Editor-In-Chief: C. Michael Gibson, M.S., M.D. [2]

Pathphysiology

Flatus is expelled under pressure through the anus, whereby, as a result of the voluntary or involuntary tensing of the anal sphincter, the rapid evacuation ofgases from the lower intestine occurs. Depending upon the relative state of the sphincter (relaxed/tense) and the positions of the buttocks, this often results in an audible crackling or trumpeting sound, but gas can also be passed quietly. The olfactory components of flatulence include skatole, indole, and sulfurous compounds.^[1] The non-odorous gases are mainly nitrogen (ingested), carbon dioxide (produced by aerobic microbes or ingested), and hydrogen(produced by some microbes and consumed by others), as well as lesser amounts of oxygen (ingested) and methane (produced by anaerobic microbes).^[2] Odors result from trace amounts of other components (often containing sulfurcompounds, see below).

Flatus is expelled under pressure through the anus, whereby, as a result of the voluntary or involuntary tensing of the anal sphincter, the rapid evacuation ofgases from the lower intestine occurs. Depending upon the relative state of the sphincter (relaxed/tense) and the positions of the buttocks, this often results in an audible crackling or trumpeting sound, but gas can also be passed quietly. The olfactory components of flatulence include skatole, indole, and sulfurous compounds.^[3] The non-odorous gases are mainly nitrogen (ingested), carbon dioxide (produced by aerobic microbes or ingested), and hydrogen(produced by some microbes and consumed by others), as well as lesser amounts of oxygen (ingested) and methane (produced by anaerobic microbes).^[4] Odors result from trace amounts of other components (often containing sulfurcompounds, see below).

=Composition of Flatus Gases

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Nitrogen is the primary gas released. Carbon dioxide is often present, especially in persons who drink carbonated beverages in quantity. Methane andhydrogen, lesser components, are flammable, and so flatus is susceptible to catching fire. Not all humans produce flatus that contains methane. For example, in one study of the feces of nine adults, only five of the samples contained bacteria capable of producing methane.^[5]Similar results are found in samples of gas obtained from within the rectum.

The gas released during a flatus event frequently has a foul odor which mainly results from low molecular weight fatty acids such as butyric acid(rancid butter smell) and reduced sulfur compounds such as hydrogen sulfide (rotten egg smell) and carbonyl sulfide that are the result of protein breakdown. The incidence of odoriferous compounds in flatus increases from herbivores, such as cattle, through omnivores to carnivorous species, such as cats or dogs. Flatulence odor can also be caused by the presence of large numbers of microflora bacteria and/or the presence of feces in therectum.

The major components of the flatus by percentage are:^[6]

Nitrogen - 20% - 90%
Hydrogen - 0% - 50%
Carbon Dioxide - 10% - 30%
Oxygen - 0% - 10%
Methane - 0% - 10%

References

↑ "Flatulence, wind and bloating". Patient UK. Retrieved 2006-12-11.
↑ Suarez F (1997). "Insights into human colonic physiology obtained from the study of flatus composition". Am J Physiol. 272 (5 Pt 1): G1028–33. Unknown parameter |coauthors= ignored (help)
↑ "Flatulence, wind and bloating". Patient UK. Retrieved 2006-12-11.
↑ Suarez F (1997). "Insights into human colonic physiology obtained from the study of flatus composition". Am J Physiol. 272 (5 Pt 1): G1028–33. Unknown parameter |coauthors= ignored (help)
↑ Miller TL (1982). "Isolation of Methanobrevibacter smithii from human feces". Appl Environ Microbiol. 43(1): 227–232. Unknown parameter |coauthors= ignored (help)
↑ "Human Digestive System". Encyclopedia Britannica. Retrieved 2007-08-22.

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[1] "Flatulence, wind and bloating". Patient UK. Retrieved 2006-12-11.

[2] Suarez F (1997). "Insights into human colonic physiology obtained from the study of flatus composition". Am J Physiol. 272 (5 Pt 1): G1028–33. Unknown parameter |coauthors= ignored (help)

[3] "Flatulence, wind and bloating". Patient UK. Retrieved 2006-12-11.

[4] Suarez F (1997). "Insights into human colonic physiology obtained from the study of flatus composition". Am J Physiol. 272 (5 Pt 1): G1028–33. Unknown parameter |coauthors= ignored (help)

[5] Miller TL (1982). "Isolation of Methanobrevibacter smithii from human feces". Appl Environ Microbiol. 43(1): 227–232. Unknown parameter |coauthors= ignored (help)

[6] "Human Digestive System". Encyclopedia Britannica. Retrieved 2007-08-22.

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Flatulence pathophysiology

Pathphysiology

=Composition of Flatus Gases

References

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