Sex, Drugs and R & R (Resuscitation & Reanimation)

The rapidly evolving field of resuscitative endocrinology


 
 

Ahamed H. Idris, MD | Jane G. Wigginton, MD | Paul E. Pepe, MD, MPH | From the State of the Science 2010 Issue


What if someday, in the not too distant future,your prehospital care protocols—for cardiac arrest, post-traumatic shock, severe head injury, myocardial infarction, stroke, massive burns and a myriad of other critical illnesses and injuries—all directed you to immediately infuse the patient with an IV dose of the female sex hormone estrogen as routine prophylaxis, and that such doses should be administered as soon as possible after the onset of the critical illness or injury?

That day may not be so far away. During the past decade, a small but rapidly growing cadre of scientists has begun to demonstrate the powerful influences that sex hormones may have in resuscitation medicine. The authors, who have helped pioneer and bring this innovative concept into the clinical arena, have even coined a new term for this evolving field of scientific investigation—"resuscitative endocrinology."

This article will discuss the original hypothesis-generating clinical observations and the basic laboratory evidence supporting the role of sex hormones in resuscitation. In addition, current and upcoming clinical studies will be cited, along with predictions for the use of these promising new therapeutic interventions.

Clinical Observations Regarding Sex-Related Differences
Sex and cardiac arrest:  Nearly 10 years ago, on May 22, 2000, a scientific presentation was delivered at the annual meeting of the Society for Academic Emergency Medicine   in San Francisco. The 10-minute oral report was barely noticed by mainstream emergency medicine attendees, but for those at the small breakout session, the results were eye-opening. Contrary to popular wisdom at the time, the study found that  women had much better outcomes than men in a multi-year, population-based study of out-of-hospital cardiopulmonary arrests involving nearly 5,000 subjects.[1]

Although there may have been numerous explanations for these findings, including disparities in chest wall compliance and variations in pharmaco-biology, the influence of sex hormones seemed less likely, at least at first, because the average age of the women was about 69 years of age.[2] However, a continuation of that same study, involving nearly 10,000 subjects, and a corresponding in-hospital study, involving nearly 20,000 in-patients, both demonstrated very striking and distinct survival advantages for the cohort of women of child-bearing age.[2,3] In fact, in the cases generally reflecting more of a global ischemic insult, such as those presenting with asystole or pulseless electrical activity, essentially all of the survival advantages that women had over men could be attributed to the sub-group of women of child-bearing ages.

Overall, compared with men of a similar age and with older women and men, women of child-bearing age generally have high levels of circulating sex hormones. Although the presumptive role of sex hormones is clearly inferential (hormone levels weren't actually measured), the  profound  differences in both studies have been very compelling. Moreover, as described later in this article, the results have been corroborated by equally compelling laboratory data in which estrogen infused into male animals led to dramatically improved outcomes.[4-18]

Sex and trauma:  As in the case of cardiopulmonary arrest, in the realm of trauma, remarkably high estradiol (estrogen) levels have now been measured in the cerebrospinal fluid of men who had good outcomes following severe traumatic brain injury (TBI) when compared with normal people and those TBI patients with poor outcomes.[19] How this happens is not understood, but it appears to indicate that the brain seems to know how to protect itself by secreting or sequestering high levels of estrogen to improve outcomes.

Estrogen appears to have a strong influence in severe physical and physiological insults, and so does progesterone. A clinical trial of progesterone for TBI demonstrated more than a twofold decrease in 30-day mortality, confirming both the safety and efficacy of that sex hormone as well.[20]

The Support of Research & Experience
A wealth of experimental literature now has demonstrated the effectiveness of therapeutic sex hormone infusions to dramatically improve outcomes in a variety of conditions, ranging from severe TBI, massive hemorrhage, burns and spinal-cord injury to stroke, cardiac ischemia and a host of other critical illnesses and injuries.[3-18]

The proposed mechanisms of action are numerous, but two key principles should be emphasized: First, the effects of sex hormones are not specific to either cell type or insult. Although perhaps an over-simplification, estrogen, for the most part, works within the mitochondria of every cell in the body, helping to up-regulate (or enhance the action of) cells that might have otherwise become apoptotic (self-destructive) or irreversibly damaged by oxidant-type injury.

Second, given intravenously, the first-pass effect in the liver (believed to be responsible for the pro-thrombotic effects observed with traditional oral administration of estrogen) is bypassed. In essence, a single dose of IV estrogen should not be confused with orally administrated hormone replacement therapy (HRT).

As a poignant example of the laboratory studies, in experimental models of severe torso burns, severe and remote inflammatory effects in the brain were noted to be almost entirely blocked by early estrogen administration. Serum levels of the cytokine IL-6 correlate with poor outcomes in burns. But infusions of estrogen inhibit the propagation of this inflammatory marker.[21]

In addition to the experimental literature, estrogen and progesterone have been shown to be relatively safe to use in the general population. Over many decades, in many thousands of patients, IV estrogen has been used extensively without untoward effects in a host of clinical scenarios, including dysfunctional uterine bleeding, uremic hemorrhage, advanced prostate cancer and post-operative bleeding after scoliosis surgery. Further, it's extremely inexpensive, especially when compared with the typical cost of an intensive care unit (ICU) day. Compared with many other pharmacological therapies, estrogen and progesterone are very inexpensive, thus making them exceptional candidates for widespread application (and even liberal routine administration).

The Future of Sex Hormones
During the past year, clinical trials have been implemented in Dallas that are examining the use of IV estrogen (0.5 mg/kg)   in people with severe head injury, including those with and without accompanying hemodynamic compromise. Although the results of these ongoing studies are not yet available, the initial experience has, to date, demonstrated safety of the single-dose administration of IV estrogen.

As a result, the National Institutes of Health Resuscitation Outcomes Consortium (ROC) steering committee is now considering the implementation of a multi-center clinical trial of estrogen for both severe head injury and for patients with severe hemodynamic compromise (presumptively, severe hemorrhage). In essence, the concept of resuscitative endocrinology has become mainstream, and the use of estrogen has achieved a certain degree of priority in resuscitation research circles.

Although the current plans for sex-hormone research revolve around trauma scenarios, similar studies will likely be implemented for cardiac arrest, stroke, burns and myocardial infarction. Moreover, the studies, and eventual clinical use, will most likely take place in the prehospital setting, considering that many of the experimental studies have demonstrated that the earlier the intervention is provided, the better the results.

In summary, a growing body of evidence supports the strong influence of sex hormones, particularly estrogen, in cases of resuscitation. Such sex hormones are not only considered to be protective, but also as an active intervention in reanimation and improved outcomes. If the efficacy of sex hormones is definitively proven, they'll likely be used in the prehospital setting and as early as possible after the onset of a critical illness or injury.

Disclosure: The authors have no conflicts of interest with the sponsors of this supplement.

References

  1. Wigginton JG, Pepe PE, Bedolla JP, et al. Sex-related differences in the presentation and outcome of out-of-hospital cardiopulmonary arrest: A multiyear, prospective, population-based study. Crit Care Med. 2002;30 Suppl:S131–S136.
  2. Wigginton JG, Pepe PE, Idris AH. Higher resuscitation rates for women of child-bearing age following out-of-hospital cardiopulmonary arrest (Abstract). (Originally titled: Potential pharmaco-biological and hormonal effects on resuscitation.) Acad Emerg Med. 2006;13 Suppl:174.
  3. Topjian AA, Localio R, Berg RA, National Registry of CPR. Women of child-bearing age have better in-hospital cardiac arrest survival outcomes than equal aged men. (Submitted for peer-review)
  4. Wigginton JG, Pepe PE, Idris AH. Sex-related differences in response to global ischemic insult and treatment. In Vincent JL (ed): 2007 Yearbook of Intensive Care and Emergency Medicine. Springer-Verlag: Berlin-Heidelberg, 2007. p. 880–888.
  5. Lu A, Ran RQ, Clark J, et al. 17-beta-estradiol induces heat shock proteins in brain arteries and potentiates ischemic heat shock protein induction in glia and neurons. J Cereb Blood Flow Metab. 2002;22:183–195.
  6. Mizushima Y, Wang P, Jarrar D, at al. Estradiol administration after trauma-hemorrhage improves cardiovascular and hepatocellular functions in male animals. Ann Surg. 2000;232:673–679.
  7. Yu HP, Shimizu T, Choudhry MA, et al. Mechanism of cardioprotection following trauma-hemorrhagic shock by a selective estrogen receptor-beta agonist: Up-regulation of cardiac heat shock factor-1 and heat shock proteins. J Mol Cell Cardiol. 2006;40:185–194.
  8. Chae SU, Ha KC, Piao CS, et al. Estrogen attenuates cardiac ischemia-reperfusion injury via inhibition of calpain-mediated bid cleavage. Arch Pharm Res. 2007;30:1225–1235.
  9. Suzuki T, Yu HP, Hsieh YC, et al. Mitogen activated protein kinase (MAPK) mediates non-genomic pathway of estrogen on T cell cytokine production following trauma-hemorrhage. Cytokine. 2008;42:32–38.
  10. Hsieh YC, Frink M, Hsieh CH, et al. Downregulation of migration inhibitory factor is critical for estrogen-mediated attenuation of lung tissue damage following trauma-hemorrhage. Am J Physiol Lung Cell Mol Physiol. 2007;292:L1227–L1232. 
  11. Meldrum DR. G-protein-coupled receptor 30 mediates estrogen's nongenomic effects after hemorrhagic shock and trauma. Am J Pathol. 2007;170:1148–1151.
  12. Sener G, Arbak S, Kurtaran P, et al. Estrogen protects the liver and intestines against sepsis-induced injury in rats. J Surg Res. 2005;128:70–78. 
  13. Simpkins JW, Wang J, Wang X, et al. Mitochondria play a central role in estrogen-induced neuroprotection. Curr Drug Targets CNS Neurol Disord. 2005;4:69–83.
  14. Yang SH, Shi J, Day AL, et al. Estradiol exerts neuroprotective effects when administered after ischemic insult. Stroke. 2000;31:745–749.
  15. O'Connor CA, Cernak I, Vink R. Both estrogen and progesterone attenuate edema formation following diffuse traumatic brain injury in rats. Brain Res. 2005;1062:171–174. 
  16. Sribnick EA, Wingrave JM, Matzelle DD, et al. Estrogen attenuated markers of inflammation and decreased lesion volume in acute spinal cord injury in rats. J Neurosci Res. 2005;82:283–293.
  17. Messingham KA, Heinrich SA, Kovacs EJ. Estrogen restores cellular immunity in injured male mice via suppression of interleukin-6 production. J Leukoc Biol. 2001;70:887–895.
  18. Ozveri ES, Bozkurt A, Haklar G, et al. Estrogens ameliorate remote organ inflammation induced by burn injury in rats. Inflamm Res. 2001;50:585–591.
  19. Wigginton J, Saner K, Schug K, et al. Sex steroid level alterations in the blood and cerebrospinal fluid following severe traumatic brain injury. Circulation. 2009 (in press).
  20. Wright DW, Kellermann AL, Hertzberg VS, et al. ProTECT: A randomized clinical trial of progesterone for acute traumatic brain injury. Ann Emerg Med. 2007;49:391–402.
  21. Gatson JW, Maass DL, Simpkins JW, et al. Estrogen treatment following severe burn injury reduces brain inflammation and apoptotic signaling. J Neuroinflammation. 2009;6:30.



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Related Topics: Administration and Leadership, Leadership and Professionalism, Airway and Respiratory, Operations and Protcols

Ahamed H. Idris, MDAhamed H. Idris, MD, is a professor of surgery/emergency medicine at the University of Texas Southwestern Medical Center at Dallas and Director of the Dallas Fort Worth Center for Resuscitation Research.

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Jane G. Wigginton, MDJane G. Wigginton, MD, is a Clinical Research Scholar in the Department of Clinical Sciences and assistant professor in Emergency Medicine at the University of Texas Southwestern Medical Center and Parkland Emergency Trauma Center in Dallas, Texas.

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Paul E. Pepe, MD, MPHFor more than 3 decades, Dr. Paul Pepe has pioneered the concept of full-time specialty practice as an EMS Physician and has been formally recognized and honored in many governmental and professional society circles as the “most accomplished emergency services physician of our generation”. An extremely distinguished scientist/academician (over 500 published scientific papers/abstracts, including many landmark publications in multiple disciplines), Dr. Pepe has served simultaneously as a high-level municipal or state employee for the past quarter century. Renown for a grass-roots, “street-wise” style in planning, implementing and overseeing a “systems” approach to saving lives, both operationally and through scientific clinical trials, his programs have resulted in some of the highest cardiac arrest and trauma survival rates worldwide.

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