A citation-based method for searching scientific literature

Chan Hee Moon, Sun Chul Hwang, Young-Hoon Ohn, Tae Kwann Park. Invest Ophthalmol Vis Sci 2011
Times Cited: 76







List of co-cited articles
321 articles co-cited >1



Times Cited
  Times     Co-cited
Similarity


Predicting visual outcome after treatment of pituitary adenomas with optical coherence tomography.
Maud Jacob, Gérald Raverot, Emmanuel Jouanneau, Françoise Borson-Chazot, Gilles Perrin, Muriel Rabilloud, Caroline Tilikete, Martine Bernard, Alain Vighetto. Am J Ophthalmol 2009
102
55

In vivo retinal nerve fiber layer thickness measured by optical coherence tomography predicts visual recovery after surgery for parachiasmal tumors.
Helen V Danesh-Meyer, Taras Papchenko, Peter J Savino, Andrew Law, James Evans, Greg D Gamble. Invest Ophthalmol Vis Sci 2008
136
52

Optical coherence tomography predicts visual outcome for pituitary tumors.
Helen V Danesh-Meyer, Aaron Wong, Taras Papchenko, Kaliopy Matheos, Stanley Stylli, Andrew Nichols, Chris Frampton, Mark Daniell, Peter J Savino, Andrew H Kaye. J Clin Neurosci 2015
81
42

Relationship between retinal nerve fiber layer and visual field sensitivity as measured by optical coherence tomography in chiasmal compression.
Helen V Danesh-Meyer, Stuart C Carroll, Rod Foroozan, Peter J Savino, Jennifer Fan, Yannan Jiang, Stephen Vander Hoorn. Invest Ophthalmol Vis Sci 2006
107
39

The time course of visual field recovery following transphenoidal surgery for pituitary adenomas: predictive factors for a good outcome.
K K Gnanalingham, S Bhattacharjee, R Pennington, J Ng, N Mendoza. J Neurol Neurosurg Psychiatry 2005
127
39

Visual prognostic value of optical coherence tomography and photopic negative response in chiasmal compression.
Chan Hee Moon, Sun Chul Hwang, Bum-Tae Kim, Young-Hoon Ohn, Tae Kwann Park. Invest Ophthalmol Vis Sci 2011
82
35

Stages of improvement in visual fields after pituitary tumor resection.
J B Kerrison, M J Lynn, C A Baer, S A Newman, V Biousse, N J Newman. Am J Ophthalmol 2000
100
30

Prognostic factors of visual field improvement after trans-sphenoidal approach for pituitary macroadenomas: review of the literature and analysis by quantitative method.
Lina Raffaella Barzaghi, Marzia Medone, Marco Losa, Stefania Bianchi, Massimo Giovanelli, Pietro Mortini. Neurosurg Rev 2012
51
43

Relationship between macular ganglion cell complex parameters and visual field parameters after tumor resection in chiasmal compression.
Shinji Ohkubo, Tomomi Higashide, Hisashi Takeda, Eiji Murotani, Yasuhiko Hayashi, Kazuhisa Sugiyama. Jpn J Ophthalmol 2012
48
43

Early morphological recovery of the optic chiasm is associated with excellent visual outcome in patients with compressive chiasmal syndrome caused by pituitary tumors.
Yuichiro Yoneoka, Tetsuhisa Hatase, Naoto Watanabe, Shinya Jinguji, Masayasu Okada, Mineo Takagi, Yukihiko Fujii. Neurol Res 2015
37
51

Evaluation of inner retinal layers in eyes with temporal hemianopic visual loss from chiasmal compression using optical coherence tomography.
Mário L R Monteiro, Kenzo Hokazono, Danilo B Fernandes, Luciana V F Costa-Cunha, Rafael M Sousa, Ali S Raza, Diane L Wang, Donald C Hood. Invest Ophthalmol Vis Sci 2014
55
34

Prognostic value of retinal nerve fiber layer thickness for postoperative peripheral visual field recovery in optic chiasm compression.
Tony Garcia, Stéphane Sanchez, Claude Fabien Litré, Corina Radoi, Brigitte Delemer, Pascal Rousseaux, Alain Ducasse, Carl Arndt. J Neurosurg 2014
38
47

Ganglion Cell Complex Loss in Chiasmal Compression by Brain Tumors.
Marisa G Tieger, Thomas R Hedges, Joseph Ho, Natalie K Erlich-Malona, Laurel N Vuong, Geetha K Athappilly, Carlos E Mendoza-Santiesteban. J Neuroophthalmol 2017
66
27

Optical coherence tomography detects characteristic retinal nerve fiber layer thickness corresponding to band atrophy of the optic discs.
Akiyasu Kanamori, Makoto Nakamura, Noriko Matsui, Azusa Nagai, Yoriko Nakanishi, Sentaro Kusuhara, Yuko Yamada, Akira Negi. Ophthalmology 2004
87
22


The role of optical coherence tomography in the detection of pituitary adenoma.
Charlotta Johansson, Bertil Lindblom. Acta Ophthalmol 2009
29
48

Visual recovery after transsphenoidal removal of pituitary adenomas.
A R Cohen, P R Cooper, M J Kupersmith, E S Flamm, J Ransohoff. Neurosurgery 1985
137
18


Use of optical coherence tomography in predicting post-treatment visual outcome in anterior visual pathway meningiomas.
Jing-Liang Loo, Jing Tian, Neil R Miller, Prem S Subramanian. Br J Ophthalmol 2013
29
44

Factors influencing improvement of visual field after trans-sphenoidal resection of pituitary macroadenomas: a retrospective cohort study.
Fen-Fen Yu, Li-Li Chen, Yi-Hua Su, Li-Hun Huo, Xian-Xuan Lin, Rui-Duan Liao. Int J Ophthalmol 2015
23
56


Use of optical coherence tomography to predict visual outcome in parachiasmal meningioma.
Hun Ho Park, Min Chul Oh, Eui Hyun Kim, Chan Yun Kim, Sun Ho Kim, Kyu-Sung Lee, Jong Hee Chang. J Neurosurg 2015
27
44

Predictive model for recovery of visual field after surgery of pituitary adenoma.
Junwon Lee, Seung Woo Kim, Dong Wook Kim, Joo Youn Shin, Moonjung Choi, Min Chul Oh, Seung Min Kim, Eui Hyun Kim, Sun Ho Kim, Suk Ho Byeon. J Neurooncol 2016
23
52

Optical coherence tomography analysis of axonal loss in band atrophy of the optic nerve.
M L R Monteiro, B C Leal, A A M Rosa, M D Bronstein. Br J Ophthalmol 2004
70
15

Relationship between optical coherence tomography, pattern electroretinogram and automated perimetry in eyes with temporal hemianopia from chiasmal compression.
Mário L R Monteiro, Leonardo P Cunha, Luciana V F Costa-Cunha, Otacílio O Maia, Maria K Oyamada. Invest Ophthalmol Vis Sci 2009
44
25

Evaluation of the retinal nerve fibre layer and ganglion cell complex thickness in pituitary macroadenomas without optic chiasmal compression.
G Cennamo, R S Auriemma, D Cardone, L F S Grasso, N Velotti, C Simeoli, C Di Somma, R Pivonello, A Colao, G de Crecchio. Eye (Lond) 2015
32
34

The detection of macular analysis by SD-OCT for optic chiasmal compression neuropathy and nasotemporal overlap.
Azusa Akashi, Akiyasu Kanamori, Kaori Ueda, Yoshiko Matsumoto, Yuko Yamada, Makoto Nakamura. Invest Ophthalmol Vis Sci 2014
36
27

A mechanical theory to account for bitemporal hemianopia from chiasmal compression.
Gawn G McIlwaine, Zia I Carrim, Christian J Lueck, T Malcolm Chrisp. J Neuroophthalmol 2005
36
25

Optical coherence tomography retinal ganglion cell complex analysis for the detection of early chiasmal compression.
Richard J Blanch, Jonathan A Micieli, Nelson M Oyesiku, Nancy J Newman, Valérie Biousse. Pituitary 2018
45
20

Predictive factors of visual function recovery after pituitary adenoma resection: a literature review and Meta-analysis.
Min Sun, Zhi-Qiang Zhang, Chi-Yuan Ma, Sui-Hua Chen, Xin-Jian Chen. Int J Ophthalmol 2017
15
60

Monitoring optic nerve function during craniotomy.
M Feinsod, J B Selhorst, W F Hoyt, C B Wilson. J Neurosurg 1976
77
10



Optical Coherence Tomography Angiography of Retinal Perfusion in Chiasmal Compression.
Tomoaki Higashiyama, Yusuke Ichiyama, Sanae Muraki, Yasuhiro Nishida, Masahito Ohji. Ophthalmic Surg Lasers Imaging Retina 2016
18
44

Prognostic factors for visual recovery after transsphenoidal pituitary adenectomy.
Sangmoon Lee, Seong-Joon Kim, Young Suk Yu, Yong Hwy Kim, Sun Ha Paek, Dong Gyu Kim, Hee-Won Jung. Br J Neurosurg 2013
18
44

Assessment of Optic Pathway Structure and Function in Patients With Compression of the Optic Chiasm: A Correlation With Optical Coherence Tomography.
Pramit M Phal, Christopher Steward, Andrew D Nichols, Chris Kokkinos, Patricia M Desmond, Helen Danesh-Meyer, Yuval Z Sufaro, Andrew H Kaye, Bradford A Moffat. Invest Ophthalmol Vis Sci 2016
18
44


Diagnostic ability of optical coherence tomography with a normative database to detect band atrophy of the optic nerve.
Mário L R Monteiro, Frederico C Moura, Felipe A Medeiros. Am J Ophthalmol 2007
33
21

Progressive improvement of impaired visual acuity during the first year after transsphenoidal surgery for non-functioning pituitary macroadenoma.
O M Dekkers, R J W de Keizer, F Roelfsema, A A Vd Klaauw, P J Honkoop, H van Dulken, J W A Smit, J A Romijn, A M Pereira. Pituitary 2007
38
18

Visual outcomes of pituitary adenoma surgery. St. Vincent's Hospital 1968-1987.
L J Sullivan, J O'Day, P McNeill. J Clin Neuroophthalmol 1991
34
20

Optical coherence tomography.
D Huang, E A Swanson, C P Lin, J S Schuman, W G Stinson, W Chang, M R Hee, T Flotte, K Gregory, C A Puliafito. Science 1991
9

Visual parameters in patients with pituitary adenoma before and after transsphenoidal surgery.
M Marcus, S Vitale, P C Calvert, N R Miller. Aust N Z J Ophthalmol 1991
31
22

Evaluation of early visual recovery in pituitary macroadenomas after endoscopic endonasal transphenoidal surgery: Quantitative assessment with diffusion tensor imaging (DTI).
Ihsan Anik, Yonca Anik, Kenan Koc, Savas Ceylan, Hamza Genc, Ozgul Altintas, Dilek Ozdamar, Duygu Baykal Ceylan. Acta Neurochir (Wien) 2011
39
17


Visual loss and recovery in chiasmal compression.
Helen V Danesh-Meyer, Jinny J Yoon, Mitchell Lawlor, Peter J Savino. Prog Retin Eye Res 2019
21
33

The photopic negative response of the macaque electroretinogram: reduction by experimental glaucoma.
S Viswanathan, L J Frishman, J G Robson, R S Harwerth, E L Smith. Invest Ophthalmol Vis Sci 1999
292
7

The photopic negative response of the flash electroretinogram in retinal vein occlusion.
Hongling Chen, Dezheng Wu, Shizhou Huang, Hong Yan. Doc Ophthalmol 2006
42
14

Correlation between multifocal pattern electroretinography and Fourier-domain OCT in eyes with temporal hemianopia from chiasmal compression.
Mário L R Monteiro, Kenzo Hokazono, Leonardo P Cunha, Maria K Oyamada. Graefes Arch Clin Exp Ophthalmol 2013
16
37

Remyelination and recovery of conduction in cat optic nerve after demyelination by pressure.
Lynne J Cottee, C Daniel, Wai Sim Loh, B M Harrison, W Burke. Exp Neurol 2003
20
30

Reversible dysfunction of retinal ganglion cells in non-secreting pituitary tumors.
Lori M Ventura, Frank X Venzara, Vittorio Porciatti. Doc Ophthalmol 2009
22
27


Co-cited is the co-citation frequency, indicating how many articles cite the article together with the query article. Similarity is the co-citation as percentage of the times cited of the query article or the article in the search results, whichever is the lowest. These numbers are calculated for the last 100 citations when articles are cited more than 100 times.