Renal and Respiratory Pathophysiological Challenges of High Altitudes, Acclimatization and Possible Methods of Treatment with a Minor Focus on Ethanol

Renal and Respiratory Pathophysiological Challenges of High Altitudes, Acclimatization and Possible Methods of Treatment with a Minor Focus on Ethanol

Length: 1358 words (3.9 double-spaced pages)

Rating: Term Papers

Open Document

Essay Preview

Respiratory System Acclimatization, Prophylaxis, and Treatment
The respiratory system acclimatizes for the majority of elevation gain through the incorporation of hyperventilation.8, 16 The hypoxic conditions of Mount Everest stimulate the peripheral chemoreceptors of the carotid body16, resulting in a hypoxic ventilation response (HVR) from messages sent to the brain as seen in Figure 3. This leads to increased ventilation to compensate for the lower oxygen content available for your body to consume during its normal functions. The physiological advantage to this process is lessening the alveolar partial pressure of oxygen that would normally occur as elevation increased.15 The diffusion capacity of the lungs would also increase, since there is a diffusion limitation under these extraordinary conditions.15, 16 By decreasing the alveolar carbon dioxide levels, subjects experience hypocapnia and respiratory alkalosis from the resultant increase in pH.8 The respiratory alkalosis is what promotes bicarbonate excretion by the kidneys to compensate for the high pH level.
Too rapid of elevation gain can have severe pathophysiological effects on the lungs, and brain resulting from the hypobaric hypoxic environment. Some of the major pathophysiological conditions include acute mountain sickness, high altitude cerebral edema and high altitude pulmonary edema as summarized on Table 2. The symptoms of acute mountain sickness can easily be confused for a viral illness7, 16 from the emergence of similar symptoms (vomiting, fatigue, dizziness, etc.). This sort of “illness” can progress rapidly to cerebral interstitial edema, which results from the blood brain barrier experiencing an imbalance of starling forces,...

... middle of paper ...

.... (2012). Effects of regular and
abusive intake of alcohol at weekends on physiological parameters in Spanish young. Public health, 126(10), 873-880.
15. West, J. B. (2006). Human responses to extreme altitudes. Integrative and
comparative biology, 46(1), 25-34.
16. West, J. B. (2004). The physiologic basis of high-altitude diseases. Annals of
Internal Medicine, 141(10), 789-800.
17. West, J. B. (2012). Respiratory physiology: the essentials. Lippincott Williams &
18. Wheeler, D. S., & Wong, H. R. (2009). The Central Nervous System in Pediatric
Critical Illness and Injury. Springer.
19. Zhang, Z. Y., Chen, B., Zhao, D. J., & Kang, L. (2013). Functional modulation of
mitochondrial cytochrome c oxidase underlies adaptation to high-altitude hypoxia in a Tibetan migratory locust. Proceedings of the Royal Society B: Biological Sciences, 280(1756), 20122758.

Need Writing Help?

Get feedback on grammar, clarity, concision and logic instantly.

Check your paper »