マルチモーダルイメージングでとらえる 広角眼底アトラス

出版社: 三輪書店
著者:
発行日: 2023-04-10
分野: 臨床医学:外科  >  眼科学
ISBN: 9784895907750
電子書籍版: 2023-04-10 (第1版第1刷)
書籍・雑誌
≪全国送料無料でお届け≫
取寄せ目安:4~8営業日

22,000 円(税込)

購入する
電子書籍
章別単位での購入はできません
ブラウザ、アプリ閲覧

22,000 円(税込)

購入する

商品紹介

カラー・自発蛍光・蛍光造影(FA/IA)・SLO・レトロモード・OCT
広角撮影装置をとことん使いこなした、選りすぐりの最新眼底画像を掲載!
“広角で撮影する醍醐味”のある疾患をピックアップし、広角の魅力や有用性が目で見てわかるよう眼底画像を大きく掲載。正常眼から疾患眼まで、様々な検査で多角的に評価しています。いま注目される広角眼底撮影装置を「どう使えばどのような画像が得られるか」「いかに臨床研究に生かせるか」のヒントが得られて、臨床現場でのあらたな活用術がわかります。

目次

  • Chapter 1 広角眼底撮影とは

    Chapter 2 広角眼底撮影を用いてできる諸検査

    Chapter 3 正常眼の画像

    Chapter 4 疾患眼の画像
    1.糖尿病網膜症
     ・増殖糖尿病網膜症
     ・糖尿病黄斑浮腫
    2.裂孔原性網膜剥離
    3.ぶどう膜炎
     ・Vogt・小柳・原田病
     ・サルコイドーシス
     ・ベーチェット病
     ・サイトメガロウイルス網膜炎
     ・急性網膜壊死
     ・眼トキソプラズマ症
     ・HTLV-1関連ぶどう膜炎
    4.腫 瘍
     ・眼内悪性リンパ腫
     ・網膜血管増殖性腫瘍
     ・脈絡膜骨腫
     ・脈絡膜母斑
     ・視神経乳頭毛細血管腫
    5.病的近視の後部ぶどう腫
    6.病的近視の脈絡膜血管構築異常
    7.病的近視の各種病変
     ・紋理眼底
     ・びまん性脈絡膜萎縮
     ・限局性脈絡膜萎縮
     ・Lacquer cracks
     ・黄斑部萎縮
     ・近視性黄斑分離症
     ・Paravascular retinal cystsとparavascular lamellar holes
     ・Myopic stretch lines
     ・点状内層脈絡膜内層症と多巣性脈絡膜炎
     ・コーヌスピット
     ・Radial tracts
     ・網膜血管周囲萎縮
    8.網膜静脈閉塞症
    9.漿液性網膜剥離を伴う疾患
     ・中心性漿液性脈絡網膜症
     ・多発性後極部網膜色素上皮症
    10.緑内障
    11.遺伝性疾患
     ・網膜色素変性
     ・鎌状網膜剥離
     ・網膜のmacrovessels

この書籍の参考文献

参考文献のリンクは、リンク先の都合等により正しく表示されない場合がありますので、あらかじめご了承下さい。

本参考文献は電子書籍掲載内容を元にしております。

Chapter 2 広角撮影装置で得られる画像と可能な検査

P.16 掲載の参考文献
1) Horie S, Ohno-Matsui K:Progress of imaging in diabetic retinopathy-from the past to the present. Diagnostics(Basel) 12:1684, 2022.
 
2) Horie S, Kukimoto N, Kamoi K, et al.:Blue widefield images of scanning laser ophthalmoscope can detect retinal ischemic areas in eyes with diabetic retinopathy. Asia Pac J Ophthalmol(Phila) 10:478-485, 2021.
PubMed
3) Terasaki H, Sonoda S, Shiihara H, et al.More effective screening for epiretinal membranes with multicolor scanning laser ophthalmoscope than with color fundus photographs. Retina 40:1412-1418, 2020.
PubMed
4) Terasaki H, Sonoda S, Kakiuchi N, et al.:Ability of MultiColor scanning laser ophthalmoscope to detect non-glaucomatous retinal nerve fiber layer defects in eyes with retinal diseases.BMC Ophthalmol 18:324, 2018.
PubMed
5) Corradetti G, Byon I, Corvi F, et al.:Retro mode illumination for detecting and quantifying the area of geographic atrophy in non-neovascular age-related macular degeneration.Eye(Lond) 36:1560-1566, 2022.
PubMed
6) Vujosevic S, Pucci P, Daniele AR, et al.:Extent of diabetic macular edema by scanning laser ophthalmoscope in the retromode and its functional correlations. Retina 34:2416-2422, 2014.
PubMed
7) Schmitz-Valckenberg S, Holz FG, Bird AC, et al.:Fundus autofluorescence imaging:review and perspectives. Retina 28:385-409, 2008.
PubMed
8) Hariri AH, Gui W, Datoo O'Keefe GA, et al.:Ultra-widefield fundus autofluorescence imaging of patients with retinitis pigmentosa:a standardized grading system in different genotypes. Ophthalmol Retina 2:735-745, 2018.
PubMed
9) Silva PS, Liu D, Glassman AR, et al.:Assessment of fluorescein angiography nonperfusion in eyes with diabetic retinopathy using ultrawide field retinal imaging. Retina 42:1302-1310, 2022.
PubMed
10) Kwak JH, Baek J, Ra H:Multimodal imaging of annular choroidal detachment in a patient with Vogt-Koyanagi-Harada disease. Ocul Immunol Inflamm 29:911-914, 2021.
 
11) Safi H, Ahmadieh H, Hassanpour K, et al.:Multimodal imaging in pachychoroid spectrum. Surv Ophthalmol 67:579-590, 2022.
PubMed

Chapter 4 疾患眼の画像

P.60 掲載の参考文献
1) Klein R, Klein BE, Moss SE, et al.:The Wisconsin epidemiologic study of diabetic retinopathy. III. Prevalence and risk of diabetic retinopathy when age at diagnosis is 30 or more years. Arch Ophthalmol 102:527-532, 1984.
PubMed
2) Hashimoto S, Yasuda M, Fujiwara K, et al.:Secular trends in the prevalence, incidence, and progression of diabetic retinopathy:the Hisayama Study. Graefes Arch Clin Exp Ophthalmol doi:10.1007/s00417-022-05839-8, 2022. Online ahead of print.
 
3) Silva PS, Liu D, Glassman AR, et al.:Assessment of fluorescein angiography nonperfusion in eyes with diabetic retinopa-thy using ultrawide field retinal imaging. Retina 42:1302-1310, 2022.
 
4) Horie S, Kukimoto N, Kamoi K, et al.:Blue widefield images of scanning laser ophthalmoscope can detect retinal ischemic areas in eyes with diabetic retinopathy. Asia Pac J Ophthalmol(Phila) 10:478-485, 2021.
PubMed
5) Hee MR, Puliafito CA, Wong C, et al.:Quantitative assessment of macular edema with optical coherence tomography. Arch Ophthalmol 113:1019-1029, 1995.
PubMed
6) Dimitriou E, Sergentanis TN, Lambadiari V, et al.:Correlation between imaging morphological findings and laboratory biomarkers in patients with diabetic macular edema. J Diabetes Res 2021:6426003, 2021.
PubMed
7) Hsieh YT, Alam MN, Le D, et al.:OCT angiography biomarkers for predicting visual outcomes after ranibizumab treatment for diabetic macular edema. Ophthalmol Retina 3:826-834, 2019.
PubMed
P.66 掲載の参考文献
1) Oku K, Tokutsu K, Matsuda S, et al.:Epidemiologic study of rhegmatogenous retinal detachment in Japan from the Diagnosis Procedure Combination database over a 2-year period(2014-2015). Jpn J Ophthalmol 65:797-802, 2021.
 
2) Kornberg DL, Klufas MA, Yannuzzi NA, et al.:Clinical utility of ultra-widefield imaging with the optos optomap compared with indirect ophthalmoscopy in the setting of non-traumatic rhegmatogenous retinal detachment. Semin Ophthalmol 31:505-512, 2016.
PubMed
3) Nagpal M, Mehrotra N, Sharma A, et al.:Non-inferiority of fundus photos using wide-field imaging to charting drawings in rhegmatogenous retinal detachment. Indian J Ophthalmol 70:2197-2198, 2022.
PubMed
P.108 掲載の参考文献
1) Du L, Kijlstra A, Yang P:Vogt-Koyanagi-Harada disease:novel insights into pathophysiology, diagnosis and treatment. Review Prog Retin Eye Res 52:84-111, 2016.
PubMed
2) Kim P, Sun HJ, Ham DI:Ultra-wide-field angiography findings in acute Vogt-Koyanagi-Harada disease. Observational Study Br J Ophthalmol 103:942-948, 2019.
PubMed
3) Yang SJ, Salek S, Rosenbaum JT:Ocular sarcoidosis:new diagnostic modalities and treatment. Review Curr Opin Pulm Med 23:458-467, 2017.
PubMed
4) Mahendradas P, Maruyama K, Mizuuchi K, et al.:Multimodal imaging in ocular sarcoidosis. Review Ocul Immunol Inflamm 28:1205-1211, 2020.
PubMed
5) 日本ベーチェット病学会 監修, 厚生労働科学研究費補助金(難治性疾患政策研究事業)ベーチェット病に関する調査研究班, 厚生労働科学研究費補助金(難治性疾患政策研究事業)難治性炎症性腸管障害に関する調査研究班 編:ベーチェット病診療ガイドライン2020. 診断と治療社, 2020.
 
6) Zajac H, Turno-Krecicka A:Ocular manifestations of Behcet's disease:an update on diagnostic challenges and disease management. Review J Clin Med 10:5174, 2021.
 
7) Munro M, Yadavalli T, Fonteh C, et al.:Cytomegalovirus retinitis in HIV and non-HIV individuals. Review Microorganisms 8:55, 2019.
PubMed
8) Schoenberger SD, Kim SJ, Thorne JE, et al.:Diagnosis and treatment of acute retinal necrosis:a report by the american academy of ophthalmology. Review Ophthalmology 124:382-392, 2017.
PubMed
9) Kalogeropoulos D, Sakkas H, Mohammed B, et al.:Ocular toxoplasmosis:a review of the current diagnostic and therapeutic approaches. Review Int Ophthalmol 42:295-321, 2022.
PubMed
10) Kamoi K, Horiguchi N, Kurozumi-Karube H, et al.:Horizontal transmission of HTLV-1 causing uveitis. Case Reports Lancet Infect Dis 21:578, 2021.
PubMed
11) Kamoi K, Uchimaru K, Tojo A, et al.:HTLV-1 uveitis and Graves'disease presenting with sudden onset of blurred vision. Case Reports Lancet 399:60, 2022.
PubMed
12) Kamoi K:HTLV-1 in ophthalmology. Front Microbiol 11:388, 2020.
PubMed
P.124 掲載の参考文献
1) Soussain C, Malaise D, Cassoux N:Primary vitreoretinal lymphoma:a diagnostic and management challenge. Review Blood 138:1519-1534, 2021.
PubMed
2) Davis JL:Intraocular lymphoma:a clinical perspective. Review Eye 27:153-162, 2013.
PubMed
3) Heimann H, Jmor F, Damato B:Imaging of retinal and choroidal vascular tumours. Review Eye 27:208-216, 2013.
PubMed
4) Shields CL, Shields JA, Augsburger JJ:Choroidal osteoma. Review Surv Ophthalmol 33:17-27, 1988.
PubMed
5) Aylward GW, Chang TS, Pautler SE, et al.:A long-term follow-up of choroidal osteoma. Arch Ophthalmol 116:1337-1341, 1998.
PubMed
6) Chien JL, Sioufi K, Surakiatchanukul T, et al.:Choroidal nevus:a review of prevalence, features, genetics, risks, and out-comes. Review Curr Opin Ophthalmol 28:228-237, 2017.
 
7) Shields CL, Mashayekhi A, Materin MA, et al.:Optical coherence tomography of choroidal nevus in 120 patients. Retina 25:243-252, 2005.
PubMed
8) Shields CL, Dalvin LA, Yu MD, et al.:Choroidal nevus transformation into melanoma per millimeter increment in thickness using multimodal imaging in 2355 cases:The 2019 Wendell L. Hughes Lecture. Retina 39:1852-1860, 2019.
 
9) Grossniklaus HE, Thomas JW, Vigneswaran N, et al.:Retinal hemangioblastoma. A histologic, immunohistochemical, and ultrastructural evaluation. Case Reports Ophthalmology 99:140-145, 1992.
PubMed
10) Singh AD, Nouri M, Shields CL, et al.:Retinal capillary hemangioma:a comparison of sporadic cases and cases associated with von Hippel-Lindau disease. Comparative Study Ophthalmology 108:1907-1911, 2001.
PubMed
P.141 掲載の参考文献
1) Curtin BJ:The posterior staphyloma of pathologic myopia. Trans Am Ophthalmol Soc 75:67-86, 1977.
PubMed
2) Ohno-Matsui K:Proposed classification of posterior staphylomas based on analyses of eye shape by three-dimensional magnetic resonance imaging and wide-field fundus imaging. Ophthalmology 121:1798-1809, 2014.
PubMed
3) Ohno-Matsui K, Jonas JB:Posterior staphyloma in pathologic myopia. Prog Retin Eye Res 70:99-109, 2019.
PubMed
4) Ishida T, Moriyama M, Tanaka Y, et al.:Radial tracts emanating from staphyloma edge in eyes with pathologic myopia. Ophthalmology 122:215-216, 2015.
PubMed
P.155 掲載の参考文献
1) Lu H, Du R, Xie S, et al.:Anomalies of choroidal venous structure in highly myopic eyes. Retina 42:1655-1664, 2022.
PubMed
2) Xie S, Fang Y, Du R, et al.:Role of dilated subfoveal choroidal veins in eyes with myopic macular neovascularization. Retina 41:1063-1070, 2021
PubMed
3) Ohno-Matsui K, Morishima N, Ito M, et al.:Posterior routes of choroidal blood outflow in high myopia. Retina 16:419-425, 1996.
PubMed
4) Moriyama M, Ohno-Matsui K, Futagami S, et al.:Morphology and long-term changes of choroidal vascular structure in highly myopic eyes with and without posterior staphyloma. Ophthalmology 114:1755-1762, 2007.
PubMed
5) Moriyama M, Cao K, Ogata S, et al.:Detection of posterior vortex veins in eyes with pathologic myopia by ultra-widefield indocyanine green angiography. Br J Ophthalmol 101:1179-1184, 2017.
PubMed
P.245 掲載の参考文献
1) Ohno-Matsui K, Kawasaki R, Jonas JB, et al.:International photographic classification and grading system for myopic maculopathy. Am J Ophthalmol 159:877-883, 2015.
PubMed
2) Ohno-Matsui K:Myopic chorioretinal atrophy. "Pathologic Myopia" Spaide RF, Ohno-Matsui K, Yannuzzi LA eds. Springer, New York, 2014, pp187-210.
 
3) Fang Y, Du R, Nagaoka N, et al.:OCT-based diagnostic criteria for different stages of myopic maculopathy. Ophthalmology 126:1018-1032, 2019.
PubMed
4) Yokoi T, Jonas JB, Shimada N, et al.:Peripapillary diffuse chorioretinal atrophy in children as a sign of eventual pathologic myopia in adults. Ophthalmology 123:1783-1787, 2016.
PubMed
5) Tokoro T:Types of fundus changes in the posterior pole. "Atlas of Posterior Fundus Changes in Pathologic Myopia" Springer, Tokyo, 1998, pp5-22.
 
6) Xu X, Fang Y, Uramoto K, et al.:Clinical features of lacquer cracks in eyes with pathologic myopia. Retina 39:1265-1277, 2019.
 
7) Ohno-Matsui K, Jonas JB, Spaide RF:Macular bruch membrane holes in highly myopic patchy chorioretinal atrophy. Am J Ophthalmol 166:22-28, 2016.
PubMed
8) Ito-Ohara M, Seko Y, Morita H, et al.:Clinical course of newly developed or progressive patchy chorioretinal atrophy in pathological myopia. Ophthalmologica 212:23-29, 1998.
PubMed
9) Fang Y, Yokoi T, Nagaoka N, et al.:Progression of myopic maculopathy during 18-year follow-up. Ophthalmology 125:863-877, 2018.
PubMed
10) Hady SK, Xie S, Freund KB, et al.:Prevalence and characteristics of multifocal choroiditis/punctate inner choroidopathy in pathologic myopia eyes with patchy atrophy. Retina 42:669-678, 2022.
PubMed
11) Ohno-Matsui K, Ito M, Tokoro T:Subretinal bleeding without choroidal neovascularization in pathologic myopia. A sign of new lacquer crack formation. Retina 16:196-202, 1996.
PubMed
12) Ohno-Matsui K, Jonas JB, Spaide RF:Macular bruch membrane holes in choroidal neovascularization-related myopic macular atrophy by swept-source optical coherence tomography. Am J Ophthalmol 162:133-139, 2016.
PubMed
13) Takano M, Kishi S:Foveal retinoschisis and retinal detachment in severely myopic eyes with posterior staphyloma. Am J Ophthalmol 128:472-476, 1999.
 
14) Shimada N, Tanaka Y, Tokoro T, et al.:Natural course of myopic traction maculopathy and factors associated with progression or resolution. Am J Ophthalmol 156:948-957, 2013.
PubMed
15) Gaucher D, Haouchine B, Tadayoni R, et al.:Long-term follow-up of high myopic foveoschisis:natural course and surgical outcome. Am J Ophthalmol 143:455-462, 2007.
PubMed
16) Ikuno Y, Tano Y:Vitrectomy for macular holes associated with myopic foveoschisis. Am J Ophthalmol 141:774-776, 2006.
PubMed
17) Kobayashi H, Kishi S:Vitreous surgery for highly myopic eyes with foveal detachment and retinoschisis. Ophthalmology 110:1702-1707, 2003.
PubMed
18) Tanaka Y, Shimada N, Ohno-Matsui K, et al.:Retromode retinal imaging of macular retinoschisis in highly myopic eyes. Am J Ophthalmol 149:635-640, 2010.
PubMed
19) Sayanagi K, Ikuno Y, Gomi F, et al.:Retinal vascular microfolds in highly myopic eyes. Am J Ophthalmol 139:658-663, 2005.
PubMed
20) Hayashi W, Shimada N, Hayashi K, et al.:Retinal vessels and high myopia. Ophthalmology 118:791-791. e2, 2011.
 
21) Shimada N, Ohno-Matsui K, Nishimuta A, et al.:Detection of paravascular lamellar holes and other paravascular abnormalities by optical coherence tomography in eyes with high myopia. Ophthalmology 115:708-717, 2008.
PubMed
22) Shinohara K, Moriyama M, Shimada N, et al.:Myopic stretch lines:linear lesions in fundus of eyes with pathologic myopia that differ from lacquer cracks. Retina 34:461-469, 2014.
PubMed
23) Xie S, Kamoi K, Igarashi-Yokoi T, et al.:Structural abnormalities in the papillary and peripapillary areas and corresponding visual field defects in eyes with pathologic myopia. Invest Ophthalmol Vis Sci 63:13, 2022.
 
24) Ohno-Matsui K, Akiba M, Moriyama M, et al.:Acquired optic nerve and peripapillary pits in pathologic myopia. Ophthalmology 119:1685-1692, 2012.
PubMed
25) Ishida T, Moriyama M, Tanaka Y, et al.:Radial tracts emanating from staphyloma edge in eyes with pathologic myopia. Ophthalmology 122:215-216, 2015.
PubMed
26) Fang Y, Ishida T, Du R, et al.:Novel paravascular lesions with abnormal autofluorescence in pathologic myopia. Ophthalmology 128:477-480, 2021.
PubMed
27) Tanaka Y, Shimada N, Ohno-Matsui K:Extreme thinning or loss of inner neural retina along the staphyloma edge in eyes with pathologic myopia. Am J Ophthalmol 159:677-682, 2015.
PubMed
P.282 掲載の参考文献
1) Marmor MF:New hypotheses on the pathogenesis and treatment of serous retinal detachment. Graefes Arch Clin Exp Ophthalmol 226:548-552, 1988.
PubMed
2) Gass JD:Pathogenesis of disciform detachment of the neuroepithelium. Am J Ophthalmol 63:1-139, 1967.
 
3) Uyama M, Matsunaga H, Matsubara T, et al.:Indocyanine green angiography and pathophysiology of multifocal posterior pigment epitheliopathy. Retina 19:12-21, 1999.
 
P.289 掲載の参考文献
1) Iwase A, Suzuki Y, Araie M, et al.:The prevalence of primary open-angle glaucoma in Japanese:the Tajimi Study. Ophthalmology 111:1641-1648, 2004.
PubMed
2) Van Tassel SH, Asrani SG:Possible undiagnosed glaucoma detected by multicolor imaging of retinal diseases. Ophthalmol Glaucoma 2:22-27, 2019.
PubMed

書評

最近チェックした商品履歴

Loading...