Nose: Difference between revisions

From Citizendium
Jump to navigation Jump to search
imported>Nancy Sculerati MD
No edit summary
imported>Nancy Sculerati MD
No edit summary
Line 7: Line 7:
The nose acts an interface between air within the body's respiratory passages and the atmosphere of the external world.  The nose and associated structures (the paranasal sinuses) are concerned with conditioning the entering air (for instance, by warming and/or humidifying it) and sometimes with reclaiming moisture from the air before it is exhaled (as occurs most efficiently in [[camel]]s). The nose also acts as a trap for noxious particles and germs (bacteria and viruses) that enter the body by being inhaled.
The nose acts an interface between air within the body's respiratory passages and the atmosphere of the external world.  The nose and associated structures (the paranasal sinuses) are concerned with conditioning the entering air (for instance, by warming and/or humidifying it) and sometimes with reclaiming moisture from the air before it is exhaled (as occurs most efficiently in [[camel]]s). The nose also acts as a trap for noxious particles and germs (bacteria and viruses) that enter the body by being inhaled.


In most mammals, the nose is the primary organ for [[olfaction|smelling]]. As the animal sniffs, the air flows through the nose and over structures called [[turbinate]]s in the [[nasal cavity]]. The turbulence caused by this disruption slows the air and directs it toward the [[olfactory epithelium]]. At the surface of the olfactory epithelium, [[odor]] molecules carried by the air contact [[olfactory receptor neuron]]s.  which transduce the features of the molecule into electrical impulses in the [[brain]].
In most mammals, the nose is the primary organ for [[olfaction|smelling]]. As the air is sniffed, it flows in through the nose and over structures called [[turbinate]]s in the [[nasal cavity]]. These turbinates are shaped very much like side-fins. The turbinates slow the air flow and direct it toward the [[olfactory epithelium]]. At the surface of the olfactory epithelium, [[odor]] molecules carried by the air contact [[olfactory receptor neuron]]s.  which transduce the features of the molecule into electrical impulses in the [[brain]].


In [[cetacean]]s, the nose has been reduced to the nostrils, which have migrated to the top of the head, producing a more streamlined body shape and the ability to breathe while mostly submerged. Conversely, the [[elephant]]'s nose has become elaborated into a long, muscular, manipulative organ called the ''trunk''.
In [[cetacean]]s, the nose has been reduced to the nostrils, which have migrated to the top of the head, producing a more streamlined body shape and the ability to breathe while mostly submerged. Conversely, the [[elephant]]'s nose has become elaborated into a long, muscular, manipulative organ called the ''trunk''.

Revision as of 12:30, 2 November 2006

Template:Otheruses

The nose is the portion of the airway preferentially used for inhalation, and usually contains sense receptors for the sense of smell (olfaction). Newborn human babies breathe "only" through the nose, and are called therefore called "obligate nasal breathers". Crying newborns sometimes are able to breathe in through the mouth, and by several months of age, infants are able to use both the nose and mouth for breathing. Many adults are mouth-breathers. Preferential inhalation through the mouth is generally either a learned habit, or performed because nasal obstruction resists airflow.

In humans, the nose is located centrally on the face; on most other mammals, and in reptiles and amphibians, it is on the upper tip of the snout.

The nose acts an interface between air within the body's respiratory passages and the atmosphere of the external world. The nose and associated structures (the paranasal sinuses) are concerned with conditioning the entering air (for instance, by warming and/or humidifying it) and sometimes with reclaiming moisture from the air before it is exhaled (as occurs most efficiently in camels). The nose also acts as a trap for noxious particles and germs (bacteria and viruses) that enter the body by being inhaled.

In most mammals, the nose is the primary organ for smelling. As the air is sniffed, it flows in through the nose and over structures called turbinates in the nasal cavity. These turbinates are shaped very much like side-fins. The turbinates slow the air flow and direct it toward the olfactory epithelium. At the surface of the olfactory epithelium, odor molecules carried by the air contact olfactory receptor neurons. which transduce the features of the molecule into electrical impulses in the brain.

In cetaceans, the nose has been reduced to the nostrils, which have migrated to the top of the head, producing a more streamlined body shape and the ability to breathe while mostly submerged. Conversely, the elephant's nose has become elaborated into a long, muscular, manipulative organ called the trunk.

Human nose

External Nose

Shapes of the human nose

Nasal Trauma (Broken Nose)

Internal Nose

The nasal airway

The nasal mucosa

The nasal septum

Culture

Some people choose to get rhinoplasty to change the aesthetic appearance of their nose. Nose piercings are also common, such as nostril, septum or bridge.

In New Zealand, nose pressing ("hongi") is a traditional greeting.

People famous for their noses

Template:Unreferenced

References

  1. Physical Manual: Univ. of Tennessee at Martin
  2. Eden Warwick (pseudonym of George Jabet), Nasology, or hints towards a classification of Noses, London, Richard Bentley, 1848
  3. Encyclopedia Britannica Micropedia, 1982

See also

External links

Template:Respiratory system Template:Human anatomical features

ar:أنف ca:Nas cs:Nos cy:Trwyn da:Næse de:Nase (Organ) et:Nina es:Nariz eo:Nazo fr:Nez ko:코 io:Nazo it:Naso (anatomia) he:אף lv:Deguns lt:Nosis mk:Нос nl:Neus ja:鼻 no:Nese pl:Nos pt:Nariz ru:Нос sq:Hunda simple:Nose sk:Nos sl:Nos fi:Nenä sv:Näsa tr:Burun (organ) zh-yue:鼻 zh:鼻