Altitude Promotes Better Survival Rates in Critically Ill Obese Patients with COVID-19: A Presentation from the Chronic Hypoxia Symposium

The 8th Chronic Hypoxia Symposium is recently took place in La Paz, Boliva, and I had to pleasure of hearing Dr. Jorge Luis Velez’ presentation on altitude, obesity, and COVID-19 survival rates. Dr. Velez is an intensive care doctor and the head of critical medicine at Pablo Arturo Suarez Hospital in Quito, Ecuador, as well as being a professor at the Central University of Ecuador. With Quito being the second highest in elevation capital in the world at 9,350 feet, Dr. Velez understands the effects of altitude on the human body.

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Dr. Velez conducted a study among 340 unvaccinated adult patients with severe COVID-19 infections requiring intubation. Of the 340 patients, 45% were obese, 43% were overweight, and 12% were of normal weight. The results of the study showed that obese patients had significantly reduced mortality rates and higher rates of successful extubation when compared to the overweight and normal weight groups. Successful extubation is commonly described as extubation without the need for re-intubation within 72 hours. Obese patients were found to have a 31.17% mortality rate and an 81.03% rate of successful extubation. Overweight patients were found to have a 40.14% mortality rate and a 73.00% rate of successful extubation. Patients of normal weight were found to have a 48.72% mortality rate and a 53.85% rate of successful extubation.

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These results are surprising given that obesity is a widely accepted risk factor for high severity COVID-19 infections and increased mortality. Other factors that may have contributed to the increased survival rates of obese patients with severe COVID-19 infections is that in their study, the obese patients happened to be on average younger and a higher proportion of males. Despite variables in age and sex, Dr. Velez still concludes with statistical significance that “patients with obesity had a 52% less probability of dying in relation to those of normal weight.”

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Despite this emerging research, we still recommend maintenance of a healthy weight and lifestyle, as the effects of a healthy weight have been extensively researched and proven to be beneficial for a heart health, joint health, mental health, sleep, the digestive system, and more.

Family Nurse Practitioner Ana Sofia Bedoya administering the new bivalent COVID-19 vaccine to Dr. Chris in her office at Ebert Family Clinic in Frisco, CO.

Looking for other ways to protect yourself from COVID-19?

The new bivalent vaccine uses the same technology with upgraded protection against the omicron variant. The vaccine is the best way to reduce risk for you and your family during the holiday season, as well as protecting from reinfection if you’ve already had COVID-19.

References

Luis Velez, J., 2022. Altitude Promotes Better Survival Rates in Critically Ill Obese Patients with COVID-19.

Artime, C. A. A., & Hagberg, C. A. H. (2014, June). Tracheal Extubation. Respiratory Care, 59(6), 991–1005. https://rc.rcjournal.com/content/respcare/59/6/991.full.pdf#:~:text=Successful%20extubation%20is%20dependent%20on%20two%20factors%3A%20the,a%20planned%20extubation8%3B%20however%2C%20this%20definition%20does%20not

Cameron Santiago is a second-year Physician Assistant Student at Red Rocks Community College in Arvada, CO. He grew up in Colorado Springs and received his undergraduate degree in Biology from Colorado State University. Prior to PA school, he was an inpatient phlebotomist and urgent care technician. In his free time, he enjoys fishing, hiking, and spending time with his dogs and family.

HARPE is the New HAPE

It took ten years for me to convince high altitude experts that children living in the mountains get high altitude pulmonary edema (HAPE) without leaving home. My observations were published in 2017 in the Journal of High Altitude Medicine and Biology,

High-Altitude Pulmonary Edema
in Mountain Community Residents

This week Dr. Jose A Castro-Rodriguez MD PhD ATSF discussed HAPE in children at the 8th World Hypoxia conference in La Paz including the now renamed high altitude resident pulmonary edema (HARPE) in his presentation.

Dr. Castro-Rodriguez emphasized the importance of recognizing the three forms of HAPE, including reentry HAPE when children return to the mountains from vacation, since these can be life threatening.

My work has been cited in articles by pulmonologists Deborah Liptzin and Dunbar Ivy from Children’s Hospital of Colorado and geneticist Christine Eichstaedt and her team at the University of Heidelberg.

At Ebert Family Clinic we give every patient/family a free pulse oximeter. The ability to measure the oxygen saturation of anyone with cough, congestion, or fatigue can facilitate early treatment with oxygen and prevent visits to the emergency room, hospital and intensive care unit.

I recently received first prize for a poster presentation on HARPE at the fall Colorado Medical Society meeting, and second prize for a poster on Trauma and HAPE.

For more information about HAPE, HARPE and Trauma-related HAPE, see previous blog entries.

References

Ebert-Santos C. High-Altitude Pulmonary Edema in Mountain Community Residents. High Alt Med Biol. 2017 Sep;18(3):278-284. doi: 10.1089/ham.2016.0100. Epub 2017 Aug 28. PMID: 28846035.

Giesenhagen AM, Ivy DD, Brinton JT, Meier MR, Weinman JP, Liptzin DR. High Altitude Pulmonary Edema in Children: A Single Referral Center Evaluation. J Pediatr. 2019 Jul;210:106-111. doi: 10.1016/j.jpeds.2019.02.028. Epub 2019 Apr 17. PMID: 31005280; PMCID: PMC6592742.

Liptzin DR, Abman SH, Giesenhagen A, Ivy DD. An Approach to Children with Pulmonary Edema at High Altitude. High Alt Med Biol. 2018 Mar;19(1):91-98. doi: 10.1089/ham.2017.0096. Epub 2018 Feb 22. PMID: 29470103; PMCID: PMC5905943.

Eichstaedt CA, Mairbäurl H, Song J, Benjamin N, Fischer C, Dehnert C, Schommer K, Berger MM, Bärtsch P, Grünig E, Hinderhofer K. Genetic Predisposition to High-Altitude Pulmonary Edema. High Alt Med Biol. 2020 Mar;21(1):28-36. doi: 10.1089/ham.2019.0083. Epub 2020 Jan 23. PMID: 31976756.

High-Altitude Pulmonary Edema is not just for tourists

HAPE can affect long term locals too. There is no specific test to diagnosis HAPE leading to delayed treatment or improper treatment, including death.

HAPE is defined as fluid accumulation in the lungs when an individual spends about 48 hours at elevations of 8,200 feet or higher. This can occur when 1) tourists who are not accumulated to high altitudes appropriately 2) locals who re-enter high altitude after being at lower elevation for a period of time or 3) long term residents who develop an illness.

What are the signs and symptoms you ask? Exhaustion, dyspnea on exertion, productive cough, tachypnea, tachycardia, low oxygen saturation levels, and crackles upon lung assessments are the most common to be seen. These are very generic symptoms and resemble many other diseases, such as pneumonia and asthma, leading to misdiagnosis and improper treatment.

How is HAPE treated?

The answer is simple, oxygen. The body is being deprived of oxygen and is unable to feed our cells. By giving oxygen (either through an artificial source or returning to lower elevation) and allowing the body to rest, the body is able to meet its demand for oxygen and symptoms resolve. If one receives oxygen and symptoms do not improve, there is most likely an underlying cause that is contributing to the symptoms unrelated to HAPE.

A pulse oximeter is the easiest way that one can monitor their oxygen levels at home. This device can be purchased over the counter, relatively inexpensive, and easy to use. By placing the pulse oximeter on one’s finger, the device will read the individual’s oxygen level which should be greater than 90% (when at altitude). The heart rate will also be recorded which tends to be between 60-100 beats per minute when at rest for adults.

References

A new mechanism to prevent pulmonary edema in severe infections. Lung Disease News. (n.d.). Retrieved September 2, 2022, from https://lungdiseasenews.com/2015/01/14/researchers-discover-a-new-mechanism-to-prevent-pulmonary-edema-in-severe-infections/

Bhattarai, A., Acharya, S., Yadav, J. K., & Wilkes, M. (2019). Delayed-onset high altitude pulmonary edema: A case report. Wilderness & Environmental Medicine, 30(1), 90–92. https://doi.org/10.1016/j.wem.2018.11.002

Fixler, K. (2017, October 12). Colorado doctor: Health effects of living in mountains unknown to medical establishment. SummitDaily.com. Retrieved September 2, 2022, from https://www.summitdaily.com/news/summit-county-doctor-makes-a-case-for-high-altitude-disorder-that-affects-even-the-acclimated/