CO2 retention is a pathophysiologicalprocess in which too little carbon dioxideis removed from the bloodby the lungs. The end result is hypercapnia, an elevated level of carbon dioxide dissolved in the bloodstream. Various diseases may lead to this state; disturbed gas exchangemay lead to impaired excretion of the gas. In addition, breathing air with a high carbon dioxide concentration may also lead to hypercapnia.
The principal result of the increased amount of dissolved CO2 is acidosis(respiratory acidosiswhen caused by impaired lung function); other effects include tachycardia(rapid heart rate) seizures, coma, respiratory arrestand death.
CO2 retention is a problem in various respiratory diseases, particularly chronic obstructive pulmonary disease(COPD). Patients with COPD who receive excessive supplemental oxygencan develop CO2 retention, and subsequent hypercapnia. The mechanism that underlies this state is a matter of controversy. Some authorities point to a reduction in the hypoxic"drive" when oxygen is administered. However, it is unclear whether such a hypoxic drive exists in the first place. An alternative explanation is that, in patients with COPD, the administration of oxygen leads to an increase in the degree to which diseased alveoliare perfused with blood relative to other, less-diseased alveoli. As a result, a larger fraction of blood passes through parts of the lung that are poorly-ventilated, with a resulting increase in the CO2 concentration of the blood leaving the lungs.
As CO2 levels increase, patients exhibit a reduction in overall level of consciousness as well as respiratory effort. Severe increases in CO2 levels can lead to respiratory arrest.
CO2 retention is the hallmark of type II respiratory failure. While in type I any degree of hypoxia is compensated for by hyperventilation(and a decrease in CO2), this mechanism fails in type II. Mechanical ventilation(through intubation, CPAPor BIPAP) may be indicated, or infusion of doxapram.
CO2 retention with its attendant dangers of death from convulsions and hypoxia(low oxygen level) is primarily of concern to the scuba diver due to "skip breathing". Other sources of CO2 retention are breath-hold diving, breathing in a sealed environment, faulty regulator, exercise at extreme depth and using contaminated air.
Symptoms include rapid respiration in 4-6%, rapid pulse rate, shortness of breath in 7-10% and convulsions and unconsciousness in 11-20%.
The CO2 level in the blood is unchanged by the ambient pressure (i.e., the depth) per se, since the partial pressureof carbon dioxide in a scuba diver's blood is a function only of metabolismand the rate and depth of breathing - the same factors that determine blood CO2 concentration on land.
All of the CO2 developed during breathing underwater is exhaled in the bubbles from scuba apparatus and does not increase with depth as do other gases, such as nitrogen, oxygen, carbon monoxideand hydrocarbons. Abnormal carbon dioxide accumulation in the blood can occur from too high a level of metabolism(such as from exercise at depth) and/or inadequate breathing (usually not breathing deep enough or skip breathing). The medical term for high carbon dioxide in the blood is hypercapnia; when the level is high enough it can cause "CO2 toxicity," which can lead to shortness of breath, headache, confusion and drowning(depending on severity).
Elevated CO2 levels play a significant role in oxygen toxicityand in nitrogen narcosis.
The acceptable CO2 level for diving operations is 1.5% surface equivalent (10.5 mmHg); the acceptable level for hyperbaric oxygen therapyoperations is one that allows a vent schedule of 4scfm/person displacement.
With the increased usage of rebreatherdiving, mainly by the military-but recently by more and more civilian divers, there is the possibility of hypercapnia (high CO2 levels), among other medical considerations.
Signs and symptoms that need to be observed are hyperventilation, shortness of breath and tachycardia(rapid heart beat), headache and excessive sweating, mental impairment and finally, unconsciousness.
This hypercapnia comes about due to malfunction of the soda limeCO2 absorbent canisters and can be avoided by decreasing the exercise rate, watch out for the operating limits of the canister, checking for leaks at the start of the dive and not reusing the absorbent.
Categories: Pulmonology| Diving medicine
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It uses material from the http://en.wikipedia.org/wiki/CO%E2%82%82+retention Wikipedia article CO₂ retention.