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IN THE NAM E OF GOD

IN THE NAM E OF GOD. تشخیص کلینیکی و مراحل مختلف ARMD K.Genab MD. Age-Related Macular Degeneration. Age-related macular degeneration (AMD) is the leading cause of severe central visual acuity loss in 1 or both eyes in people over 50 years of age in the United States .

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IN THE NAM E OF GOD

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  1. IN THE NAM E OF GOD

  2. تشخیص کلینیکی و مراحل مختلف ARMD K.Genab MD

  3. Age-Related MacularDegeneration

  4. Age-related macular degeneration (AMD) is the leading cause of severe central visual acuity loss in 1 or both eyes in people over 50 years of age in the United States.

  5. Prevalence of the disease is roughly 85%-90% nonexudative (dry) AMD and 10%-15% neovascular(wet) AMD.

  6. Photoreceptors are reduced in density and distribution. . Ultrastructural aging changes occur in the pigment epithelium, including loss of melanin granules, formation of lipofuscin granules, and accumulation of residual bodies.

  7. Basal laminar deposits accumulate; these consist of granular lipid-rich material and widely spaced collagen fibers collecting between the basal lamina (plasma membrane) of the RPE cell and the inner aspect of the basement membrane of the RPE (Fig 4-3). . Progressive involutional changes occur in the choriocapillaris.

  8. All of these changes represent aging but may not be part of AMD. Abnormalities associated with AMD that are not necessarily part of normal aging may be classified as nonneovascular or neovascular.

  9. Population-based studies have shown that most patients with AMD have only nonneovascular abnormalities, such as drusen, focal hyperpigmentation, or geographic atrophy (RPE degeneration).

  10. The risk of AMD increases with age. Other risk factors for AMD include positive family history, cigarette smoking, hyperopia,light iris color, hypertension, hypercholesterolemia, female gender, and cardiovascular disease.

  11. Unfortunately, the impact of AMD will continue to increase as the population ages. It is estimated that the number of patients with AMD will increase by 60% by the year 2020.

  12. Genetics and AMD The etiology of AMD remains poorly understood despite the disease's prevalence. However,recentgenetic association studies have revealed allelic variants of genes encoding the alternate complement pathway, particularly CFH (complement factor H). Mutations at chromosome 1q31, HTRAl (a serine protease) at 10q26 (Tyr402His), and a hypothetical gene called LOC387715 (Ala69Ser) at 10q significantly increase a patient's risk of AMD.

  13. The presence of Tyr402His increases the risk of AMD about 5-fold, and Ala69Ser about 7-fold. Together, these 2 genes may explain 75% of the genetic risk of AMD. Another associated locus is mutations at the complement factor B/complement component 2 locus in the major histocompatibility complex (MHC) class III region on 6p21. Although these predisposing loci have been clearly validated in Caucasian populations, they do not seem to infer the same risk in other racial groups.

  14. Nonneovascular Abnormalities in AMD The hallmark of the nonneovascular (nonexudative) form of AMD is drusen; other indicators are abnormalities of the RPE, including geographic atrophy and areas of hyperpigmentation.

  15. Drusen Clinically, drusen are small, round, yellow lesions located at the level of the RPE within the macula (Fig 4-4). Histologically, this material corresponds to the abnormal thickening of the inner aspect of Bruch's membrane shown in Figure 4-3. Ultrastructurally, the material includes basal laminar deposits (granular lipid-rich material and widely spaced collagen fibers) and basal linear deposits (phospholipid vesicles and electron-dense granules within the inner aspect of Bruch's membrane).

  16. It may be recognized as a detachment of the RPE. Whether small or large, these areas of detachment may fill rapidly with fluorescein as the dye leaks out of the choriocapillarisand pools within the area of detached RPE. Because drusen seldom affect the photoreceptors overlying the area of abnormal material, they typically do not cause symptoms. However, some patients may have some minimal photoreceptor loss, causing a reduction in vision or difficulties with dark adaptation.

  17. Drusenhave been categorized as  small (usually <64 µm in diameter)  intermediate (usually 64-124 µm in diameter)  large (usually ~ 125 µm in diameter)

  18. Small drusen are well-defined focal areas of lipidization in the RPE or accumulations of hyaline material in Bruch's membrane. In the Age-Related Eye Disease Study (AREDS), the risk of progression to advanced AMD over a 5-year period for patients with early AMD (many small drusen or few intermediate drusen) was 1.3%. In contrast, the risk in patients with many intermediate or larger drusen was 18%. Patients in the latter group are also more likely to develop RPE abnormalities and geographic atrophy or CNV compared to patients with a few small or medium drusen.

  19. the boundaries of drusen have been described as . hard (discrete and well demarcated) .soft (amorphous and poorly demarcated; see Fig 4-4) . confluent (contiguous boundaries between drusen).

  20. Abnormalities of the RPE Several patterns of RPE abnormalities characterize nonneovascularAMD :  geographic atrophy nongeographicatrophy focal hyperpigmentation

  21. Characteristic abnormalities Spontaneous flattening of RPEdetachments or regression of soft, confluent drusen may lead to attenuation or atrophy of RPE cells. When the area in which the RPE is either absent or attenuated is contiguous, the condition is known as geographic atrophy of the RPE. In areas of geographic atrophy, the underlying choroidalvessels are more readily visible and the overlying outer retina may appear thin (Fig 4-5). Often, the underlying choriocapillaris will be attenuated or atrophied as well. These areas of atrophy can coalesce and enlarge, often ringing the fovea. On FA, geographic atrophy shows a characteristic window defect. If the atrophy does not cover a contiguous area, it may appear as a mottled area of depigmentation called nongeographic atrophy, or RPE degeneration.

  22. Photoreceptors cannot be seen by biomicroscopy, but they are usually attenuated or absent in areas overlying atrophied RPE. Consequently, RPE atrophy in AMD may be associated with visual loss, depending on the extent of the atrophy and its location relative to the foveal center.

  23. Increased pigmentation at the level of the outer retina leads to focalhyperpigmentationof the RPE. On FA, these areas often show blockage. The incidence of focal hyperpigmentation increases with age, and patients with focal clumps of hyperpigmentation are at an increased risk of progressing to the more advanced forms of AMD.

  24. the material that makes up the drusen may begin to disappear, a condition sometimes referred to as regressed drusen. In addition, dystrophic calcification may occur, resulting in pinpoint glistening within the atrophy or remaining drusen material, sometimes called calcified drusen. Furthermore, pigment or pigment-laden cells (either RPEcellsor macrophages that have ingested the pigment) may migrate to the photoreceptor level, resulting in focal clumps or a reticulated pattern of hyperpigmentation.

  25. Fluorescein angiogram patterns of AMD The fluorescein patterns of AMD are varied and can be categorized into hyper- and hypofluorescent lesions: Hyperfluorescent lesions: hard and soft drusen RPE atrophy RPE tear CNV (discussed further later in the chapter) serous PED subretinal fibrosis laser scars Hypofluorescent lesions: . hemorrhage at any level .lipid . pigment proliferation Bressler SB, 00 OV, Bressler NM. Age-related macular degeneration: drusen and geographic atrophy. In: Albert OM, Miller ]W, Azar OT, BlodiBA,eds. Albert &]akobiec'sPrinciplesand Practice of Ophthalmology. 3rd ed. Philadelphia: Saunders; 2008:chap 144.

  26. Differential diagnosis for nonneovascular AMD 1.Central Serous Chorioretionopathy in individuals under 50 years of age. In individuals over 50 years of age, the absence of drusen, mottled RPE atrophy, and/or multiple small serous detachments of the RPE may help differentiate CSC from nonneovascular changes in AMD. 2.Pattern dystrophy of the RPE may include one or more areas of focal pinpoint or reticular hyperpigmentation surrounded by a yellowish abnormality (vitelliform detachment) of the outer retina. Fluorescein angiography depicts early blocked fluorescence with a surrounding zone of hyperfluorescence. 3.Basal laminar, or cuticular, drusen, a clinical syndrome that may be seen in patients in their 30s or 40s, consist of innumerable and homogeneous round small or large drusen, more apparent on angiography ("starry-night" appearance) than on biomicroscopy, often with a vitelliform accumulation of yellow material in the central macula. 4.drug toxicity, such as the mottled hypopigmentation that may develop in chloroquinetoxicity,may resemble nongeographic atrophy(RPE degeneration);a history of specific drug ingestion and lack of largdrusen may help to differentiate these abnormalities from AMD.

  27. Neovascular AMD The hallmark of the neovascular form of AMD is the presence of CNV .Any disturbance of Bruch's membrane, such as the presence of drusen, thickening of the inner aspect, or conditions similar to the nonneovascular changes associated with AMD, can increase the likelihood that a break will occur, allowing buds of neovascular tissue from the choriocapillaris to perforate the outer aspect of Bruch's membrane. These new vessels are accompanied by fibroblasts, resulting in a fibrovascular complex that proliferates within the inner aspect of Bruch's membrane (Fig 4-6). This fibrovascular complex can disrupt and destroy the normal architecture of the choriocapillaris, Bruch's membrane, and the RPE.

  28. Choroidalneovascularization Symptom of CNV .Fairly sudden,decrease in visual acuity .central metamorphopsia. .Or a relative central scotoma. Signs of CNV may include . the presence of subretinal fluid . subretinal or sub-pigment epithelial blood . subretinal or intraretinallipid . subretinal pigment ring . irregular elevation of the pigment epithelium .subretinal gray-white lesion . cystoid macular edema . a sea fan pattern of subretinal small vessels

  29. Signs and symptoms of neovascular AMD Patients who develop neovascular AMD complain of the sudden onset of decreased vision, metamorphopsia, and paracentralscotomata. Clinically, there may be elevation of the RPE; subretinal or intraretinallipid, fluid, or blood; PED; and retinal pigment epithelial tears; occasionally, the gray-green CNV lesion itself is seen. The presence of an intraretinal hemorrhage may be an early sign of a retinal angiomatous proliferation (RAP) lesion,with flow from the retinal circulation connecting to the CNY.

  30. Fluorescein angiography is the gold standard for diagnosing CNV. In cases with overlying blood or occult CNV, ICG angiography offers clues to help in the decision-making process.

  31. CNV is an ingrowth of new vessels from the choriocapillaris through a break in the outer aspect of Bruch's membrane into the sub-pigment epithelial space (Fig 4-7). Within this space, the CNV can leak fluid and blood and may be accompanied by a serous or hemorrhagic detachment of the RPE.

  32. The blood may resorb, dissect under the retina, or, rarely,break into the vitreous cavity. In addition to vascularization from the choroid, fibrous tissue may grow within Bruch's membrane, possibly accompanied by either fibrovascular or fibrocellular tissue between the neurosensory retina and the RPE. Ultimately, this process results in a disciformfibrovascular scar that replaces the normal architecture of the outer retina and leads to permanent loss of central vision.

  33. Fluorescein angiogram patterns of CNV Fluorescein patterns of CNV vary because the CNV lesion may be a complex of several lesion components that may include classic CNV, occult CNV, and features that may obscure CNV. Two major patterns of CNV are seen on FA: 1. classic CNV 2. occult CNV

  34. Classic CNV is an area of bright, fairly uniform hyperfluorescence identified in the early phase of the angiogram that progressively intensifies throughout the transit phase, with leakage of dye obscuring the boundaries of this area by the late phases of the angiogram

  35. Occult CNV consists of 2 forms: 1. fibrovascular PED 2. late leakage from an undetermined source

  36. ضمن عرض پوزش بدلیل حجم بالای LECTUER ادامه اسلایدها امکان پذیر نمیباشد در صورت نیاز به ادامه لطفا به واحد سمعی و بصری مرکز آموزشی درمانی فیض مراجعه و یا با شماره تلفن 03114476010 داخلی 392تماس حاصل نمائید با تشکر

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