Difference between revisions of "Staphyloma"

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==Epidemiology: [2]==
 
==Epidemiology: [2]==
 
Up to 9% of Asian and 2% of White population in the United States have pathologic myopia, which increases their likelihood of having concurrent staphyloma.  
 
Up to 9% of Asian and 2% of White population in the United States have pathologic myopia, which increases their likelihood of having concurrent staphyloma.  
Risk Factors & Associated Conditions: [1,2,3]
 
Patients with pathologic myopia are at increased risk for staphylomas. Up to 50% of patients with pathologic myopia are reported to have a staphyloma. The definition of pathologic myopia has been updated to include the presence of a posterior staphyloma. Though, it is important to note that not all patients with myopia develop a staphyloma. Staphylomas are associated with other macular complications related to myopia, such as choroidal neovascularization, retinoschisis, and glaucomatous optic neuropathy. In the non-myopic eye, staphylomas can be seen as a response to trauma or infection, and rarely, surgery. Congenital disease associations include any condition causing defects in Bruch’s membrane, such as retinitis pigmentosa, Aalport’s syndrome, pseudoxanthoma elasticum, and tilted-disc syndrome.
 
Pathophysiology: [1]
 
The etiology of the formation of staphylomas are unclear, however there is postulation that local choroidal factors and a decreased resistance of the sclera leading to a protruding Bruch’s membrane can result in staphylomas. Myopic eyes have increased elasticity due to its longer axial length, which causes it to expand and gradually thin to form these outpouchings. Secondary etiologies such as trauma or infection can disrupt the structure of the sclera, placing the injured region at risk for subsequent scleral thinning, to eventual development of staphyloma.
 
Diagnosis:
 
Symptoms: [7, 10]
 
Staphylomas often present in highly myopic patients. Presenting symptoms of staphyomals include significantly worsening of vision in previously myopic patients. Severe staphylomas may also present in patients as an enlarged and protruding eye.
 
Physical Exam: [8]
 
Posterior staphylomas will present as a crescentic shadow located 2-3 disk diameters from the optic nerve. There will be alterations is retinal vessels in the identified area.
 
Diagnostic Procedures: [1,5]
 
Diagnosis is made clinically through direct observation, via the indirect ophthalmoscope. It is accompanied by an OCT, which allows clinicians to examine the curvature and scope of the staphyloma. Recent advances in OCT have enabled clinicians to observe the fundus in more detail. Researchers in Japan recommend using swept-source OCT, which can obtain images of deeper tissues, such as the choroid, sclera, and optic nerve, to capture staphylomas that are often missed by current technology. In certain situations, either a CT scan or MRI may be applied to visualize the posterior extent of the staphyloma. Though some have proposed using 3D MRI images, its use is limited in cases where the staphyloma is located peripapillary or is slight and narrow in nature.
 
Classification: [1,6]
 
  
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== Risk Factors & Associated Conditions: [1,2,3]== ==
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 +
== Patients with pathologic myopia are at increased risk for staphylomas. Up to 50% of patients with pathologic myopia are reported to have a staphyloma. The definition of pathologic myopia has been updated to include the presence of a posterior staphyloma. Though, it is important to note that not all patients with myopia develop a staphyloma. Staphylomas are associated with other macular complications related to myopia, such as choroidal neovascularization, retinoschisis, and glaucomatous optic neuropathy. In the non-myopic eye, staphylomas can be seen as a response to trauma or infection, and rarely, surgery. Congenital disease associations include any condition causing defects in Bruch’s membrane, such as retinitis pigmentosa, Aalport’s syndrome, pseudoxanthoma elasticum, and tilted-disc syndrome. ==Pathophysiology: [1]==The etiology of the formation of staphylomas are unclear, however there is postulation that local choroidal factors and a decreased resistance of the sclera leading to a protruding Bruch’s membrane can result in staphylomas. Myopic eyes have increased elasticity due to its longer axial length, which causes it to expand and gradually thin to form these outpouchings. Secondary etiologies such as trauma or infection can disrupt the structure of the sclera, placing the injured region at risk for subsequent scleral thinning, to eventual development of staphyloma. Diagnosis: Symptoms: [7, 10] Staphylomas often present in highly myopic patients. Presenting symptoms of staphyomals include significantly worsening of vision in previously myopic patients. Severe staphylomas may also present in patients as an enlarged and protruding eye.  Physical Exam: [8] Posterior staphylomas will present as a crescentic shadow located 2-3 disk diameters from the optic nerve. There will be alterations is retinal vessels in the identified area.  Diagnostic Procedures: [1,5] Diagnosis is made clinically through direct observation, via the indirect ophthalmoscope. It is accompanied by an OCT, which allows clinicians to examine the curvature and scope of the staphyloma. Recent advances in OCT have enabled clinicians to observe the fundus in more detail. Researchers in Japan recommend using swept-source OCT, which can obtain images of deeper tissues, such as the choroid, sclera, and optic nerve, to capture staphylomas that are often missed by current technology. In certain situations, either a CT scan or MRI may be applied to visualize the posterior extent of the staphyloma. Though some have proposed using 3D MRI images, its use is limited in cases where the staphyloma is located peripapillary or is slight and narrow in nature. Classification: [1,6] ==
 
[Image: 2]
 
[Image: 2]
 
Staphylomas were first studied via direct observations of enucleated eyes or in vivo by B-mode echography by Curtin in 1977. He identified ten types of staphyloma, which are composed of five primary and five compound. Compound staphylomas are combinations of primary ones or complex variations of them, usually type I,  
 
Staphylomas were first studied via direct observations of enucleated eyes or in vivo by B-mode echography by Curtin in 1977. He identified ten types of staphyloma, which are composed of five primary and five compound. Compound staphylomas are combinations of primary ones or complex variations of them, usually type I,  

Revision as of 13:55, November 23, 2019


Disease Entity:

Introduction: [1]

A staphyloma is a circumscribed outpouching of the posterior fundus. It is considered a hallmark of pathologic myopia and are among one of the major causes of developing maculopathy. However, it can be present in non-myopic eyes, often acquired secondarily due to infection or trauma. Staphylomas that occur anteriorly are often acquired, while those that are posterior are congenital or due to extreme myopia, located near the optic disc.

Epidemiology: [2]

Up to 9% of Asian and 2% of White population in the United States have pathologic myopia, which increases their likelihood of having concurrent staphyloma.

Risk Factors & Associated Conditions: [1,2,3]==

Patients with pathologic myopia are at increased risk for staphylomas. Up to 50% of patients with pathologic myopia are reported to have a staphyloma. The definition of pathologic myopia has been updated to include the presence of a posterior staphyloma. Though, it is important to note that not all patients with myopia develop a staphyloma. Staphylomas are associated with other macular complications related to myopia, such as choroidal neovascularization, retinoschisis, and glaucomatous optic neuropathy. In the non-myopic eye, staphylomas can be seen as a response to trauma or infection, and rarely, surgery. Congenital disease associations include any condition causing defects in Bruch’s membrane, such as retinitis pigmentosa, Aalport’s syndrome, pseudoxanthoma elasticum, and tilted-disc syndrome. ==Pathophysiology: [1]==The etiology of the formation of staphylomas are unclear, however there is postulation that local choroidal factors and a decreased resistance of the sclera leading to a protruding Bruch’s membrane can result in staphylomas. Myopic eyes have increased elasticity due to its longer axial length, which causes it to expand and gradually thin to form these outpouchings. Secondary etiologies such as trauma or infection can disrupt the structure of the sclera, placing the injured region at risk for subsequent scleral thinning, to eventual development of staphyloma. Diagnosis: Symptoms: [7, 10] Staphylomas often present in highly myopic patients. Presenting symptoms of staphyomals include significantly worsening of vision in previously myopic patients. Severe staphylomas may also present in patients as an enlarged and protruding eye. Physical Exam: [8] Posterior staphylomas will present as a crescentic shadow located 2-3 disk diameters from the optic nerve. There will be alterations is retinal vessels in the identified area. Diagnostic Procedures: [1,5] Diagnosis is made clinically through direct observation, via the indirect ophthalmoscope. It is accompanied by an OCT, which allows clinicians to examine the curvature and scope of the staphyloma. Recent advances in OCT have enabled clinicians to observe the fundus in more detail. Researchers in Japan recommend using swept-source OCT, which can obtain images of deeper tissues, such as the choroid, sclera, and optic nerve, to capture staphylomas that are often missed by current technology. In certain situations, either a CT scan or MRI may be applied to visualize the posterior extent of the staphyloma. Though some have proposed using 3D MRI images, its use is limited in cases where the staphyloma is located peripapillary or is slight and narrow in nature. Classification: [1,6]

[Image: 2] Staphylomas were first studied via direct observations of enucleated eyes or in vivo by B-mode echography by Curtin in 1977. He identified ten types of staphyloma, which are composed of five primary and five compound. Compound staphylomas are combinations of primary ones or complex variations of them, usually type I, Type I: primary, posterior pole Type II: primary, macular area Type III: primary, peripapillary area Type IV: primary, fundus nasal to the disc Type V: primary, area below the disc Type VI: combined, types I and II Type VII: combined, types I and III Type VIII: tiered staphyloma Type IX: septal staphyloma Type X: plicated staphyloma Differential Diagnosis: [1,9,10] Peripapillary atrophy Tilted-disc syndrome Retinochoroidal coloboma Morning glory syndrome Bupothalmus Management: General Treatment:[4] There is currently no gold standard treatment of staphyloma due to a generally unclear pathogenesis. One method of treatment is to monitor progression of the staphyloma. Many do not require treatment and remain stable over time. If there is observed thinning of the sclera, one treatment option is posterior scleral reinforcement (PSR). PSR involves the placement of a graft in the posterior aspect of the fundus to prevent further progression of staphylomas, though this is still a controversial treatment. There is currently no known medical treatment for staphylomas. Prognosis: [1] Prognosis is good for patients with staphyloma, as progression is generally slow. Many do not need treatment and remain unchanged for years.

Additional Resources: https://www.aao.org/eye-health/ask-ophthalmologist-q/staphyloma https://www.aao.org/eye-health/ask-ophthalmologist-q/is-there-any-reliable-treatment-staphyloma https://eyewiki.org/Pathologic_myopia_(myopic_degeneration)

References: Ohno-Matsui K, Jonas JB. Posterior staphyloma in pathologic myopia. Progress in Retinal and Eye Research. 2019;70:99-109. doi:10.1016/j.preteyeres.2018.12.001. Hsiang HW, Ohno-Matsui K, Shimada N, et al. Clinical Characteristics of Posterior Staphyloma in Eyes with Pathologic Myopia. American Journal of Ophthalmology. 2008;146(1). doi:10.1016/j.ajo.2008.03.010. Gliem M, Fimmers R, Müller PL, et al. Choroidal Changes Associated With Bruch Membrane Pathology in Pseudoxanthoma Elasticum. American Journal of Ophthalmology. 2014;158(1). doi:10.1016/j.ajo.2014.04.005. Li XJ, Yang XP, Li QM, W YY, Wang Y, Lyu XB, Jai H. Posterior scleral reinforcement for the treatment of pathological myopia. International Journal of Ophthalmology. 2016; 9(4): 580–584. doi: 10.18240/ijo.2016.04.18 Shinohara K, Moriyama M, Shimada N, Yoshida T, Ohno-Matsui K. Characteristics of Peripapillary Staphylomas Associated With High Myopia Determined by Swept-Source Optical Coherence Tomography. American Journal of Ophthalmology. 2016;169:138-144. doi:10.1016/j.ajo.2016.06.033. Curtin BJ. The posterior staphyloma of pathologic myopia. Trans Am Ophthalmol Soc. 1977;75:67–86. Tanaka N, Shinohara K, Yokoi T, Uramoto K, Takahashi H, Onishi Y, Horie S, Yoshida T, Ohno-Matsui K. Posterior staphylomas and scleral curvature of highly myopic children and adolescents investigated by ultra-widefield optical coherence tomography. PLOS ONE. Published June 10, 2019. https://doi.org/10.1371/journal.pone.0218107. Nema HV, Nema N. (2012) Textbook of Ophthalmology. New Delhi, India:: Jaypee-Highlights Medical Publishers Inc. Case 133 Diagnosis Lisa Burkhart- Kellogg http://kellogg.umich.edu/retinadx/retina_cases/133/diagnosis.html Rawal S, Cruz JP. Case of the Week. American Journal of Neuroradiology. Published August 13, 2015.