top of page
This site was designed with the
.com
website builder. Create your website today.Start Now
Microscope

OUR PUBLICATIONS


業績: Publications

2022

  1. Mukherjee P, Fukuda S, Lukumanto D, Yamashita T, Okada K, Makita S, Abd El-Sadek I, Miyazawa A, Zhu L, Morishita R, Lichtenegger A, Oshika T, Yasuno Y. Label-free metabolic imaging of non-alcoholic-fatty-liver-disease (NAFLD) liver by volumetric dynamic optical coherence tomography. Biomed Opt Express. 2022 in press (IF=3.732)

  2. Fukushige M, Ngo NH, Lukmanto DFukuda S, Ohneda O. Effect of the COVID-19 pandemic on antibiotic consumption: A systematic review comparing 2019 and 2020 data. Front Public Health. vol10, 946077, 2022 (IF=6.461)

  3. Mori H, Ueno Y, Fukuda S, Oshika T. Detection of Anterior Hyaloid Membrane Detachment Using Deep-Range Anterior Segment Optical Coherence Tomography. J Clin Med. vol. 11(11):3057, 2022

  4. Huang P, Narendran S, Pereira F, Fukuda S, Nagasaka Y, Apicella I, Yerramothu P, Marion K, Cai X, Sadda S, Gelfand B, Ambati J. Subretinal injection in mice to study retinal physiology and disease. Nature Protocols. 2022 in press. (IF=13.491)

  5. Huang P, Narendran S, Pereira F, Fukuda S, Nagasaka Y, Apicella I, Yerramothu P, Marion K, Cai X, Sadda S, Gelfand B, Ambati J. The Learning Curve of Murine Subretinal Injection Among Clinically Trained Ophthalmic Surgeons. Transl Vis Sci Technol. 2022, vol.11, 13. (IF=3.283)

  6. Mukherjee P,  Fukuda SLukmanto DYamashita T, Okada K, Makita S, El-Sadek IA, Miyazawa A, Zhu L, Oshika T, Yasuno Y. Label-free assessment of renal function with unilateral ureteral obstruction (UUO) model by optical coherence microscopy. Proc. SPIE. 2022, 1197208. (IF=0.45)

2021

  1. Mukherjee P, Miyazawa A, Fukuda S, Yamashita T, Lukmanto D, Okada K, El-Sadek IA, Zhu L, Makita S, Oshika T, Yasuno Y. Label-free functional and structural imaging of liver microvascular complex in mice by Jones matrix optical coherence tomography. Sci Rep. 2021;11(1):20054. (IF=4.379)

  2. Yasuno Y, El-Sadek, Miyazawa A, Shen L, Seesan T, Zhu L, Oida D, Oikawa K, Makita M, Fukuda S, Yamashita T, Mukherjee P, Oshika T, Branasiri P, Matsusaka S. Multi-functional optical coherence microscopy for in-vitro and ex-vivo tissue investigation. Proc. SPIE. 11924, 2021 (IF=0.45)

  3. Fukuda S, Narendran S, Varshney A, Nagasaka Y, Wang SB, Ambati K, Apicella I, Pereira F, Fowler BJ, Yasuma T, Hirahara S, Yasuma R, Huang P, Yerramothu P, Makin RD, Wang M, Baker KL, Marion KM, Huang X, Baghdasaryan E, Ambati M, Ambati VL, Banerjee D, Bonilha VL, Tolstonog GV, Held U, Ogura Y, Terasaki H, Oshika T, Bhattarai D, Kim KB, Feldman SH, Aguirre JI, Hinton DR, Kerur N, Sadda SR, Schumann GG, Gelfand BD, Ambati J. Alu complementary DNA is enriched in atrophic macular degeneration and triggers retinal pigmented epithelium toxicity via cytosolic innate immunity. Science Advances. Sci Adv. 2021, 40, eabj3658. (IF=14.136)

  4. Mukherjee P, Miyazawa A, Shen L, Fukuda S, Yamashita T, Oka Y, El-Sadek IA, Makita S, Matsusaka S, Oshika T, Kano H, Yasuno Y. Volumetric multi-contrast dynamics imaging for ex vivo liver microvasculature activity visualization using Jones matrix optical coherence tomography. Proc. SPIE. 11630 (IF=0.45)

  5. Mukherjee P, Miyazawa A, Fukuda S, Yamashita T, El-Sadek IA, Makita S, Oshika T, Yasuno Y. Three-dimensional imaging of mouse liver dynamics by polarization-sensitive optical coherence tomography. Proc. SPIE. 11655 (IF=0.45)

  6. Narendran S, Pereira F, Yerramothu P, Apicella I, Wang S, Ambati K, Hirahara S, Kim Y, Ambati M, Ambati V, Huang P, Varshney A, Nagasaka Y, Fukuda S, Baker K, Marion K, Deussing J, Sadda S, Gelfand B, and Ambati J. Nucleoside reverse transcriptase inhibitors and Kamuvudines inhibit amyloid-β induced retinal pigmented epithelium degeneration. Signal Transduction and Targeted Therapy. 2021 in press (IF=13.493)

  7. Yoshida Y, Fukuda S〇. Ocular ischemic syndrome. Ophthalmology. 2021. cover photo. in press (IF=12.079)

  8. Fukuda S, Varshney A, Fowler B, Wang S, Narendran S, Ambati K, Yasuma T, Magagnoli J, Leung H, Hirahara S, Nagasaka Y, Yasuma R, Apicella I, Pereira F, Makin R, Magner E, Liu X, Sun J, Wang M, Baker K, Marion K, Huang X,  Baghdasaryan E, Ambati M, Ambati V, Pandey A, Pandya L, Cummings T, Banerjee D, Huang P, Yerramothu P, Tolstonog G, Held U, Erwin J, Paquola A, Herdy J, Ogura Y, Terasaki H, Oshika T, Darwish S, Singh R, Mozaffari S, Bhattarai D, Kim K, Hardin J, Bennett C, Hinton D, Hanson T, Röver C, Parang K, Kerur N, Liu J, Werner B, Sutton S, Sadda S, Schumann G, Gelfand B, Gage F, Ambati J. Cytoplasmic synthesis of endogenous Alu complementary DNA via reverse transcription and implications in age-related macular degeneration, PNAS. 2021, 118(6):e2022751118.  (IF=9.412)

2020

  1. El-Sadek I, Miyazawa A, Tzu-Wei Shen L, Makita S, Fukuda S, Yamashita T, Oka Y, Mukherjee P, Matsusaka A, Oshika T, Kano H, Yoshiaki Y. Optical coherence tomography-based tissue dynamics imaging for longitudinal and drug response evaluation of tumor spheroids. Biomedical optics 2020 Nov 1; 11(11): 6231–6248. (IF=3.921)

  2. Ambati J, Magagnoli J, Leung H, Wang S, Andrews C, Fu D, Pandey A, Sahu S, Narendran S, Hirahara S, Fukuda S, Sun J, Pandya L, Ambati M, Pereira F, Varshney A, Cumimngs T, Hardin J, Edun B, Bennett C, Ambati K, Fowler B, Kerur N, Rover C, Leitinger N, Werner B, Sutton S, Gelfand B. Repurposing anti-inflammasome NRTIs for improving insulin sensitivity and reducing type 2 diabetes development. Nat Commun. 2020; 11: 4737. (IF=12.121)

  3. Mukherjee P, Miyazawa A, Shen L, Fukuda S, Yamashita T, Oka Y, El-Sadek IGA, Makita S, Matsusaka S, Oshika T, Kano H, Yasuno Y. Quantification of ex-vivo tissue activity by polarization dynamics imaging using Jones matrix optical coherence tomography. Proc. SPIE. 112282C, 2020(IF=0.56)

  4. El-Sadek IGA, Miyazawa A, Shen L, Fukuda S, Yamashita T, Oka Y, Mukherjee P, Makita S, Matsusaka S, Oshika T, Kano H, Yasuno Y. Quantification of ex vivo tissue activity by short and long time-course analysis of multifunctional OCT signals. Proc. SPIE 11228

  5. Wright CB, Uehara H, Kim Y, Yasuma T, Yasuma R, Hirahara S, Makin RD, Apicella I, Pereira F, Nagasaka Y, Narendran S, Fukuda S, Albuquerque R, Fowler BJ, Bastos-Carvalho A, Georgel P, Hatada I, Chang B, Kerur N, Ambati BK, Ambati J, Gelfand BD. Chronic Dicer1 deficiency promotes atrophic and neovascular outer retinal pathologies in mice. PNAS. 2020 Jan 21. pii: 201909761.(IF=9.412)

  6. Fukuda S, Ueno Y, Fujita A, Mori H, Tasaki K, Murakami T, Beheregaray S, Oshika T. Comparison of anterior segment and lens biometric measurements in patients with cataract. Graefes Arch Clin Exp Ophthalmol. 2020 Jan;258(1):137-146. (IF=2.249)

2018

  1. Fukuda S〇, Fujita A, Kasaragod D, Beheregaray S, Ueno Y, Yasuno Y, Oshika T. Comparison of intensity, phase retardation, and local birefringence images for filtering blebs using polarization-sensitive optical coherence tomography. Sci Rep, vol. 8, 7519, 2018.(IF=4.112)

  2. Kerur N, Fukuda S, Banerjee D, Kim Y, Fu D, Apicella I, Varshney A, Yasuma R, Fowler BJ, Baghdasaryan E, Marion KM , Huang X, Yasuma T, Hirano Y, Serbulea V, Ambati M, Ambati VL, Kajiwara Y, Ambati K, Bastos-Carvalho A, Ogura Y, Terasaki H, Oshika T, Kim KB, Hinton DR, Leitinger N, Cambier JC, Buxbaum JD, Kenney MC, Jazwinski SM, Nagai H, Hara I, West AP, Fitzgerald KA, Sadda SR, Gelfand BD, Ambati J. cGAS drives noncanonical-inflammasome activation in age-related macular degeneration. Nat Med, vol. 24, 50-61, 2018.(IF=32.621)

  3. 福田慎一〇. 三次元前眼部偏光光干渉断層計による濾過胞内の瘢痕化評価. 2018 日本眼科学会雑誌, 122: 851-858

2017

  1. Hoshi S, Hiraoka T, Kotsuka J, Sato Y, Izumida S, Kato A, Ueno Y, Fukuda S, Oshika T. Functional visual acuity in patients with successfully treated amblyopia: a pilot study. Graefes Arch Clin Exp Ophthalmol. Vol. 255, 1245-50, 2017.(IF=2.249)

2016

  1. Kasaragod D, Sugiyama S, Ikuno Y, Alonso-Caneiro D, Yamanari M, Fukuda S, Oshika T, Hong YJ, Li E, Makita S, Miura M, Yasuno Y. Accurate and quantitative polarization-sensitive OCT by unbiased birefringence estimator with noise-stochastic correction. Proc. SPIE vol. 9697, 96971I, 2016. (IF=0.56)

  2. Fukuda S〇, Fujita A, Kasaragod D, Ueno Y, Hoshi S, Kishino G, Beheregaray S, Yasuno Y, Oshika T. Quantitative Evaluation of Phase Retardation in Filtering Blebs Using Polarization-Sensitive Optical Coherence Tomography. Invest Ophthalmol Vis Sci. vol. 57, 5919-25, 2016.(IF=3.388)

  3. Fukuda S, Okuda K, Kishino G, Hoshi S, Kawano I, Fukuda M, Yamashita T, Beheregaray S, Nagano M, Ohneda O, Nagasawa H, Oshika T. In vivo retinal and choroidal hypoxia imaging using a novel activatable hypoxia-selective near-infrared fluorescent probe. Graefes Arch Clin Exp Ophthalmol. vol. 254, 2373-85, 2016.(IF=2.249)

  4. Hoshi S, Okamoto F, Arai M, Hirose T, Fukuda S, Sugiura Y, Oshika T. Polyethylene Glycol-Based Synthetic Hydrogel Sealant for Closing Vitrectomy Wounds: An In Vivo and Histological Study. Transl Vis Sci Technol. vol. 5, 7, 2016.(IF=2.221)

  5. Kasaragod D, Fukuda S, Ueno Y, Hoshi S, Oshika T, Yasuno Y. Quantitative evaluation of functionality of filtering bleb based on polarization-sensitive optical coherence tomography. Invest Ophthalmol Vis Sci. vol. 57, 2305-10, 2016.(IF:3.388)

  6. 小塚 淳子, 星 崇仁, 平岡 孝浩, 佐藤 友光子, 加藤 篤子, 福田 慎一, 大鹿 哲郎. 実用視力検査による弱視治療眼の視機能の検討 日本視能訓練士協会誌. vol. 45, 129-33, 2016.

2015

  1. Fukuda S〇, Kishino G, Hoshi S, Beheregaray S, Ueno Y, Fukuda M, Kasaragod D, Yasuno Y, Oshika T. Repeatability of corneal phase retardation measurements by polarization-sensitive optical coherence tomography. Invest Ophthalmol Vis Sci. vol. 56, 3196-201, 2015.(IF=3.388)

2014

  1. Fukuda S〇, Beheregaray S, Kasaragod D, Hoshi S, Kishino G, Ishii K, Yasuno Y, Oshika T. Noninvasive evaluation of phase retardation in blebs after glaucoma surgery using anterior segment polarization-sensitive optical coherence tomography. Invest Ophthalmol Vis Sci. vol. 55, 5200-6, 2014.(IF=3.388)

  2. 黄斑浮腫を伴った高γグロブリン血症の2例. 田原 由希子; 長谷川 優実; 岡本 史樹; 福田 慎一, 中野 伸一, 大鹿哲郎.臨床眼科 vol. 69, 333-339, 2015.

  3. Kasaragod D, Makita S, Fukuda S, Beheregaray S, Oshika T, Yasuno Y. Bayesian maximum likelihood estimator of phase retardation for quantitative polarization-sensitive optical coherence tomography. Opt Express. vol. 22, 16472-92, 2014.(IF=3.356)

  4. Yamanari M, Nagase S, Fukuda S, Ishii K, Tanaka R, Yasui T, Oshika T, Miura M, Yasuno Y. Scleral birefringence as measured by polarization-sensitive optical coherence tomography and ocular biometric parameters of human eyes in vivo. Biomed Opt Express. vol. 5, 1391-402, 2014.(IF=3.482)

  5. Fukuda S〇, Ohneda O, Oshika T. Oxidative stress retards vascular development before neural degeneration occurs in retinal degeneration rd1 mice. Graefes Arch Clin Exp Ophthalmol, vol. 252, 411-6, 2014.(IF=2.249)

2013

  1. Fukuda S〇, Beheregaray S, Hoshi S, Yamanari M, Lim Y, Hiraoka T, Yasuno Y, Oshika T. Comparison of three-dimensional optical coherence tomography and combining a rotating Scheimpflug camera with a Placido topography system for forme fruste keratoconus diagnosis. Br J Ophthalmol. vol.97, 1554-9, 2013.(IF=3.806)

  2. Alonso-Caneiro D, Yamanari M, Fukuda S, Hoshi S, Nagase S, Oshika T, Yasuno U, Collins M. Non-invasive assessment of corneal crosslinking changes using polarization sensitive optical coherence tomography. Proc. SPIE vol. 8567, 8567OF, 2013. (IF=0.56)

  3. Fukuda S, Nagano M, Yamashita T, Kimura K, Tsuboi I, Salazar G, Ueno S, Kondo M, Kunath T, Oshika T, Ohneda O. Functional endothelial progenitor cells selectively recruit neurovascular protective monocyte-derived F4/80(+) /Ly6c(+) macrophages in a mouse model of retinal degeneration. Stem Cells. vol.31, 2149-61, 2013.(IF=5.587)

  4. Fukuda S〇, Yamanari M, Lim Y, Hoshi S, Beheregaray S, Oshika T, Yasuno Y. Keratoconus diagnosis using anterior segment polarization-sensitive optical coherence tomography. Invest Ophthalmol Vis Sci. vol.54, 1384-91, 2013.(IF=3.388)

2012

  1. Yamanari M, Ishii K, Fukuda S, Lim Y, Duan L, Makita S, Miura M, Oshika T, Yasuno Y. Optical rheology of porcine sclera by birefringence imaging. PLoS One. vol.7, e44026, 2012.(IF=2.766)

2011

  1. Lim Y, Yamanari M, Fukuda S, Kaji Y, Kiuchi T, Miura M, Oshika T, Yasuno Y. Birefringence measurement of cornea and anterior segment by office-based polarization-sensitive optical coherence tomography. Biomed Opt Express, vol.2, 2392-402, 2011.(IF=3.482)

  2. Fukuda S〇, Kawana K, Yasuno Y, Oshika T. Repeatability and reproducibility of anterior chamber volume measurements using 3-dimensional corneal and anterior segment optical coherence tomography. J Cataract Refract Surg, vol. 37, 461-8, 2011.(IF=2.680)

  3. Fukuda S〇, Kawana K, Yasuno Y, Oshika T. Wound architecture of clear corneal incision with or without stromal hydration observed with 3-dimensional optical coherence tomography. Am J Ophthalmol, vol. 151, 413-9, 2011.(IF=4.795)

2010

  1. Yasuno Y, Yamanari M, Kawana K, Miura M, Fukuda S, Makita S, Sakai S, Oshika T. Visibility of trabecular meshwork by standard and polarization-sensitive optical coherence tomography. J Biomed Opt, vol.15, 061705, 2010.(IF=2.367)

  2. Fukuda S〇, Kawana K, Yasuno Y, Oshika T. Repeatability and reproducibility of anterior ocular biometric measurements with 2-dimensional and 3-dimensional optical coherence tomography. J Cataract Refract Surg, vol. 36, 1867-73, 2010.(IF=2.680)

  3. Okamoto F, Okamoto Y, Fukuda S, Hiraoka T, Oshika T. Vision-related quality of life and visual function after vitrectomy for various vitreoretinal disorders. Invest Ophthalmol Vis Sci, vol. 51, 744-51, 2010.(IF=3.388)

2009

  1. Fukuda S〇, Okamoto F, Yuasa M, Kunikata T, Okamoto Y, Hiraoka T, Oshika T. Vision-related quality of life and visual function in patients undergoing vitrectomy, gas tamponade and cataract surgery for macular hole. Br J Ophthalmol, vol. 93, 1595-9, 2009.(IF=3.806)

  2. Huang R, Kaji Y, Fukuda S, Oshika T. Experimental use of estriol for visualizing the vitreous body in the anterior chamber after posterior capsule rupture in animal models. J Cataract Refract Surg, vol. 35, 1260-5, 2009.(IF=2.680)

  3. Fukuda S〇, Kawana K, Yasuno Y, Oshika T. Anterior ocular biometry using 3-dimensional optical coherence tomography. Ophthalmology, vol. 116, 882-9, 2009.(IF=8.470)

2008

  1. Okamoto F, Okamoto Y, Fukuda S, Hiraoka T, Oshika T. Vision-related quality of life and visual function following vitrectomy for proliferative diabetic retinopathy. Am J Ophthalmol, vol. 145, 1031-6, 2008. (IF=4.013)

〇はCorresponding author

著書

  1. Fukuda S, Yasuno Y, Oshika T. Anterior segment OCT: An Overview. Atlas of Anterior Segment Optical Coherence Tomography (Alio JL, Alio del Barrio JL, Editors), Springer Nature Switzerland AG, 2020:1-4.

  2. Fukuda S, Yasuno Y, Oshika T. Anterior segment OCT: Polarization-sensitive OCT. Atlas of Anterior Segment Optical Coherence Tomography (Alio JL, Alio del Barrio JL, Editors), Springer Nature Switzerland AG, 2020:237-249..

  3. 福田慎一「留学体験記」『The Lipid』MEDICAL VIEW出版, vol. 31, 73-76, 2020

  4. 福田慎一「前眼部偏光OCT」『眼科スゴ技 OCT・OCTA』 メディカ出版, 170~175, 2019

  5. 福田慎一「円錐角膜」『前眼部画像診断A to Z』 MEDICAL VIEW出版, 56~63, 2016

  6. 福田慎一「水晶体・白内障術後」『前眼部画像診断A to Z』 MEDICAL VIEW出版, 91~97, 2016

  7. Fukuda S「Neuroprotection by Endothelial Progenitor Cells for Retinal Degeneration」『Neuroprotection and Neutoregeneration for Retinal Disease』Springer社, Chapter22, 323-331, 2014

  8. 福田慎一 「白内障・緑内障・加齢性黄斑変性」『環境と健康シリーズNo.69』大同生命公共事業団, 5-12, 2013

​​総説

  1. 福田慎一 三次元前眼部偏光光干渉断層計による濾過胞内の瘢痕化評価. 日本眼科学会雑誌. vol. 122, 851-8, 2018.

  2. 福田慎一「前眼部偏光OCT」『眼科グラフィック』 メディカ出版, vol. 4, 271-6, 2015.

  3. 福田慎一「マウスの網膜色素変性におけるAlde-Low EPCの血管・神経保護作用」『Retina Medicine』 先端医学社, vol. 3, 69-78, 2014.

  4. 福田慎一 「ぶどう膜炎」『「きょうの健康」2014年10月号』 NHK出版, 128, 2014

  5. 上野勇太, 福田慎一, 大鹿哲郎「角膜の形態解析」『あたらしい眼科』メディカル葵出版, vol. 30, 15-23, 2013.

  6. 福田慎一 大鹿哲郎「眼内Cow Hitch法による偏位眼内レンズ矯正法」『あたらしい眼科』メディカル葵出版, vol. 25, 53-4, 2008.

bottom of page