Tumours of the Choroid

Last updated by Peer reviewed by Dr Krishna Vakharia
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The choroid is the pigmented, highly vascular layer of the globe lying between the sclera (on the outside) and the retina (on the inside). It is one of the three components of the uveal tract and is shaped a little like the body of a rounded wine glass.

The optic nerve emerges at its base and the other two components of the uveal tract sit anteriorly: the ciliary body lies around the rim and the iris stretches over the opening.

The choroid is made up of three layers, each of which can be affected by disease processes. There is the external vessel layer, the capillary layer and the internal sheet-like Bruch's membrane.

The main function of the choroid is to nourish the outer layers of the retina but it is also thought to regulate retinal heat, to assist in the control of intraocular pressure, and the pigment absorbs excess light so avoiding reflection.

See the separate article on Choroidal Melanoma.

Choroidal naevi are similar to naevi present in other parts of the body and are probably present at birth, growing mainly in childhood and rarely beyond puberty.

  • Epidemiology - choroidal naevi are present in about 5% of the general population - most commonly, in people with dark features.
  • Presentation - choroidal naevi tend to be incidental findings. Very occasionally, they may be associated with a retinal detachment and therefore present with symptoms characteristic of this, such as floaters, flashes and visual field defects.[2]
  • Investigations - if a choroidal naevi looks suspicious or is thought to have grown during adulthood, then it must be investigated as for a melanoma (see article on Choroidal Melanoma).
  • Treatment - typical choroidal naevi do not require any intervention but suspicious lesions are monitored every 3-6 months initially (later every 9-12 months). Fundus photographs are helpful in monitoring changes. Photodynamic therapy has been shown to be effective where the naevus is associated with a retinal detachment.[2]
  • Prognosis - choroidal naevi are mostly harmless although a small proportion may be associated with a mild visual loss over many years.[3]

Choroidal haemangioma are uncommon benign vascular tumours of the choroid that can be circumscribed or diffuse. Circumscribed tumours occur sporadically, without any associated local or systemic anomalies.

Diffuse choroidal haemangiomas generally occur as a part of the Sturge-Weber syndrome.[5]

They may be stationary or fast-growing. Choroidal haemangioma only cause problems when they are located near to the macula (or grow over it) or when they leak, so causing a retinal detachment.

  • Presentation - circumscribed choroidal haemangiomas are usually diagnosed between the second to fourth decade of life when they cause visual disturbances as a result of an exudative retinal detachment. Diffuse choroidal haemangiomas are usually evident at birth.[5]
  • Investigations - ultrasound scan, fluorescein angiography, MRI.[6]
  • Treatment - photodynamic therapy has been used with some success;[7] thermotherapy and radiotherapy are other treatment options. One study showed similar if not better anatomic and visual acuity results for photodynamic therapy compared with thermal laser photocoagulation when treating symptomatic circumscribed choroidal haemangioma.[8]
  • Prognosis - visual acuity drops to <6/12 in about 50% of cases (often to 6/60). Treatment is often but not always effective in improving visual acuity.[8]

The choroid is the most common ocular site for metastatic disease, owing to abundant vascular supply. The primary cancers that most commonly lead to choroidal metastases include breast cancer (40-47%) and lung cancer (21-29%).

  • Epidemiology - they occur in 2-7% of patients with metastatic cancer. Metastases from breast cancer and lung cancer are particularly common. Other recognised cancers include prostate cancer, gastrointestinal tract cancers, the kidney cancers, skin cancers and leukaemia.
  • Presentation - decreased visual acuity (the most common presentation) and, occasionally, diplopia, photophobia, blepharitis, pain, secondary glaucoma, exophthalmos and a detached retina may occur. It may be an incidental finding.
  • Investigations - ultrasound scan, fluorescein angiography, biopsy and systemic investigations (blood tests and imaging).
  • Treatment: options include:
    • Observation if poor systemic status or those with resolved or asymptomatic disease.
    • Systemic chemotherapy, immunotherapy, hormone therapy, or whole eye radiotherapy if the metastases are active, multifocal and bilateral.
    • Plaque radiotherapy, transpupillary radiotherapy, or photodynamic therapy for active, solitary metastasis.
    • Enucleation for those with blind painful eye.
  • Prognosis - this depends on the underlying cancer.

Choroidal osseous choristoma is a rare, slow-growing benign tumour which progressively calcifies and ossifies. It occurs in both eyes in about 25% of cases with asymmetrical disease progression. Visual impairment occurs as a result of the damage to the retina overlying the lesion.

  • Epidemiology - 90% of the patients affected are young women.
  • Presentation - gradual visual impairment in the second to third decade of life.
  • Investigations - ultrasound scan, fluorescein angiography.
  • Treatment - the tumour itself does not need treatment but associated overlying retinal changes may require laser treatment.
  • Prognosis - this depends on the site of the lesion: if it lies over the macula, it can be sight-threatening.
  • Melanocytoma is a deeply pigmented variant of melanocytic naevus that classically occurs in the optic disc, sometimes with involvement of the adjacent retina or choroid.
  • In rare instance, it can induce severe visual loss due to spontaneous necrosis of the lesion or compressive optic neuropathy. It can also exhibit malignant transformation into melanoma in 1-2% of cases.
  • The more common problem with these tumours is local growth affecting adjacent tissues. This can produce afferent pupillary defects (30%), subretinal fluid (10%) and an enlarged blind spot (75%).
  • There are few treatment options available in the event of growth but enucleation may need to be considered for extreme growth. These lesions must be monitored for malignant transformation.

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Further reading and references

  1. Kaur G, Anthony SA; Multimodal imaging of suspicious choroidal neoplasms in a primary eye-care clinic. Clin Exp Optom. 2017 Nov100(6):549-562. doi: 10.1111/cxo.12537. Epub 2017 Mar 28.

  2. Rundle P, Rennie I; Management of symptomatic choroidal naevi with photodynamic therapy. Eye. 2007 Dec21(12):1531-3. Epub 2006 Oct 6.

  3. Shields CL, Furuta M, Mashayekhi A, et al; Visual acuity in 3422 consecutive eyes with choroidal nevus. Arch Ophthalmol. 2007 Nov125(11):1501-7.

  4. Turell ME, Singh AD; Vascular tumors of the retina and choroid: diagnosis and treatment. Middle East Afr J Ophthalmol. 2010 Jul17(3):191-200. doi: 10.4103/0974-9233.65486.

  5. Singh AD, Kaiser PK, Sears JE; Choroidal hemangioma. Ophthalmol Clin North Am. 2005 Mar18(1):151-61, ix.

  6. Mashayekhi A, Shields CL; Circumscribed choroidal hemangioma. Curr Opin Ophthalmol. 2003 Jun14(3):142-9.

  7. Madreperla S; Choroidal haemangioma treated with photodynamic therapy using verteporfin. Archives of Ophthalmology 2001 119

  8. Scott IU, Gorscak J, Gass JD, et al; Anatomic and visual acuity outcomes following thermal laser photocoagulation or Ophthalmic Surg Lasers Imaging. 2004 Jul-Aug35(4):281-91.

  9. Arepalli S, Kaliki S, Shields CL; Choroidal metastases: origin, features, and therapy. Indian J Ophthalmol. 2015 Feb63(2):122-7. doi: 10.4103/0301-4738.154380.

  10. Verma L, Venkatesh P, Lakshmaiah NC et al.; Osseous choristoma of the choroid. Indian Journal of Ophthalmology 2000 48 (2), Pp135-7.

  11. Shields JA, Demirci H, Mashayekhi A, et al; Melanocytoma of the optic disk: A review. Indian J Ophthalmol. 2019 Dec67(12):1949-1958. doi: 10.4103/ijo.IJO_2039_19.

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