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Journal Abstract Search

307 related items for PubMed ID: 26040226

  • 41. Optical coherence tomography of choroidal osteoma in 22 cases: evidence for photoreceptor atrophy over the decalcified portion of the tumor.
    Shields CL, Perez B, Materin MA, Mehta S, Shields JA.
    Ophthalmology; 2007 Dec; 114(12):e53-8. PubMed ID: 17884171
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  • 43. Fundus autofluorescence findings of choroidal osteoma.
    Sisk RA, Riemann CD, Petersen MR, Foster RE, Miller DM, Murray TG, Augsburger JJ.
    Retina; 2013 Jan; 33(1):97-104. PubMed ID: 22718153
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  • 44. A systematic comparison of spectral-domain optical coherence tomography and fundus autofluorescence in patients with geographic atrophy.
    Sayegh RG, Simader C, Scheschy U, Montuoro A, Kiss C, Sacu S, Kreil DP, Prünte C, Schmidt-Erfurth U.
    Ophthalmology; 2011 Sep; 118(9):1844-51. PubMed ID: 21496928
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  • 45. Choroidal Vascular Pattern in Cases of Sturge-Weber Syndrome.
    Surve A, Azad S, Venkatesh P, Kumar V, Chawla R, Gupta V, Vohra R.
    Ophthalmol Retina; 2019 Dec; 3(12):1091-1097. PubMed ID: 31523035
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  • 46. Optical coherence tomography in the evaluation of retinal changes associated with suspicious choroidal melanocytic tumors.
    Espinoza G, Rosenblatt B, Harbour JW.
    Am J Ophthalmol; 2004 Jan; 137(1):90-5. PubMed ID: 14700649
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  • 48. A clinical and optical coherence tomography study of the margins of choroidal colobomas.
    Gopal L, Khan B, Jain S, Prakash VS.
    Ophthalmology; 2007 Mar; 114(3):571-80. PubMed ID: 17123621
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  • 49. Giant choroidal nevus clinical features and natural course in 322 cases.
    Li HK, Shields CL, Mashayekhi A, Randolph JD, Bailey T, Burnbaum J, Shields JA.
    Ophthalmology; 2010 Feb; 117(2):324-33. PubMed ID: 19969359
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  • 50. Retinal Vascular Patterns and Capillary Plexus Reflectivity of Intraocular Tumors; an Optical Coherence Tomography Angiography Study.
    Gönen B, Hepokur M, Güleser ÜY, Yetik H, Sarıcı AM.
    Curr Eye Res; 2022 Oct; 47(10):1424-1435. PubMed ID: 35819078
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  • 51. Measurement of size of pigmented choroidal nevus: Superiority of multicolor imaging compared to conventional color fundus photography.
    Saurabh K, Roy R, Sinharoy S, Shah D, Nangia P.
    Indian J Ophthalmol; 2018 Oct; 66(10):1501-1503. PubMed ID: 30249854
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  • 52. Ultra-wide field imaging of pigmented para-venous retino-choroidal atrophy.
    Kumar V, Kumawat D, Tewari R, Venkatesh P.
    Eur J Ophthalmol; 2019 Jul; 29(4):444-452. PubMed ID: 30175613
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  • 53. Assessment of macular choroidal thickness by optical coherence tomography and angiographic changes in central serous chorioretinopathy.
    Jirarattanasopa P, Ooto S, Tsujikawa A, Yamashiro K, Hangai M, Hirata M, Matsumoto A, Yoshimura N.
    Ophthalmology; 2012 Aug; 119(8):1666-78. PubMed ID: 22521082
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  • 54. Spectral-Domain Optical Coherence Tomography of Polypoidal Choroidal Vasculopathy Associated With Benign Choroidal Nevus.
    De Salvo G, Vaz-Pereira S, Sehmi KS, Andrews RM, Sagoo MS.
    Ophthalmic Surg Lasers Imaging Retina; 2015 Aug; 46(10):1062-4. PubMed ID: 26599253
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  • 57. Fundus autofluorescence in polypoidal choroidal vasculopathy.
    Yamagishi T, Koizumi H, Yamazaki T, Kinoshita S.
    Ophthalmology; 2012 Aug; 119(8):1650-7. PubMed ID: 22512987
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  • 60. Subretinal Fluid Optical Density and Spectral-Domain Optical Coherence Tomography Characteristics for the Diagnosis of Circumscribed Choroidal Hemangioma.
    Zur D, Frenkel S, Leshno A, Iglicki M, Ben-Artzi Cohen N, Khoury A, Martínez Cartier M, Barak A, Moroz I, Loewenstein A, Neudorfer M, Vishnevskia-Dai V.
    Ophthalmologica; 2019 Aug; 241(4):195-201. PubMed ID: 30396183
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