ABCA4 p.Lys346Thr
| ClinVar: |
c.1037A>C
,
p.Lys346Thr
?
, not provided
c.1036A>T , p.Lys346* ? , not provided |
| Predicted by SNAP2: | A: D (59%), C: D (63%), D: D (63%), E: D (53%), F: D (63%), G: D (59%), H: N (53%), I: D (53%), L: D (59%), M: D (59%), N: N (61%), P: D (63%), Q: N (57%), R: N (66%), S: N (53%), T: D (71%), V: D (53%), W: D (75%), Y: D (59%), |
| Predicted by PROVEAN: | A: D, C: D, D: D, E: N, F: D, G: D, H: D, I: D, L: D, M: D, N: N, P: D, Q: N, R: N, S: D, T: D, V: D, W: D, Y: D, |
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[hide] Analysis of autofluorescent retinal images and mea... Exp Eye Res. 2010 Aug;91(2):143-52. Epub 2010 Apr 14. Chen B, Tosha C, Gorin MB, Nusinowitz S
Analysis of autofluorescent retinal images and measurement of atrophic lesion growth in Stargardt disease.
Exp Eye Res. 2010 Aug;91(2):143-52. Epub 2010 Apr 14., [PMID:20398653]
Abstract [show]
Current retinal imaging techniques using scanning laser ophthalmoscopy (SLO) provide a powerful mechanism for characterizing the topographical distribution of lipofuscin fluorophores and atrophic lesions (ALs) in retinal disease. In this paper we describe a novel Edge-Flow-Driven Variational Image Segmentation analysis to measure and evaluate progressive change in the area of ALs as well as regions of hyperfluorescence (HF). The algorithm is embedded in a series of almost completely automated image processing steps that allow rapid comparison of serial images. The sensitivity of the methodology to detect change was evaluated by measuring progression of AF lesion size in a cohort of Stargardt Macular Dystrophy (STGD) patients. Fifty-two STGD subjects (mean age = 41.0 +/- 16.6 years, range 9-78 yrs) at varying stages of disease participated in this prospective study. Twenty-four of the 52 subjects presented with atrophic lesions in one or both eyes on first evaluation. For this subgroup of subjects, the mean (+/-1 sd) follow-up time was 2.92 (+0.26) years (range 0.57-3.26 years) and the mean (+/-1 sd) rate of change was found to be approximately 0.94 (+/-0.87) mm(2)/year (range 0.2-2.13 mm(2)/yr). With this methodology, progressive enlargement of AL area was detectable in as little as one year, while regions of HF generally decreased, although there was considerable variability in the appearnce of HF, presumably reflecting the combined effects of the creation or expansion of lipofuscin deposits and resorption and loss associated with retinal cell death. Our findings suggest that this methodology is sufficiently sensitive to detect change and provides a clinically relevant tool to monitor progression not only with regards to natural history, but also to evaluate the efficacy of potential therapeutic interventions in STGD. Finally, we evaluated the association between AL area and measures of rod- and cone-mediated retinal function, as assessed with electroretinography (ERG). In general, the larger the AL, the poorer the ERG response, with a greater impact of lesion size on cone- rather than rod-mediated retinal function, a finding that was expected on the basis of the location and size of the AL and the distribution of rod- and cone-photoreceptors.
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82 ID# Age Years followed Visual Acuity AL Area (mm2 ) HF Area (mm2 ) ffERG Amplitudes (mV) ffERG IT (msec) ABCA4 Variants OD OS OD OS OD OS OD OS OD OS Rod Cone Rod Cone Rod Cone Rod Cone AI AII Group A S0047 53 2.83 20/40 20/40 31.60 33.85 0.20 0.07 304.0 125.4 392.9 143.3 69.5 29.3 72.7 29.3 NF NF S0023 49 3.26 20/160 20/160 9.92 12.67 1.24 1.49 292.1 52.2 272.4 46.4 77.9 36.8 78.3 35.2 L541P/A1038V NF S0050 78 2.71 20/250 20/160 2.02 0.07 1.21 0.67 355.0 82.2 373.1 87.2 76.7 34.1 76.7 34.8 S2255I IVS5,þ1,G > C S0045 44 3.16 20/200 20/160 17.27 44.72 NM NM 177.0 55.7 201.9 50.0 85.3 41.5 87.7 39.9 L541P/A1038V R2107K S0018 35 2.28 20/200 20/250 4.31 2.53 NM NM ND ND ND ND ND ND ND ND G1961E S2255I S0033 63 2.35 20/800 20/400 15.51 12.09 1.30 0.22 168.2 53.0 180.9 45.4 96.3 38.0 101.0 38.4 R943Q IVS8,-9, T > C S0048 62 2.56 20/80 20/20 48.45 40.73 NM NM 119.7 69.5 213.9 54.6 71.2 35.6 80.6 35.2 R290Q K346T S0036 62 2.81 20/640 20/500 55.70 43.38 NM NM 174.8 41.1 158.1 50.8 106.6 38.5 102.3 35.2 R1129L Q234X S0029 62 2.81 20/40 20/80 57.62 61.25 NM NM 219.0 26.0 209.2 35.2 77.9 31.3 73.6 30.9 R2030Q NF S0024 43 3.20 20/25 20/25 4.91 3.91 4.18 1.48 98.2 23.7 148.0 36.2 84.0 33.2 85.5 33.6 NF NF S0078 35 1.17 20/100 20/125 5.64 5.39 0.70 0.83 230.1 106.7 187.6 108.8 71.2 34.1 64.6 34.1 IVS39-10,T > C NF S0032 64 2.56 20/250 20/320 8.67 3.67 0.67 0.74 273.2 75.5 235.1 114.7 87.9 30.5 72.7 30.1 R1108C L2027F S0051 52 1.90 20/25 20/20 32.78 29.23 NM NM ND ND ND ND ND ND ND ND E471K NF S0115 16 0.57 20/50 20/50 0.77 3.43 NM NM ND ND ND ND ND ND ND ND NF NF S0077 49 1.14 20/40 20/25 N/A 8.54 0.16 1.89 279.9 111.9 299.3 105.2 N/A N/A N/A N/A NF NF S0042 43 1.84 20/125 20/200 118.15 126.69 NM NM 122.3 27.7 114.8 29.3 85.7 36.4 89.6 36.0 S2255I E471K S0037 46 2.38 20/125 20/200 8.73 N/A 1.29 0.86 338.7 119.3 373.7 109.4 72.3 28.1 70.7 28.1 G1961E S2255I S0020 42 0.0 20/200 20/160 1.16 1.82 NM NM 140.4 43.2 159.9 45.8 81.3 31.3 71.5 29.3 NF NF S0041 44 0.0 20/200 20/160 4.73 7.09 0.96 1.36 260.5 65* 297.2 95.3 113.7 29.7 91.8 28.9 R1129L NF S0087 44 0.0 20/20 20/20 14.89 23.09 NM NM 180.9 66.8 182.2 78.0 76.1 32.9 72.2 32.9 IVS40, þ5,G > A NF S0053 43 0.0 20/100 20/160 1.33 1.85 NM NM ND ND ND ND ND ND ND ND S2255I NF S0097 73 0.0 20/200 20/200 49.21 54.26 NM NM ND ND ND ND ND ND ND ND D1532E NF S0080 28 0.0 20/125 20/200 NA 0.98 0.56 0.03 333.1 117.2 325.1 121.4 80.2 32.5 82.6 32.9 E1122K S2255I S0210 49 0.0 20/160 20/200 0.21 NA NM NM 304.1 76.1 425.7 81.1 72.8 33.7 79.8 33.7 NF NF Group B S0133 30 0.0 20/125 20/32 0.51 0.01 387.1 123.7 374.8 105.1 65.4 32.9 65.0 32.9 NF NF S0046 49 0.0 20/160 20/160 1.48 1.68 491.2 148.9 494.9 145.3 72.7 30.1 77.3 29.7 P1380L G1961E S0141 40 0.0 20/13 20/32 1.88 0.41 389.0 156.5 343.5 150.6 70.8 33.3 69.7 34.4 NF NF S0058 61 0.0 20/50 20/50 1.48 1.52 ND ND ND ND ND ND ND ND NF NF S0149 16 0.0 20/80 20/100 1.59 0.62 285.0 87.4 333.4 115.3 62.6 32.5 61.4 32.5 NF NF S0083 15 0.0 20/13 20/13 0.17 0.48 441.1 144.2 472.0 155.5 74.4 33.3 71.6 33.3 G863A NF S0216 44 0.0 20/25 20/32 0.52 1.04 228.7 97.7 192.7 75.3 83.8 36.8 85.7 36.0 NF NF S0076 9 0.0 20/200 20/160 3.70 4.23 557.7 139.5 319.8 117.3 81.6 29.7 73.4 28.9 W1408R T1526M S0021 19 0.0 20/160 20/160 1.81 1.08 390.4 202.1 ND ND 63.3 29.3 ND ND L2027F W31R S0085 35 0.0 20/16 20/20 2.70 2.56 ND ND ND ND ND ND ND ND C54T R219T S0044 30 0.0 20/250 20/250 4.23 3.77 ND ND ND ND ND ND ND ND A1794D L2027F S0035 47 0.0 20/160 20/125 0.46 0.13 239.6 112.3 325.0 141.6 64.1 28.1 62.5 28.1 G863A E471K S0065 61 0.0 20/100 20/125 0.83 0.15 243.4 58.6 226.5 49.2 74.8 32.9 84.5 33.3 G1961E NF S0213 27 0.0 20/25 20/25 0.99 1.03 384.2 124.4 424.4 137.9 72.4 31.7 72.4 35.2 NF NF S0088 55 0.0 20/25 20/20 0.11 0.47 ND ND ND ND ND ND ND ND R1898H NF S0127 16 0.0 20/63 20/63 0.08 0.69 536.3 128.9 470.3 136.4 65.4 30.9 77.1 30.9 L541P/A1038V NF S0057 47 0.48 20/125 20/160 1.20 1.75 252.1 80.3 210.5 100.5 75.5 32.9 89.6 32.5 NF NF S0043 53 2.91 20/200 20/200 0.97 0.53 250.5 173.2 354.6 179.2 72.7 28.5 80.1 30.1 G1961E F873I S0101 37 1.1 20/40 20/20 0.14 0.25 382.2 159.7 422.7 156.7 70.5 32.5 74.0 32.9 A1038V IVS42 þ 1,G > A S0027 17 2.18 20/50 20/50 1.60 2.12 196.3 36.3 198.0 51.0 84.7 32.9 98.8 35.3 NF NF S0104 20 1.19 20/160 20/200 0.05 0.12 237.4 77.7 440.1 88.7 63.0 30.9 64.6 30.1 NF NF S0110 26 1.02 20/200 20/125 0.65 0.56 333.8 94.5 349.4 98.7 68.9 32.1 68.9 32.5 R1129L NF S0049 34 2.13 20/50 20/200 0.76 0.92 374.4 97.2 344.0 90.5 81.0 32.9 65.8 33.7 R1129L NF S0075 22 1.06 20/63 20/125 0.40 0.69 454.5 114.0 452.7 122.8 77.5 32.1 75.5 32.9 G1961E NF S0039 36 2.2 20/160 20/100 0.15 0.13 347.7 137.1 395.8 142.0 80.1 31.3 61.7 30.9 M1V R2107H S0054 31 1.93 20/40 20/40 0.41 0.56 ND ND ND ND ND ND ND ND G1961E S2255I S0040 11 2.97 20/160 20/160 0.46 0.07 610.2 72.5 375.6 67.4 106.5 37.2 93.5 32.9 R572X N1805D S0028 54 2.73 20/16 20/16 1.04 1.54 425.5 105.8 386.3 107.8 83.4 34.4 84.1 34.8 L541P/A1038V R2030Q ND ¼ not done.
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ABCA4 p.Lys346Thr 20398653:82:918
status: NEW81 ID# Age Years followed Visual Acuity AL Area (mm2 ) HF Area (mm2 ) ffERG Amplitudes (mV) ffERG IT (msec) ABCA4 Variants OD OS OD OS OD OS OD OS OD OS Rod Cone Rod Cone Rod Cone Rod Cone AI AII Group A S0047 53 2.83 20/40 20/40 31.60 33.85 0.20 0.07 304.0 125.4 392.9 143.3 69.5 29.3 72.7 29.3 NF NF S0023 49 3.26 20/160 20/160 9.92 12.67 1.24 1.49 292.1 52.2 272.4 46.4 77.9 36.8 78.3 35.2 L541P/A1038V NF S0050 78 2.71 20/250 20/160 2.02 0.07 1.21 0.67 355.0 82.2 373.1 87.2 76.7 34.1 76.7 34.8 S2255I IVS5,&#fe;1,G > C S0045 44 3.16 20/200 20/160 17.27 44.72 NM NM 177.0 55.7 201.9 50.0 85.3 41.5 87.7 39.9 L541P/A1038V R2107K S0018 35 2.28 20/200 20/250 4.31 2.53 NM NM ND ND ND ND ND ND ND ND G1961E S2255I S0033 63 2.35 20/800 20/400 15.51 12.09 1.30 0.22 168.2 53.0 180.9 45.4 96.3 38.0 101.0 38.4 R943Q IVS8,-9, T > C S0048 62 2.56 20/80 20/20 48.45 40.73 NM NM 119.7 69.5 213.9 54.6 71.2 35.6 80.6 35.2 R290Q K346T S0036 62 2.81 20/640 20/500 55.70 43.38 NM NM 174.8 41.1 158.1 50.8 106.6 38.5 102.3 35.2 R1129L Q234X S0029 62 2.81 20/40 20/80 57.62 61.25 NM NM 219.0 26.0 209.2 35.2 77.9 31.3 73.6 30.9 R2030Q NF S0024 43 3.20 20/25 20/25 4.91 3.91 4.18 1.48 98.2 23.7 148.0 36.2 84.0 33.2 85.5 33.6 NF NF S0078 35 1.17 20/100 20/125 5.64 5.39 0.70 0.83 230.1 106.7 187.6 108.8 71.2 34.1 64.6 34.1 IVS39-10,T > C NF S0032 64 2.56 20/250 20/320 8.67 3.67 0.67 0.74 273.2 75.5 235.1 114.7 87.9 30.5 72.7 30.1 R1108C L2027F S0051 52 1.90 20/25 20/20 32.78 29.23 NM NM ND ND ND ND ND ND ND ND E471K NF S0115 16 0.57 20/50 20/50 0.77 3.43 NM NM ND ND ND ND ND ND ND ND NF NF S0077 49 1.14 20/40 20/25 N/A 8.54 0.16 1.89 279.9 111.9 299.3 105.2 N/A N/A N/A N/A NF NF S0042 43 1.84 20/125 20/200 118.15 126.69 NM NM 122.3 27.7 114.8 29.3 85.7 36.4 89.6 36.0 S2255I E471K S0037 46 2.38 20/125 20/200 8.73 N/A 1.29 0.86 338.7 119.3 373.7 109.4 72.3 28.1 70.7 28.1 G1961E S2255I S0020 42 0.0 20/200 20/160 1.16 1.82 NM NM 140.4 43.2 159.9 45.8 81.3 31.3 71.5 29.3 NF NF S0041 44 0.0 20/200 20/160 4.73 7.09 0.96 1.36 260.5 65* 297.2 95.3 113.7 29.7 91.8 28.9 R1129L NF S0087 44 0.0 20/20 20/20 14.89 23.09 NM NM 180.9 66.8 182.2 78.0 76.1 32.9 72.2 32.9 IVS40, &#fe;5,G > A NF S0053 43 0.0 20/100 20/160 1.33 1.85 NM NM ND ND ND ND ND ND ND ND S2255I NF S0097 73 0.0 20/200 20/200 49.21 54.26 NM NM ND ND ND ND ND ND ND ND D1532E NF S0080 28 0.0 20/125 20/200 NA 0.98 0.56 0.03 333.1 117.2 325.1 121.4 80.2 32.5 82.6 32.9 E1122K S2255I S0210 49 0.0 20/160 20/200 0.21 NA NM NM 304.1 76.1 425.7 81.1 72.8 33.7 79.8 33.7 NF NF Group B S0133 30 0.0 20/125 20/32 0.51 0.01 387.1 123.7 374.8 105.1 65.4 32.9 65.0 32.9 NF NF S0046 49 0.0 20/160 20/160 1.48 1.68 491.2 148.9 494.9 145.3 72.7 30.1 77.3 29.7 P1380L G1961E S0141 40 0.0 20/13 20/32 1.88 0.41 389.0 156.5 343.5 150.6 70.8 33.3 69.7 34.4 NF NF S0058 61 0.0 20/50 20/50 1.48 1.52 ND ND ND ND ND ND ND ND NF NF S0149 16 0.0 20/80 20/100 1.59 0.62 285.0 87.4 333.4 115.3 62.6 32.5 61.4 32.5 NF NF S0083 15 0.0 20/13 20/13 0.17 0.48 441.1 144.2 472.0 155.5 74.4 33.3 71.6 33.3 G863A NF S0216 44 0.0 20/25 20/32 0.52 1.04 228.7 97.7 192.7 75.3 83.8 36.8 85.7 36.0 NF NF S0076 9 0.0 20/200 20/160 3.70 4.23 557.7 139.5 319.8 117.3 81.6 29.7 73.4 28.9 W1408R T1526M S0021 19 0.0 20/160 20/160 1.81 1.08 390.4 202.1 ND ND 63.3 29.3 ND ND L2027F W31R S0085 35 0.0 20/16 20/20 2.70 2.56 ND ND ND ND ND ND ND ND C54T R219T S0044 30 0.0 20/250 20/250 4.23 3.77 ND ND ND ND ND ND ND ND A1794D L2027F S0035 47 0.0 20/160 20/125 0.46 0.13 239.6 112.3 325.0 141.6 64.1 28.1 62.5 28.1 G863A E471K S0065 61 0.0 20/100 20/125 0.83 0.15 243.4 58.6 226.5 49.2 74.8 32.9 84.5 33.3 G1961E NF S0213 27 0.0 20/25 20/25 0.99 1.03 384.2 124.4 424.4 137.9 72.4 31.7 72.4 35.2 NF NF S0088 55 0.0 20/25 20/20 0.11 0.47 ND ND ND ND ND ND ND ND R1898H NF S0127 16 0.0 20/63 20/63 0.08 0.69 536.3 128.9 470.3 136.4 65.4 30.9 77.1 30.9 L541P/A1038V NF S0057 47 0.48 20/125 20/160 1.20 1.75 252.1 80.3 210.5 100.5 75.5 32.9 89.6 32.5 NF NF S0043 53 2.91 20/200 20/200 0.97 0.53 250.5 173.2 354.6 179.2 72.7 28.5 80.1 30.1 G1961E F873I S0101 37 1.1 20/40 20/20 0.14 0.25 382.2 159.7 422.7 156.7 70.5 32.5 74.0 32.9 A1038V IVS42 &#fe; 1,G > A S0027 17 2.18 20/50 20/50 1.60 2.12 196.3 36.3 198.0 51.0 84.7 32.9 98.8 35.3 NF NF S0104 20 1.19 20/160 20/200 0.05 0.12 237.4 77.7 440.1 88.7 63.0 30.9 64.6 30.1 NF NF S0110 26 1.02 20/200 20/125 0.65 0.56 333.8 94.5 349.4 98.7 68.9 32.1 68.9 32.5 R1129L NF S0049 34 2.13 20/50 20/200 0.76 0.92 374.4 97.2 344.0 90.5 81.0 32.9 65.8 33.7 R1129L NF S0075 22 1.06 20/63 20/125 0.40 0.69 454.5 114.0 452.7 122.8 77.5 32.1 75.5 32.9 G1961E NF S0039 36 2.2 20/160 20/100 0.15 0.13 347.7 137.1 395.8 142.0 80.1 31.3 61.7 30.9 M1V R2107H S0054 31 1.93 20/40 20/40 0.41 0.56 ND ND ND ND ND ND ND ND G1961E S2255I S0040 11 2.97 20/160 20/160 0.46 0.07 610.2 72.5 375.6 67.4 106.5 37.2 93.5 32.9 R572X N1805D S0028 54 2.73 20/16 20/16 1.04 1.54 425.5 105.8 386.3 107.8 83.4 34.4 84.1 34.8 L541P/A1038V R2030Q ND &#bc; not done.
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ABCA4 p.Lys346Thr 20398653:81:917
status: NEW[hide] A comparison of fundus autofluorescence and retina... Invest Ophthalmol Vis Sci. 2009 Aug;50(8):3953-9. Epub 2009 Mar 25. Gomes NL, Greenstein VC, Carlson JN, Tsang SH, Smith RT, Carr RE, Hood DC, Chang S
A comparison of fundus autofluorescence and retinal structure in patients with Stargardt disease.
Invest Ophthalmol Vis Sci. 2009 Aug;50(8):3953-9. Epub 2009 Mar 25., [PMID:19324865]
Abstract [show]
PURPOSE: To improve the understanding of Stargardt disease by comparing structural changes seen on spectral domain optical coherence tomography (SD-OCT) to those visible on fundus autofluorescence (FAF). METHODS: FAF and SD-OCT were performed on 22 eyes of 11 patients with Stargardt disease. SD-OCT images were obtained at the fovea and at the eccentric preferred retinal locus (PRL). The diameters of absent (hypoautofluorescence) and abnormal FAF areas were measured. The extent of the transverse defect of the junction between the inner and outer segments of the photoreceptors (IS-OS) was measured in the foveal area. The PRL was evaluated with fundus photography and microperimetry. RESULTS: Twenty-one of 22 eyes showed defective FAF. In 17 eyes, FAF was absent in the fovea and in four eyes, FAF was abnormal. All eyes showed disorganization and/or loss of the IS-OS junction in the foveal area on SD-OCT. The diameter of the absent FAF area was smaller than the measurement of the IS-OS junction loss; the latter was closer to the diameter of the abnormal FAF area. Seventeen eyes had an eccentric PRL associated with a retinal area with no defects on FAF. CONCLUSIONS: In the majority of eyes, changes shown by SD-OCT correlated well with changes in FAF. However, in three patients, photoreceptor abnormalities were seen in the fovea on SD-OCT without an equivalent abnormality on FAF. This result suggests that in these patients, the structural integrity of the photoreceptors may be affected earlier than changes in the RPE at least as detected by FAF.
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97 Summary of Genetic and Selected Clinical Findings Patient Age Sex Allele 1 Allele 2 Visual Acuity (LogMAR) PRL (Degrees) PRL Location OD OS OD OS OD OS 1 12 M K346T ND 0.7 0.7 5.8 5.9 S S 2 42 M ND ND 1.0 1.0 1.9 2.0 S S 3 31 M G1961E G1961E 0.5 0.5 2.8 1.9 S S 4 56 M P1380L S1696N 0.7 0.7 8.4 8.0 S S 5 23 F L541P/A1038V G1961E 1.0 1.0 0.0 0.0 F F 6 62 F D1532N G1961E 1.3 0.4 3.0 0.0 T F 7 65 F G1961E ND 0.3 1.3 4.0 2.0 S S 8 30 F G1961E ND 0.4 0.4 2.9 3.0 S S 9 24 F P1380L P1380L 0.3 0.3 8.6 8.5 S S 10 15 F L541P/A1038V G1961E 0.0 0.0 0.0 0.0 F F 11 20 F L541P/A1038V ND 0.3 0.4 1.8 2.0 S S ND, not determined; S, superior; F, foveal; T, temporal.
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ABCA4 p.Lys346Thr 19324865:97:159
status: NEW[hide] Clinical and molecular analysis of Stargardt disea... Am J Ophthalmol. 2013 Sep;156(3):487-501.e1. doi: 10.1016/j.ajo.2013.05.003. Fujinami K, Sergouniotis PI, Davidson AE, Wright G, Chana RK, Tsunoda K, Tsubota K, Egan CA, Robson AG, Moore AT, Holder GE, Michaelides M, Webster AR
Clinical and molecular analysis of Stargardt disease with preserved foveal structure and function.
Am J Ophthalmol. 2013 Sep;156(3):487-501.e1. doi: 10.1016/j.ajo.2013.05.003., [PMID:23953153]
Abstract [show]
PURPOSE: To describe a cohort of patients with Stargardt disease who show a foveal-sparing phenotype. DESIGN: Retrospective case series. METHODS: The foveal-sparing phenotype was defined as foveal preservation on autofluorescence imaging, despite a retinopathy otherwise consistent with Stargardt disease. Forty such individuals were ascertained and a full ophthalmic examination was undertaken. Following mutation screening of ABCA4, the molecular findings were compared with those of patients with Stargardt disease but no foveal sparing. RESULTS: The median age of onset and age at examination of 40 patients with the foveal-sparing phenotype were 43.5 and 46.5 years. The median logMAR visual acuity was 0.18. Twenty-two patients (22/40, 55%) had patchy parafoveal atrophy and flecks; 8 (20%) had numerous flecks at the posterior pole without atrophy; 7 (17.5%) had mottled retinal pigment epithelial changes; 2 (5%) had multiple atrophic lesions, extending beyond the arcades; and 1 (2.5%) had a bull's-eye appearance. The median central foveal thickness assessed with spectral-domain optical coherence tomographic images was 183.0 mum (n = 33), with outer retinal tubulation observed in 15 (45%). Twenty-two of 33 subjects (67%) had electrophysiological evidence of macular dysfunction without generalized retinal dysfunction. Disease-causing variants were found in 31 patients (31/40, 78%). There was a higher prevalence of the variant p.Arg2030Gln in the cohort with foveal sparing compared to the group with foveal atrophy (6.45% vs 1.07%). CONCLUSIONS: The distinct clinical and molecular characteristics of patients with the foveal-sparing phenotype are described. The presence of 2 distinct phenotypes of Stargardt disease (foveal sparing and foveal atrophy) suggests that there may be more than 1 disease mechanism in ABCA4 retinopathy.
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141 Allele Frequencies of 72 ABCA4 Variants Identified in a Comparison Groupa With the Typical Stargardt Disease (140 Patients Without Evidence of Foveal Sparing on Autofluorescence Imaging) Exon Nucleotide Substitution and Amino Acid Change Number of Alleles Allele Frequency 2 c.71G>A, p.Arg24His 1 0.36% 2 c.161G>A, p.Cys54Tyr 3 1.07% 3 c.223T>G, p.Cys75Gly 1 0.36% 5 c.455G>A, p.Arg152Gln 1 0.36% 5 c.454C>T, p.Arg152* 1 0.36% 5 c.466 A>G, p.Ile156Val 2 0.71% 6 c.634C>T, p. Arg212Cys 3 1.07% 6 c.656G>C, p.Arg219Thr 1 0.36% 6 c.666_678delAAAGACGGTGCGC, p.Lys223_Arg226delfs 2 0.71% 6 c.768G>T, Splicing site 4 1.42% 8 c.1037A>C, p.Lys346Thr 1 0.36% 10 c.1222C>T, p.Arg408* 3 1.07% 12 c.1622T>C, p.Leu541Pro 2 0.71% 12 c.1648 G>T, p.Gly550* 1 0.36% 13 c.1804C>T, p.Arg602Trp 1 0.36% 13 c.1817G>A, p.Gly606Asp 1 0.36% 13 c.1922G>C, p.Cys641Ser 1 0.36% Int 13 c.1937&#fe;1G>A, Splicing site 2 0.71% 14 c.1957C>T, p.Arg653Cys 2 0.71% 17 c.2588G>C, p.Gly863Ala 19 6.79% 18 c.2701A>G, p.Thr901Ala 1 0.36% 19 c.2791G>A, p.Val931Met 2 0.71% 19 c.2894A>G, p.Asn965Ser 1 0.36% 20 c.2966T>C, p.Vla989Ala 3 1.07% 20 c.2971G>C, p.Gly991Arg 2 0.71% 21 c.3056C>T, p.Thr1019Met 1 0.36% 21 c.3113C>T, p.Ala1038Val 3 1.07% 21 c.3064G>A, p.Glu1022Lys 2 0.71% 22 c.3211_3212insGT, p.Ser1071Cysfs 6 2.14% 22 c.3259G>A, p.Glu1087Lys 4 1.43% 22 c.3292C>T, p.Arg1098Cys 1 0.36% 22 c.3322C>T, p.Arg1108Cys 5 1.79% 22 c.3323G>A, p.Arg1108His 1 0.36% 23 c.3364G>A, p.Glu1122Lys 1 0.36% 23 c.3386G>A, p.Arg1129His 1 0.36% 24 c.3602T>G, p.Leu1201Arg 3 1.07% 27 c.3898C>T, p.Arg1300* 2 0.71% 28 c.4139C>T, p.Pro1380Leu 14 5.00% 28 c.4222T>C, p.Trp1408Arg 1 0.36% 28 c.4234C>T, p.Gly1412* 1 0.36% 28 c.4253&#fe;5G>T, Splice site 1 0.36% 28 c.4253&#fe;4C>T, Splice site 1 0.36% 29 c.4283C>T, p.Thr1428Met 1 0.36% 29 c.4319T>C, p.Phe1440Ser 1 0.36% 29 c.4462T>C, p.Cys1488Arg 1 0.36% 30 c.4469G>A, p.Cys1490Tyr 5 1.79% 30 c.4537_4538insC, p.Gly1513Profs 1 0.36% 31 c.4577C>T, p.Thr1526Met 2 0.71% 33 c.4715C>T, p.Thr1572Met 1 0.36% Continued on next page TABLE 3.
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ABCA4 p.Lys346Thr 23953153:141:632
status: NEW[hide] The external limiting membrane in early-onset Star... Invest Ophthalmol Vis Sci. 2014 Aug 19;55(10):6139-49. doi: 10.1167/iovs.14-15126. Lee W, Noupuu K, Oll M, Duncker T, Burke T, Zernant J, Bearelly S, Tsang SH, Sparrow JR, Allikmets R
The external limiting membrane in early-onset Stargardt disease.
Invest Ophthalmol Vis Sci. 2014 Aug 19;55(10):6139-49. doi: 10.1167/iovs.14-15126., [PMID:25139735]
Abstract [show]
PURPOSE: To describe pathologic changes of the external limiting membrane (ELM) in young patients with early-onset Stargardt (STGD1) disease. METHODS: Twenty-six STGD1 patients aged younger than 20 years with confirmed disease-causing adenosine triphosphate-binding cassette, subfamily A, member 4 (ABCA4) alleles and 30 age-matched unaffected individuals were studied. Spectral-domain optical coherence tomography (SD-OCT), fundus autofluorescence (AF), and color fundus photography (CFP) images, as well as full-field electroretinograms were obtained and analyzed for one to four visits in each patient. RESULTS: The ELM in all patients exhibited a distinct thickening that was not observed in unaffected individuals. In addition, accumulations of reflective deposits were noted in the outer nuclear layer in every patient. Four patients exhibited a concave protuberance or bulging of a thickened and hyperreflective ELM band within the fovea containing preserved photoreceptors. Longitudinal SD-OCT data in several patients revealed the persistence of this ELM abnormality over a period of time (1-4 years). Furthermore, the edges of the inner segment ellipsoid band appeared to recede earlier than the ELM band in active lesions. CONCLUSIONS: Structural changes seen in the ELM of this cohort may reflect a gliotic response to cellular stress at the photoreceptor level in early-onset STGD1.
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No. Sentence Comment
91 [L541P;A1038V] p.R1640W P15 16 Caucasian 20/200 (1.00) 20/200 (1.00) 2 n/a Mid-late 8 p.K346T p.T1117I P16 9 Caucasian 20/150 (0.88) 20/150 (0.88) 1 n/a 1 p.P1380L p.G1961E P17 18 Caucasian 20/40 (0.30) 20/150 (0.88) 1 1 Early 3 p.P1380L p.G1961E P18ߥ 18 Caucasian 20/150 (0.88) 20/150 (0.88) 2 1 Late 4 p.
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ABCA4 p.Lys346Thr 25139735:91:88
status: NEW[hide] Flecks in Recessive Stargardt Disease: Short-Wavel... Invest Ophthalmol Vis Sci. 2015 Jul;56(8):5029-39. doi: 10.1167/iovs.15-16763. Sparrow JR, Marsiglia M, Allikmets R, Tsang S, Lee W, Duncker T, Zernant J
Flecks in Recessive Stargardt Disease: Short-Wavelength Autofluorescence, Near-Infrared Autofluorescence, and Optical Coherence Tomography.
Invest Ophthalmol Vis Sci. 2015 Jul;56(8):5029-39. doi: 10.1167/iovs.15-16763., [PMID:26230768]
Abstract [show]
PURPOSE: We evaluated the incongruous observation whereby flecks in recessive Stargardt disease (STGD1) can exhibit increased short-wavelength autofluorescence (SW-AF) that originates from retinal pigment epithelium (RPE) lipofuscin, while near-infrared AF (NIR-AF), emitted primarily from RPE melanin, is usually reduced or absent at fleck positions. METHODS: Flecks in SW- and NIR-AF images and spectral-domain optical coherence tomography (SD-OCT) scans were studied in 19 STGD1 patients carrying disease-causing ABCA4 mutations. Fleck spatial distribution and progression were recorded in serial AF images. RESULTS: Flecks observed in SW-AF images typically colocalized with darkened foci in NIR-AF images; the NIR-AF profiles were larger. The decreased NIR-AF signal from flecks preceded apparent changes in SW-AF. Spatiotemporal changes in fleck distribution usually progressed centrifugally, but in one case centripetal expansion was observed. Flecks in SW-AF images corresponded to hyperreflective deposits that progressively traversed photoreceptor-attributable bands in SD-OCT images. Outer nuclear layer (ONL) thickness negatively correlated with expansion of flecks from outer to inner retina. CONCLUSIONS: In the healthy retina, RPE lipofuscin fluorophores form in photoreceptor cells but are transferred to RPE; thus the SW-AF signal from photoreceptor cells is negligible. In STGD1, NIR-AF imaging reveals that flecks are predominantly hypofluorescent and larger and that NIR-AF darkening occurs prior to heightened SW-AF signal. These observations indicate that RPE cells associated with flecks in STGD1 are considerably changed or lost. Spectral-domain OCT findings are indicative of ongoing photoreceptor cell degeneration. The bright SW-AF signal of flecks likely originates from augmented lipofuscin formation in degenerating photoreceptor cells impaired by the failure of RPE.
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48 [IVS15&#fe;1G>A 2 M 12.00 Caucasian 0.5 0.5 p. [L541P; A1038V] 3* M 9.00 Caucasian 1 1 p. [W855*]; [T1526M] 4 F 47.55 Caucasian 1.3 1.3 p. [L541P; A1038V]; [G1961E] 5* F 16.47 Caucasian 0.6 0.6 p. [T972N]; [L2027F] 6* M 16.98 Caucasian 1.3 1.3 p. [K346T]; [T1117I] 7 F 23.80 Caucasian 0.6 0.4 p. [R1161S] 8* F 28.67 Caucasian 1.3 1.3 p. [P1380L]; [P1380L] 9 M 42.83 Caucasian 0.9 0.4 c.
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ABCA4 p.Lys346Thr 26230768:48:248
status: NEW[hide] Quantitative Fundus Autofluorescence and Optical C... Invest Ophthalmol Vis Sci. 2015 Nov 1;56(12):7274-85. doi: 10.1167/iovs.15-17371. Duncker T, Stein GE, Lee W, Tsang SH, Zernant J, Bearelly S, Hood DC, Greenstein VC, Delori FC, Allikmets R, Sparrow JR
Quantitative Fundus Autofluorescence and Optical Coherence Tomography in ABCA4 Carriers.
Invest Ophthalmol Vis Sci. 2015 Nov 1;56(12):7274-85. doi: 10.1167/iovs.15-17371., [PMID:26551331]
Abstract [show]
PURPOSE: To assess whether carriers of ABCA4 mutations have increased RPE lipofuscin levels based on quantitative fundus autofluorescence (qAF) and whether spectral-domain optical coherence tomography (SD-OCT) reveals structural abnormalities in this cohort. METHODS: Seventy-five individuals who are heterozygous for ABCA4 mutations (mean age, 47.3 years; range, 9-82 years) were recruited as family members of affected patients from 46 unrelated families. For comparison, 57 affected family members with biallelic ABCA4 mutations (mean age, 23.4 years; range, 6-67 years) and two noncarrier siblings were also enrolled. Autofluorescence images (30 degrees , 488-nm excitation) were acquired with a confocal scanning laser ophthalmoscope equipped with an internal fluorescent reference. The gray levels (GLs) of each image were calibrated to the reference, zero GL, magnification, and normative optical media density to yield qAF. Horizontal SD-OCT scans through the fovea were obtained and the thicknesses of the outer retinal layers were measured. RESULTS: In 60 of 65 carriers of ABCA4 mutations (age range, 9-60), qAF levels were within normal limits (95% confidence level) observed for healthy noncarrier subjects, while qAF levels of affected family members were significantly increased. Perifoveal fleck-like abnormalities were observed in fundus AF images in four carriers, and corresponding changes were detected in the outer retinal layers in SD-OCT scans. Thicknesses of the outer retinal layers were within the normal range. CONCLUSIONS: With few exceptions, individuals heterozygous for ABCA4 mutations and between the ages of 9 and 60 years do not present with elevated qAF. In a small number of carriers, perifoveal fleck-like changes were visible.
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28 [L541P;A1038V] 0.10 0.10 OS n/a 141 S2.2 F 44.4 Indian Mother c.6729&#fe;5_&#fe;19del 0.10 0.00 OS 257 291 S2.3 M 56.2 Indian Father p.G1961E 0.00 0.00 OD 475 431 S3.4 F 54.1 White Mother p.G863A 0.00 0.00 OS 459 451 S3.5 F 82.0 White Grandmother p.G863A 0.00 0.00 OD n/a n/a S4.2 F 44.6 White Mother p.W855* 0.00 0.00 OD 330 n/a S4.3 M 40.9 White Father p.T1526M 0.00 0.00 OS 283 271 S5.2 F 71.5 White Sister p.C698Y 0.00 0.10 OD n/a n/a S5.3 F 67.5 White Sister c.2160&#fe;1G>C 0.00 0.00 OS n/a n/a S5.4 F 62.9 White Sister p.C698Y 0.00 0.00 OD n/a n/a S6.2 M 54.9 Black Brother p.T1526M 0.10 0.00 OS 477 423 S7.2 F 48.9 White Mother c.5196&#fe;1G>A 0.00 0.00 OS 443 415 S8.2 F 59.6 White Mother p.K346T 0.00 0.00 OD 546 483 S8.3 M 54.6 White Father p.T1117I 0.10 0.10 OD 289 n/a S9.2 F 51.5 White Mother c.5196&#fe;1137G>A 0.00 0.00 n/a 302 n/a S9.3 M 57.8 White Father p.C54Y 0.00 0.00 OS 419 375 S10.2 M 24.1 Indian Brother p.Q2220* 0.00 0.00 OD 227 227 S11.2 F 40.0 Asian Mother c.5923del 0.00 0.18 OD 229 191 S11.3 M 40.1 Asian Father p.R408* 0.00 0.00 OD 195 178 S12.2 F 53.2 White Mother p.L2027F 0.00 0.00 n/a 355 309 S13.2 F 49.8 White Mother p.R1161S 0.00 0.00 OS 367 372 S13.3 M 22.3 White Brother p.R1161S 0.00 0.00 OD 202 206 S14.2 F 67.0 White Mother p.P1380L 0.00 0.00 OD n/a n/a S14.3 F 24.4 White Sister p.P1380L 0.00 0.00 OS n/a 163 S15.3 F 26.8 White Sister c.3050&#fe;5G>A 0.00 0.00 n/a 293 281 S16.2 M 53.7 Black Father c.4253&#fe;5G>T 0.00 0.00 n/a n/a 204 S17.2 F 60.0 Hispanic Mother p.A1038V 0.00 0.00 n/a 247 n/a S18.2 F 41.8 Indian Father c.5917del 0.00 0.00 OD n/a 194 S18.3 M 48.6 Indian Mother c.859-9T>C 0.00 0.00 OD 253 215 S18.4 F 12.9 Indian Sister c.5917del 0.00 0.00 OD 84 93 S19.4 F 58.5 White Mother p.L2027F 0.00 0.00 OD 205 n/a S19.5 M 61.6 White Father p.G851D 0.10 0.10 OD n/a n/a S20.2 F 41.5 White Mother c.5312&#fe;1G>A 0.00 0.00 n/a 335 351 S20.3 M 39.0 White Father p.R2030* 0.00 0.10 n/a 442 n/a S21.3 F 53.1 White Mother p.G1961E 0.00 0.00 OD 490 488 S22.3 M 46.3 White Father p.L2027F 0.00 0.00 OS 386 376 S22.4 F 47.1 White Mother p.
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ABCA4 p.Lys346Thr 26551331:28:700
status: NEW67 [L541P;A1038V] c.768&#fe;358C>T 0.30 0.18 n/a 413 P 2.1ߤ M 17.9 Indian p.G1961E c.6729&#fe;5_&#fe;19del 0.70 0.88 340 363 P 3.1&#a7; F 25.1 White p.G863A c.5898&#fe;1G>A 0.80 0.80 710 675 P 3.2ߤ F 18.9 White p.G863A c.5898&#fe;1G>A 0.00 0.00 465 431 P 3.3 F 24.4 White p.G863A c.5898&#fe;1G>A 0.18 0.00 507 467 P 4.1 M 9.0 White p.W855* p.T1526M 1.00 1.00 538 n/a P 5.1 F 67.0 White p.C54Y c.2160&#fe;1G>C CF HM n/a n/a P 6.1 M 46.0 Black p.T1526M 0.30 0.80 n/a n/a P 7.1 F 25.3 White c.5196&#fe;1G>A p.S2235P 1.00 1.30 420 317 P 8.1 M 17.0 White p.K346T p.T1117I 1.30 0.70 871 828 P 9.1 M 21.5 White p.C54Y c.5196&#fe;1137G>A 0.18 0.18 609 608 P 10.1 M 31.0 Indian c.
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ABCA4 p.Lys346Thr 26551331:67:561
status: NEW