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Otosclerosis
ICD-10 H80
ICD-9 387
OMIM 166800 605727
DiseasesDB 29289
MedlinePlus {{{MedlinePlus}}}
eMedicine article/994891 article/859760
MeSH {{{MeshNumber}}}


Otosclerosis is an ear disorder, an abnormal growth of bone near the middle ear. It can result in hearing loss.[1]

Clinical descriptionEdit

Otosclerosis can result in conductive and/or sensorineural hearing loss. This usually will begin in one ear but will eventually affect both ears with a variable course. On audiometry, the hearing loss is characteristically low-frequency, with higher frequencies being affected later. Sensorineural hearing loss (SNHL) has also been noted in patients with otosclerosis; this is usually a high-frequency loss, and usually manifests late in the disease.

Approximately 0.5% of the population will eventually be diagnosed with otosclerosis. Post mortem studies show that as many as 10% of people may have otosclerotic lesions of their temporal bone, but apparently never had symptoms warranting a diagnosis. Caucasians are the most affected race, with the prevalence in the Black and Asian populations being much lower. In clinical practice otosclerosis is encountered about twice as frequently in females as in males, but this does not reflect the true sex ratio. When families are investigated it is found that the condition is only slightly more common in women.[2] Usually noticeable hearing loss begins at middle-age, but can start much sooner. The hearing loss was believed to grow worse during pregnancy;[3] but research shows that neither pregnancy nor breastfeeding may aggravate otosclerosis. [4]

The disease can be considered to be heritable, but its penetrance and the degree of expression is so highly variable that it may be difficult to detect an inheritance pattern. Most of the implicated genes are transmitted in an autosomal dominant fashion. One genome-wide analysis associates otosclerosis with variation in RELN gene.[5]

Loci include:

Name OMIM Locus
OTSC1 166800 15q26.1
OTSC2 605727 7q
OTSC3 608244 6p
OTSC4 611571 16q
OTSC5 608787 3q22-q24
OTSC7 611572 6q13
OTSC8 612096 9p13.1-q21.11

PathophysiologyEdit

The pathophysiology of otosclerosis is complex. The key lesions of otosclerosis are multifocal areas of sclerosis within the endochondral temporal bone. These lesions share some characteristics with Paget’s Disease, but they are not thought to be otherwise related. Histopathologic studies have all been done on cadaveric temporal bones, so only inferences can be made about progression of the disease histologically. This being said, it seems that the lesions go through an active “spongiotic” / hypervascular phase before developing into “sclerotic” phase lesions. There have been many genes and proteins identified that, when mutated, may lead to these lesions. Also there is mounting evidence that measles virus is present within the otosclerotic foci, implicating an infectious etiology (this has also been noted in Paget’s Disease).

CHL in otosclerosis is caused by two main sites of involvement of the sclerotic (or scar-like) lesions. The best understood mechanism is fixation of the stapes footplate to the oval window of the cochlea. This greatly impairs movement of the stapes and therefore transmission of sound into the inner ear (“ossicular coupling”). Additionally the cochlea’s round window can also become sclerotic, and in a similar way impair movement of sound pressure waves through the inner ear (“acoustic coupling”).

SNHL in otosclerosis is controversial. Over the past century, leading otologists and neurotologic researchers have argued whether the finding of SNHL late in the course of otosclerosis is due to otosclerosis or simply to typical presbycusis. There are certainly a few well documented instances of sclerotic lesions directly obliterating sensory structures within the cochlea and spiral ligament, which have been photographed and reported post-mortem. Other supporting data includes a consistent loss of cochlear hair cells in patients with otosclerosis; these cells being the chief sensory organs of sound reception. A suggested mechanism for this is the release of hydrolytic enzymes into the inner ear structures by the spongiotic lesions.

DiagnosisEdit

Otosclerosis is traditionally diagnosed by characteristic clinical findings, which include progressive conductive hearing loss, a normal tympanic membrane, and no evidence of middle ear inflammation. The cochlear promontory may have a faint pink tinge reflecting the vascularity of the lesion, referred to as the Schwartze sign. Conductive hearing loss is usually secondary to impingement of abnormal bone on the stapes footplate. This involvement of the oval window forms the basis of the name fenestral otosclerosis. The most common location of involvement of otosclerosis is the bone just anterior to the oval window at a small cleft known as the fissula ante fenestram. The fissula is a thin fold of connective tissue extending through the endochondral layer, approximately between the oval window and the cochleariform process, where the tensor tympani tendon turns laterally toward the malleus.

Imaging is usually not pursued in those with uncomplicated conductive hearing loss and characteristic clinical findings. Those with only conductive hearing loss are often treated medically or with surgery without imaging. The diagnosis may be unclear clinically in cases of sensorineural or mixed hearing loss and may become apparent only on imaging. Therefore, imaging is often performed when the hearing loss is sensorineural or mixed. The mechanism of sensorineural hearing loss in otosclerosis is less well understood. It may result from direct injury to the cochlea and spiral ligament from the lytic process or from release of proteolytic enzymes into the cochlea.

High-resolution CT shows very subtle bone findings. It is the imaging technique of choice particularly with the advent of better and higher-resolution CT techniques.

Otosclerosis on CT can be graded using the grading system suggested by Symons and Fanning.[6] Grade 1, solely fenestral; grade 2, patchy localized cochlear disease (with or without fenestral involvement) to either the basal cochlear turn (grade 2A), or the middle/apical turns (grade 2B), or both the basal turn and the middle/apical turns (grade 2C); and grade 3, diffuse confluent cochlear involvement (with or without fenestral involvement).

TreatmentEdit

Treatment of otosclerosis relies on two primary options: hearing aids (more recently including bone-conduction hearing aids) and a surgery called a stapedectomy. Hearing aids are usually very effective early in the course of the disease, but eventually a stapedectomy may be required for definitive treatment. Early attempts at hearing restoration via the simple freeing the stapes from its sclerotic attachments to the oval window were met with temporary improvement in hearing, but the conductive hearing loss would almost always recur. A stapedectomy consists of removing a portion of the sclerotic stapes footplate and replacing it with an implant that is secured to the incus. This procedure restores continuity of ossicular movement and allows transmission of sound waves from the eardrum to the inner ear. A modern variant of this surgery called a stapedotomy, is performed by drilling a small hole in the stapes footplate with a micro-drill or a laser, and the insertion of a piston-like prothesis. The success rate of either a stapedotomy or a stapedectomy depends greatly on the skill and the familiarity with the procedure of the surgeon.[7]

Other less successful treatment includes fluoride administration, which theoretically becomes incorporated into bone and inhibits otosclerotic progression. This treatment cannot reverse conductive hearing loss, but may slow the progression of both the conductive and sensorineural components of the disease process. Recently, some success has been reported with bisphosphonate medications, that inhibit bone destruction.[8][9][10]. There are numerous side-effects to these Medical treatments, including occasional stomach upset, allergic itching, and increased joint pains which can lead to arthritis. [11]

Famous patientsEdit

The renowned German composer Beethoven was theorized to suffer from otosclerosis, although this is controversial.[12] Victorian journalist Harriet Martineau gradually lost her hearing during her young life, and later medical historians have diagnosed her with probably suffering from otosclerosis as well.[13] Howard Hughes the pioneering American aviator, engineer, industrialist, and film producer also suffered from otosclerosis.[14] Frankie Valli, lead singer of The Four Seasons, suffered from it in the 1970s, forcing him to "sing from memory" in the latter part of the decade (surgery restored most of his hearing by 1980).[15]

References in popular cultureEdit

During the first three seasons of the CBS TV series CSI: Crime Scene Investigation, Gil Grissom suffered from otosclerosis, which he inherited from his mother. At the end of the show's third season, Grissom underwent a stapedectomy to correct it.

New player for the Philadelphia Flyers in the 07-08 season, Steve Downie, suffers from otosclerosis.

Dwayne Schneider, the building superintendent on "One Day at a Time", undergoes a stapedectomy to correct otosclerosis in one episode.

ReferencesEdit

  1. Template:DorlandsDict
  2. Morrison AW (1970) Otosclerosis: a synopsis of natural history and management. British medical journal 2(5705):345-348.
  3. De Souza, Christopher. Otosclerosis and Stapedectomy. New York: Thieme Medical Publishers, 2004.
  4. Lippy WH, Berenholz LP, Schuring AG, Burkey JM (October 2005). Does pregnancy affect otosclerosis?. Laryngoscope 115 (10): 1833.
  5. Schrauwen I, Ealy M, Huentelman MJ, Thys M, Homer N, Vanderstraeten K, Fransen E, Corneveaux JJ, Craig DW, Claustres M, Cremers CW, Dhooge I, Van de Heyning P, Vincent R, Offeciers E, Smith RJ, Van Camp G (February 2009). A Genome-wide Analysis Identifies Genetic Variants in the RELN Gene Associated with Otosclerosis. Am. J. Hum. Genet. 84: 328.
  6. Lee TC, Aviv RI, Chen JM, Nedzelski JM, Fox AJ, Symons SP: CT grading of otosclerosis. American Journal of Neuroradiology, 2009 August, 30(7):1435-1439. Epub 2009 March 25.
  7. de Souza; Glassock (2004), Otosclerosis and Stapedectomy, New York, NY: Thieme, ISBN 1588901696 
  8. Brookler K (2008). Medical treatment of otosclerosis: rationale for use of bisphosphonates. Int Tinnitus J 14 (2): 92–6.
  9. http://www.freshpatents.com/-dt20090716ptan20090181108.php?type=description
  10. http://books.google.com/books?id=9s7RQ74WgikC&pg=PA65&lpg=PA65&dq=Biphosphonate+otosclerosis&source=bl&ots=FW3U7hq0wr&sig=SLAZ4zS1Fo8NRCslUlH8wJIY8kE&hl=ru&ei=PA8dS9v8GJrImgOVyZHZAw&sa=X&oi=book_result&ct=result&resnum=1&ved=0CAoQ6AEwAA#v=onepage&q=Biphosphonate%20otosclerosis&f=false
  11. Otosclerosis at the American Hearing Research Foundation Chicago, Illinois 2008.
  12. The Ludwig van Beethoven biography, http://www.kunstderfuge.com/bios/beethoven.html
  13. Mary Jo Deegan, "Making Lemonade: Harriet Martineau on Being Deaf, p. 41-58 in Harriet Martineau: Theoretical and Methodological Perspectives, NY, NY: Routledge 2001
  14. Charles Higham, Howard Hughes: The Secret Life
  15. Fred Bronson, The Billboard Book of Number One Hits (3rd edition), Billboard Books 1992. ISBN 0-8230-8298-0

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