningitis”. Brain Research1 (2000): 88-97.
  13. Leonov Y., et al. “Mild cerebral hypothermia during and after cardiac arrest improves neurologic outcome in dogs”. Journal of Cerebral Blood Flow and Metabolism1 (1990): 57-70.
  14. Polderman KH. “Application of therapeutic hypothermia in the ICU: opportunities and pitfalls of a promising treatment modality. Part 1: Indications and evidence”. Intensive Care Medicine4 (2004): 556-575.
  15. Prendergast BJ., et al. “Periodic arousal from hibernation is necessary for initiation of immune responses in ground squirrels”. American Journal of Physiology. Regulatory, Integrative and Comparative Physiology 282 (2002): 1054-1062.
  16. Ridenour TR., et al. “Mild hypothermia reduces infarct size resulting from temporary but not permanent focal ischemia in rats”. Stroke5 (1992): 733-738.
  17. Rosomoff HL and Holaday DA. “Cerebral blood flow and cerebral oxygen consumption during hypothermia”. The American Journal of Physiology1 (1954): 85-88.
  18. Safar P. “Community-wide cardiopulmonary resuscitation”. Journal of the Iowa Medical Society 54 (1964): 629-635.
  19. Shiozaki T., et al. “Effect of mild hypothermia on uncontrollable intracranial hypertension after severe head injury”. Journal of Neurosurgery3 (1993): 363-368.
  20. Suomalainen P. “Artificial Hibernation”. Nature (1939): 443-444.
  21. The Hypothermia after Cardiac Arrest Study Group. “Mild therapeutic hypothermia to improve the neurologic outcome after cardiac arrest”. The New England Journal of Medicine8 (2002): 549-556.
  22. Toien O., et al. “Ascorbate dynamics and oxygen consumption during arousal from hibernation in Arctic ground squirrels”. American Journal of Physiology. Regulatory, Integrative and Comparative Physiology 281 (2001): 572-583.
  23. Varon J and Acosta P. “Therapeutic hypothermia: past, present, and future”. Chest Journal 5 (2008): 1267-1274.
  24. Wang H., et al. “Cold as a therapeutic agent”. Acta Neurochirurgica 148 (2006): 565-570.
  25. Williams GR Jr and Spencer F C. “The clinical use of hypothermia following cardiac arrest”. Journal of Neurosurgery 3 (1958): 462-468.
×

Citation

Citation: Cheboksarov D., et al. “Artificial Human Hibernation: From Hypothermia to Pharmacological Hypobiosis. Part I. History of Hypothermia". Acta Scientific Medical Sciences 4.6 (2020): 11-14.




Metrics

Acceptance rate30%
Acceptance to publication20-30 days
Impact Factor1.403

Indexed In





Contact US