Hypoxia (medical)
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- For other uses of the term "hypoxia", see hypoxia.
Hypoxia is a pathological condition in which the body as a whole (generalised hypoxia) or region of the body (tissue hypoxia) is deprived of adequate oxygen supply. Hypoxia in which there is complete deprivation of oxygen supply is referred to as anoxia.
Hypoxia is distinguished from apoxemia. Apoxemia is an abnormally low partial pressure of oxygen (PO2) in arterial blood [1]. A frequent error is to use the term hypoxemia to mean low oxygen content in arterial blood. It is possible to have a low oxygen content (eg due to anemia) but a high PO2 so incorrect use can lead to confusion.
Generalised hypoxia occurs in healthy people when they ascend to high altitude, where it causes altitude sickness, and the potentially fatal complications of altitude sickness, high altitude pulmonary oedema (HAPE) and high altitude cerebral oedema (HACE). Hypoxia also occurs in healthy individuals when breathing mixtures of gases with a low oxygen content, for example while diving underwater, especially with closed-circuit rebreather systems that control the amount of oxygen in the air breathed in. Altitude training uses mild hypoxia to increase the concentration of red blood cells in the body for increased athletic performance.
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[edit] Symptoms
Symptoms of generalized hypoxia depend on its severity and speed of onset. In the case of altitude sickness, where hypoxia develops gradually, the symptoms include headaches, fatigue, shortness of breath, and nausea. In severe hypoxia, or hypoxia of very rapid onset, changes in levels of consciousness, seizures, coma and death occur. Severe hypoxia induces a blue discolouration of the skin, called cyanosis (haemoglobin is blue when it is not bound to oxygen (deoxyhaemoglobin), as opposed to the rich red colour that it has when bound to oxygen (oxyhaemoglobin)). In cases where the oxygen is displaced by another molecule, such as carbon monoxide, the skin may be 'cherry red' instead of cyanotic.
[edit] Types of hypoxia
- Hypoxic hypoxia is a generalised hypoxia, an inadequate supply of oxygen to the body as a whole. The term "hypoxic hypoxia" refers to the fact that hypoxia occurs as a consequence of low partial pressure of oxygen in arterial blood, in contrast to the other causes of hypoxia that follow, in which the partial pressure of oxygen in arterial blood is normal. Hypoxic hypoxia may be due to:
- Low partial pressure of atmospheric oxygen such as found at high altitude [2] or by replacement of oxygen in the breathing mix either accidentally as in the modified atmosphere of a sewer or intentionally as in the recreational use of nitrous oxide.
- Either Sleep apnea or Hypopnea causing a decrease in oxygen saturation of the blood.
- Inadequate pulmonary ventilation (e.g. in chronic obstructive pulmonary disease or respiratory arrest).
- Shunts in the pulmonary circulation or a right-to-left shunt in the heart. Shunts can be caused by collapsed alveoli that are still perfused or a block in ventilation to an area of the lung. Whatever the mechanism, blood meant for the pulmonary system is not ventilated and so no gas exchange occurs (the ventilation/perfusion ratio is zero). Normal anatomical shunt occurs in everyone, because of the Thebesian vessels which empty into the left ventricle and the bronchial circulation which supplies the bronchi with oxygen.
- Anemic hypoxia in which arterial oxygen pressure is normal, but total oxygen content of the blood is reduced.[3]
- Hypemic hypoxia when there is an inability of the blood to deliver oxygen to target tissues.
- Carbon monoxide poisoning which inhibits the ability of haemoglobin to release the oxygen bound to it.
- Methaemoglobinaemia in which an abnormal version of haemoglobin accumulates in the blood
- Histotoxic hypoxia in which quantity of oxygen reaching the cells is normal, but the cells are unable to effectively use the oxygen due to disabled oxidative phosphorylation enzymes.
- Ischemic, or stagnant hypoxia in which there is a local restriction in the flow of otherwise well-oxygenated blood. The oxygen supplied to the region of the body is then insufficient for its needs. Examples are cerebral ischemia, ischemic heart disease and Intrauterine hypoxia, which is an unchallenged cause of perinatal death.
[edit] Pathophysiology
After mixing with water vapour and expired CO2 in the lungs, oxygen diffuses down a pressure gradient to enter arterial blood around where its partial pressure is 100mmHg (13.3kPa).[2] Arterial blood flow delivers oxygen to the peripheral tissues, where it again diffuses down a pressure gradient into the cells and into their mitochondria. These bacteria-like cytoplasmic structures strip hydrogen from fuels (glucose, fats and some amino acids) to burn with oxygen to form water. Released energy (originally from the sun and photosynthesis) is stored as ATP, to be later used for energy requiring metabolism. The fuel's carbon is oxidized to CO2, which diffuses down its partial pressure gradient out of the cells into venous blood to finally be exhaled by the lungs. Experimentally, oxygen diffusion becomes rate limiting (and lethal) when arterial oxygen partial pressure falls to 40mmHg or below.
If oxygen delivery to cells is insufficient for the demand (hypoxia), hydrogen will be shifted to pyruvic acid converting it to lactic acid. This temporary measure (anaerobic metabolism) allows small amounts of energy to be produced. Lactic acid build up in tissues and blood is a sign of inadequate mitochondrial oxygenation, which may be due to hypoxemia, poor blood flow (e.g. shock) or a combination of both.[4] If severe or prolonged it could lead to cell death.
[edit] Vasoconstriction and vasodilation
In most tissues of the body, the response to hypoxia is vasodilation. By widening the blood vessels, the tissue allows greater perfusion.
By contrast, in the lungs, the response to hypoxia is vasoconstriction. This is known as "Hypoxic pulmonary vasoconstriction", or "HPV".
[edit] See also
- Asphyxia
- Drowning
- Hypoxic tumor
- Hyperoxia
- Time of Useful Consciousness
- Shallow water blackout for special case of hypoxia via self-induced hypocapnia
- Deep water blackout for special case of latent hypoxia
- Altitude training for beneficial use of mild hypoxia
- 1999 South Dakota Learjet crash for notable instance of a hypoxia-caused aircraft crash
[edit] Footnotes
- ^ West J. "Pulmonary Pathophysiology: The Essentials" 1977 Williams & Wilkins p22
- ^ a b Kenneth Baillie and Alistair Simpson. Altitude oxygen calculator. Apex (Altitude Physiology Expeditions). Retrieved on 2006-08-10. - Online interactive oxygen delivery calculator
- ^ Kenneth Baillie and Alistair Simpson. Oxygen content calculator. Apex (Altitude Physiology Expeditions). Retrieved on 2006-08-10. - A demonstration of the effect of anaemia on oxygen content
- ^ Hobler KE, Carey LC (1973). "Effect of acute progressive hypoxemia on cardiac output and plasma excess lactate" (scanned copy). Ann Surg 177 (2): 199-202. PMID 4572785.
[edit] Bibliography
- Hypoxia - An invisible enemy, Fast, Airbus technical magazine, #38 : presentation for non specialists of hypoxia and related safety procedures in civil airplanes