fbpx
Wikipedia

Eardrum

October 30, 2023

For other uses, see Eardrum (disambiguation).
Not to be confused with the secondary tympanic membrane of the round window.

In the anatomy of humans and various other tetrapods, the eardrum, also called the tympanic membrane or myringa, is a thin, cone-shaped membrane that separates the external ear from the middle ear. Its function is to transmit sound from the air to the ossicles inside the middle ear, and then to the oval window in the fluid-filled cochlea. Hence, it ultimately converts and amplifies vibration in the air to vibration in cochlear fluid.[1] The malleus bone bridges the gap between the eardrum and the other ossicles.[2]

Eardrum
Right eardrum as seen through a speculum
Details
Identifiers
Latinmembrana tympanica; myringa
MeSHD014432
TA98A15.3.01.052
TA26870
FMA9595
Anatomical terminology
[edit on Wikidata]

Rupture or perforation of the eardrum can lead to conductive hearing loss. Collapse or retraction of the eardrum can cause conductive hearing loss or cholesteatoma.

Structure edit

Orientation and relations edit

The tympanic membrane is oriented obliquely in the anteroposterior, mediolateral, and superoinferior planes. Consequently, its superoposterior end lies lateral to its anteroinferior end.[citation needed]

Anatomically, it relates superiorly to the middle cranial fossa, posteriorly to the ossicles and facial nerve, inferiorly to the parotid gland, and anteriorly to the temporomandibular joint.[citation needed]

Regions edit

The eardrum is divided into two general regions: the pars flaccida and the pars tensa.[3] The relatively fragile pars flaccida lies above the lateral process of the malleus between the notch of Rivinus and the anterior and posterior malleal folds. Consisting of two layers and appearing slightly pinkish in hue, it is associated with[vague] Eustachian tube dysfunction and cholesteatomas.[4]

The larger pars tensa consists of three layers: skin, fibrous tissue, and mucosa. Its thick periphery forms a fibrocartilaginous ring called the annulus tympanicus or Gerlach's ligament.[5] while the central umbo tents inward at the level of the tip of malleus. The middle fibrous layer, containing radial, circular, and parabolic fibers, encloses the handle of malleus. Though comparatively robust, the pars tensa is the region more commonly associated with[vague] perforations.[6]

Umbo edit

The manubrium (Latin: handle) of the malleus is firmly attached to the medial surface of the membrane as far as its center, drawing it toward the tympanic cavity. The lateral surface of the membrane is thus concave. The most depressed aspect of this concavity is termed the umbo (Latin: shield boss).[7]

Nerve supply edit

Sensation of the outer surface of the tympanic membrane is supplied mainly by the auriculotemporal nerve, a branch of the mandibular nerve (cranial nerve V3), with contributions from the auricular branch of the vagus nerve (cranial nerve X), the facial nerve (cranial nerve VII), and possibly the glossopharyngeal nerve (cranial nerve IX). The inner surface of the tympanic membrane is innervated by the glossopharyngeal nerve.[8]

Clinical significance edit

Examination edit

When the eardrum is illuminated during a medical examination, a cone of light radiates from the tip of the malleus to the periphery in the anteroinferior quadrant, this is what is known clinically as 5 o'clock.[citation needed]

Rupture edit

Unintentional perforation (rupture) has been described in blast injuries[9] and air travel, typically in patients experiencing upper respiratory congestion or general Eustachian tube dysfunction that prevents equalization of pressure in the middle ear.[10] It is also known to occur in swimming, diving (including scuba diving),[11] and martial arts.[12]

Patients with tympanic membrane rupture may experience bleeding, tinnitus, hearing loss, or disequilibrium (vertigo). However, they rarely require medical intervention, as between 80 and 95 percent of ruptures recover completely within two to four weeks.[13][14][15] The prognosis becomes more guarded as the force of injury increases.[15]

Surgical puncture for treatment of middle ear infections edit

The pressure of fluid in an infected middle ear onto the eardrum may cause it to rupture. Usually, this consists of a small hole (perforation), which allows fluid to drain out. If this does not occur naturally, a myringotomy (tympanotomy, tympanostomy) can be performed. A myringotomy is a surgical procedure in which a tiny incision is created in the eardrum to relieve pressure caused by excessive buildup of fluid, or to drain pus from the middle ear. The fluid or pus comes from a middle ear infection (otitis media), which is a common problem in children. A tympanostomy tube is inserted into the eardrum to keep the middle ear aerated for a prolonged time and to prevent reaccumulation of fluid. Without the insertion of a tube, the incision usually heals spontaneously in two to three weeks. Depending on the type, the tube is either naturally extruded in 6 to 12 months or removed during a minor procedure.[16]

Those requiring myringotomy usually have an obstructed or dysfunctional eustachian tube that is unable to perform drainage or ventilation in its usual fashion. Before the invention of antibiotics, myringotomy without tube placement was also used as a major treatment of severe acute otitis media.[16]

In some cases, the pressure of fluid in an infected middle ear is great enough to cause the eardrum to rupture naturally. Usually, this consists of a small hole (perforation), from which fluid can drain.

Society and culture edit

The Bajau people of the Pacific intentionally rupture their eardrums at an early age to facilitate diving and hunting at sea. Many older Bajau therefore have difficulties hearing.[17]

See also edit

 
Wikimedia Commons has media related to Eardrum.

Additional images edit

  •  
    Anatomy of the human right ear.
      Brown is outer ear.
      Red is middle ear.
      Purple is inner ear.
  •  

    External and middle ear, right side, opened from the front (coronal section)

  •  

    Horizontal section through left ear; upper half of section

  •  

    The right membrana tympani with the hammer and the chorda tympani, viewed from within, from behind, and from above

  •  

    Auditory tube, laid open by a cut in its long axis

  •  

    Chain of ossicles and their ligaments, seen from the front in a vertical, transverse section of the tympanum [tympanic cavity]

  •  

    Right eardrum as seen through a speculum

  •  

    This is a normal left eardrum.

  •  

    Tympanic membrane viewed by otoscope

  •  

    The oval perforation in this left tympanic membrane was the result of a slap on the ear

  •  

    A subtotal perforation of the right tympanic membrane resulting from a previous severe otitis media

  •  

    A normal human right tympanic membrane (eardrum)

  •  

    Frog on leaf showing eardrum

References edit

  This article incorporates text in the public domain from page 1039 of the 20th edition of Gray's Anatomy (1918)

  1. ^ Hilal, Fathi; Liaw, Jeffrey; Cousins, Joseph P.; Rivera, Arnaldo L.; Nada, Ayman (2023-04-01). "Autoincudotomy as an uncommon etiology of conductive hearing loss: Case report and review of literature". Radiology Case Reports. 18 (4): 1461–1465. doi:10.1016/j.radcr.2022.10.097. ISSN 1930-0433. PMC 9925837. PMID 36798057.
  2. ^ Purves, D; Augustine, G; Fitzpatrick, D; Hall, W; LaMantia, A; White, L; et al., eds. (2012). Neuroscience. Sunderland: Sinauer. ISBN 9780878936953.
  3. ^ Gilberto, Nelson; Santos, Ricardo; Sousa, Pedro; O’Neill, Assunção; Escada, Pedro; Pais, Diogo (August 2019). "Pars tensa and tympanicomalleal joint: proposal for a new anatomic classification". European Archives of Oto-Rhino-Laryngology. 276 (8): 2141–2148. doi:10.1007/s00405-019-05434-4. PMID 31004197. S2CID 123959777.
  4. ^ Jain, Shraddha (2019). "Role of Eustachian Dysfunction and Primary Sclerotic Mastoid Pneumatisation Pattern in Aetiology of Squamous Chronic Otitis Media: A Correlative Study". Indian Journal of Otolaryngology and Head and Neck Surgery. 71 (Suppl 2): 1190–1196. doi:10.1007/s12070-018-1259-x. PMC 6841851. PMID 31750149.
  5. ^ Mansour, Salah; Magnan, Jacques; Ahmad, Hassan Haidar; Nicolas, Karen; Louryan, Stéphane (2019). Comprehensive and Clinical Anatomy of the Middle Ear. Springer. ISBN 9783030153632.
  6. ^ Marchioni D, Molteni G, Presutti L (February 2011). "Endoscopic Anatomy of the Middle Ear". Indian J Otolaryngol Head Neck Surg. 63 (2): 101–13. doi:10.1007/s12070-011-0159-0. PMC 3102170. PMID 22468244.
  7. ^ Gray's Anatomy (1918)
  8. ^ Drake, Richard L., A. Wade Vogl, and Adam Mitchell. Gray's Anatomy For Students. 3rd ed. Philadelphia: Churchill Livingstone, 2015. Print. pg. 969
  9. ^ Ritenour AE, Wickley A, Retinue JS, Kriete BR, Blackbourne LH, Holcomb JB, Wade CE (February 2008). "Tympanic membrane perforation and hearing loss from blast overpressure in Operation Enduring Freedom and Operation Iraqi Freedom wounded". J Trauma. 64 (2 Suppl): S174-8. doi:10.1097/ta.0b013e318160773e. PMID 18376162.
  10. ^ Mirza S, Richardson H (May 2005). "Otic barotrauma from air travel". J Laryngol Otol. 119 (5): 366–70. doi:10.1258/0022215053945723. PMID 15949100. S2CID 45256115.
  11. ^ Green SM; Rothrock SG; Green EA= (October 1993). "Tympanometric evaluation of middle ear barotrauma during recreational scuba diving". Int J Sports Med. 14 (7): 411–5. doi:10.1055/s-2007-1021201. PMID 8244609.
  12. ^ Fields JD, McKeag DB, Turner JL (February 2008). "Traumatic tympanic membrane rupture in a mixed martial arts competition". Current Sports Med Rep. 7 (1): 10–11. doi:10.1097/01.CSMR.0000308672.53182.3b. PMID 18296937. S2CID 205388185.
  13. ^ Kristensen S (December 1992). "Spontaneous healing of traumatic tympanic membrane perforations in man: a century of experience". J Laryngol Otol. 106 (12): 1037–50. doi:10.1017/s0022215100121723. PMID 1487657. S2CID 21899785.
  14. ^ Lindeman P, Edström S, Granström G, Jacobsson S, von Sydow C, Westin T, Aberg B (December 1987). "Acute traumatic tympanic membrane perforations. Cover or observe?". Arch Otolaryngol Head Neck Surg. 113 (12): 1285–7. doi:10.1001/archotol.1987.01860120031002. PMID 3675893.
  15. ^ a b Garth RJ (July 1995). "Blast injury of the ear: an overview and guide to management". Injury. 26 (6): 363–6. doi:10.1016/0020-1383(95)00042-8. PMID 7558254.
  16. ^ a b Smith N, Greinwald JR (2011). "To tube or not to tube: indications for myringotomy with tube placement". Current Opinion in Otolaryngology & Head and Neck Surgery. 19 (5): 363–366. doi:10.1097/MOO.0b013e3283499fa8. PMID 21804383. S2CID 3027628.
  17. ^ Langenheim, Johnny (18 September 2010). "The last of the sea nomads". The Guardian. Retrieved 15 February 2016.

External links edit

 
Wikimedia Commons has media related to Eardrum.
  • Diagram at Georgia State University

October 30, 2023
eardrum, other, uses, disambiguation, confused, with, secondary, tympanic, membrane, round, window, anatomy, humans, various, other, tetrapods, eardrum, also, called, tympanic, membrane, myringa, thin, cone, shaped, membrane, that, separates, external, from, m. For other uses see Eardrum disambiguation Not to be confused with the secondary tympanic membrane of the round window In the anatomy of humans and various other tetrapods the eardrum also called the tympanic membrane or myringa is a thin cone shaped membrane that separates the external ear from the middle ear Its function is to transmit sound from the air to the ossicles inside the middle ear and then to the oval window in the fluid filled cochlea Hence it ultimately converts and amplifies vibration in the air to vibration in cochlear fluid 1 The malleus bone bridges the gap between the eardrum and the other ossicles 2 EardrumRight eardrum as seen through a speculumDetailsIdentifiersLatinmembrana tympanica myringaMeSHD014432TA98A15 3 01 052TA26870FMA9595Anatomical terminology edit on Wikidata Rupture or perforation of the eardrum can lead to conductive hearing loss Collapse or retraction of the eardrum can cause conductive hearing loss or cholesteatoma Contents 1 Structure 1 1 Orientation and relations 1 2 Regions 1 3 Umbo 1 4 Nerve supply 2 Clinical significance 2 1 Examination 2 2 Rupture 2 3 Surgical puncture for treatment of middle ear infections 3 Society and culture 4 See also 5 Additional images 6 References 7 External linksStructure editOrientation and relations edit The tympanic membrane is oriented obliquely in the anteroposterior mediolateral and superoinferior planes Consequently its superoposterior end lies lateral to its anteroinferior end citation needed Anatomically it relates superiorly to the middle cranial fossa posteriorly to the ossicles and facial nerve inferiorly to the parotid gland and anteriorly to the temporomandibular joint citation needed Regions edit The eardrum is divided into two general regions the pars flaccida and the pars tensa 3 The relatively fragile pars flaccida lies above the lateral process of the malleus between the notch of Rivinus and the anterior and posterior malleal folds Consisting of two layers and appearing slightly pinkish in hue it is associated with vague Eustachian tube dysfunction and cholesteatomas 4 The larger pars tensa consists of three layers skin fibrous tissue and mucosa Its thick periphery forms a fibrocartilaginous ring called the annulus tympanicus or Gerlach s ligament 5 while the central umbo tents inward at the level of the tip of malleus The middle fibrous layer containing radial circular and parabolic fibers encloses the handle of malleus Though comparatively robust the pars tensa is the region more commonly associated with vague perforations 6 Umbo edit The manubrium Latin handle of the malleus is firmly attached to the medial surface of the membrane as far as its center drawing it toward the tympanic cavity The lateral surface of the membrane is thus concave The most depressed aspect of this concavity is termed the umbo Latin shield boss 7 Nerve supply edit Sensation of the outer surface of the tympanic membrane is supplied mainly by the auriculotemporal nerve a branch of the mandibular nerve cranial nerve V3 with contributions from the auricular branch of the vagus nerve cranial nerve X the facial nerve cranial nerve VII and possibly the glossopharyngeal nerve cranial nerve IX The inner surface of the tympanic membrane is innervated by the glossopharyngeal nerve 8 Clinical significance editExamination edit When the eardrum is illuminated during a medical examination a cone of light radiates from the tip of the malleus to the periphery in the anteroinferior quadrant this is what is known clinically as 5 o clock citation needed Rupture edit Unintentional perforation rupture has been described in blast injuries 9 and air travel typically in patients experiencing upper respiratory congestion or general Eustachian tube dysfunction that prevents equalization of pressure in the middle ear 10 It is also known to occur in swimming diving including scuba diving 11 and martial arts 12 Patients with tympanic membrane rupture may experience bleeding tinnitus hearing loss or disequilibrium vertigo However they rarely require medical intervention as between 80 and 95 percent of ruptures recover completely within two to four weeks 13 14 15 The prognosis becomes more guarded as the force of injury increases 15 Surgical puncture for treatment of middle ear infections edit The pressure of fluid in an infected middle ear onto the eardrum may cause it to rupture Usually this consists of a small hole perforation which allows fluid to drain out If this does not occur naturally a myringotomy tympanotomy tympanostomy can be performed A myringotomy is a surgical procedure in which a tiny incision is created in the eardrum to relieve pressure caused by excessive buildup of fluid or to drain pus from the middle ear The fluid or pus comes from a middle ear infection otitis media which is a common problem in children A tympanostomy tube is inserted into the eardrum to keep the middle ear aerated for a prolonged time and to prevent reaccumulation of fluid Without the insertion of a tube the incision usually heals spontaneously in two to three weeks Depending on the type the tube is either naturally extruded in 6 to 12 months or removed during a minor procedure 16 Those requiring myringotomy usually have an obstructed or dysfunctional eustachian tube that is unable to perform drainage or ventilation in its usual fashion Before the invention of antibiotics myringotomy without tube placement was also used as a major treatment of severe acute otitis media 16 In some cases the pressure of fluid in an infected middle ear is great enough to cause the eardrum to rupture naturally Usually this consists of a small hole perforation from which fluid can drain Society and culture editThe Bajau people of the Pacific intentionally rupture their eardrums at an early age to facilitate diving and hunting at sea Many older Bajau therefore have difficulties hearing 17 See also edit nbsp Wikimedia Commons has media related to Eardrum Middle ear Valsalva maneuver to equalize pressure across the eardrumAdditional images edit nbsp Anatomy of the human right ear Brown is outer ear Red is middle ear Purple is inner ear nbsp External and middle ear right side opened from the front coronal section nbsp Horizontal section through left ear upper half of section nbsp The right membrana tympani with the hammer and the chorda tympani viewed from within from behind and from above nbsp Auditory tube laid open by a cut in its long axis nbsp Chain of ossicles and their ligaments seen from the front in a vertical transverse section of the tympanum tympanic cavity nbsp Right eardrum as seen through a speculum nbsp This is a normal left eardrum nbsp Tympanic membrane viewed by otoscope nbsp The oval perforation in this left tympanic membrane was the result of a slap on the ear nbsp A subtotal perforation of the right tympanic membrane resulting from a previous severe otitis media nbsp A normal human right tympanic membrane eardrum nbsp Frog on leaf showing eardrumReferences edit nbsp This article incorporates text in the public domain from page 1039 of the 20th edition of Gray s Anatomy 1918 Hilal Fathi Liaw Jeffrey Cousins Joseph P Rivera Arnaldo L Nada Ayman 2023 04 01 Autoincudotomy as an uncommon etiology of conductive hearing loss Case report and review of literature Radiology Case Reports 18 4 1461 1465 doi 10 1016 j radcr 2022 10 097 ISSN 1930 0433 PMC 9925837 PMID 36798057 Purves D Augustine G Fitzpatrick D Hall W LaMantia A White L et al eds 2012 Neuroscience Sunderland Sinauer ISBN 9780878936953 Gilberto Nelson Santos Ricardo Sousa Pedro O Neill Assuncao Escada Pedro Pais Diogo August 2019 Pars tensa and tympanicomalleal joint proposal for a new anatomic classification European Archives of Oto Rhino Laryngology 276 8 2141 2148 doi 10 1007 s00405 019 05434 4 PMID 31004197 S2CID 123959777 Jain Shraddha 2019 Role of Eustachian Dysfunction and Primary Sclerotic Mastoid Pneumatisation Pattern in Aetiology of Squamous Chronic Otitis Media A Correlative Study Indian Journal of Otolaryngology and Head and Neck Surgery 71 Suppl 2 1190 1196 doi 10 1007 s12070 018 1259 x PMC 6841851 PMID 31750149 Mansour Salah Magnan Jacques Ahmad Hassan Haidar Nicolas Karen Louryan Stephane 2019 Comprehensive and Clinical Anatomy of the Middle Ear Springer ISBN 9783030153632 Marchioni D Molteni G Presutti L February 2011 Endoscopic Anatomy of the Middle Ear Indian J Otolaryngol Head Neck Surg 63 2 101 13 doi 10 1007 s12070 011 0159 0 PMC 3102170 PMID 22468244 Gray s Anatomy 1918 Drake Richard L A Wade Vogl and Adam Mitchell Gray s Anatomy For Students 3rd ed Philadelphia Churchill Livingstone 2015 Print pg 969 Ritenour AE Wickley A Retinue JS Kriete BR Blackbourne LH Holcomb JB Wade CE February 2008 Tympanic membrane perforation and hearing loss from blast overpressure in Operation Enduring Freedom and Operation Iraqi Freedom wounded J Trauma 64 2 Suppl S174 8 doi 10 1097 ta 0b013e318160773e PMID 18376162 Mirza S Richardson H May 2005 Otic barotrauma from air travel J Laryngol Otol 119 5 366 70 doi 10 1258 0022215053945723 PMID 15949100 S2CID 45256115 Green SM Rothrock SG Green EA October 1993 Tympanometric evaluation of middle ear barotrauma during recreational scuba diving Int J Sports Med 14 7 411 5 doi 10 1055 s 2007 1021201 PMID 8244609 Fields JD McKeag DB Turner JL February 2008 Traumatic tympanic membrane rupture in a mixed martial arts competition Current Sports Med Rep 7 1 10 11 doi 10 1097 01 CSMR 0000308672 53182 3b PMID 18296937 S2CID 205388185 Kristensen S December 1992 Spontaneous healing of traumatic tympanic membrane perforations in man a century of experience J Laryngol Otol 106 12 1037 50 doi 10 1017 s0022215100121723 PMID 1487657 S2CID 21899785 Lindeman P Edstrom S Granstrom G Jacobsson S von Sydow C Westin T Aberg B December 1987 Acute traumatic tympanic membrane perforations Cover or observe Arch Otolaryngol Head Neck Surg 113 12 1285 7 doi 10 1001 archotol 1987 01860120031002 PMID 3675893 a b Garth RJ July 1995 Blast injury of the ear an overview and guide to management Injury 26 6 363 6 doi 10 1016 0020 1383 95 00042 8 PMID 7558254 a b Smith N Greinwald JR 2011 To tube or not to tube indications for myringotomy with tube placement Current Opinion in Otolaryngology amp Head and Neck Surgery 19 5 363 366 doi 10 1097 MOO 0b013e3283499fa8 PMID 21804383 S2CID 3027628 Langenheim Johnny 18 September 2010 The last of the sea nomads The Guardian Retrieved 15 February 2016 External links edit nbsp Wikimedia Commons has media related to Eardrum Diagram at Georgia State University drtbalu s otolaryngology online Portal nbsp Anatomy Retrieved from https en wikipedia org w index php title Eardrum amp oldid 1181715395, wikipedia, wiki, book, books, library,

article

, read, download, free, free download, mp3, video, mp4, 3gp, jpg, jpeg, gif, png, picture, music, song, movie, book, game, games.