Skip Navigation Links.
Collapse <span class="m110 colortj mt20 fontw700">Volume 12 (2024)</span>Volume 12 (2024)
Collapse <span class="m110 colortj mt20 fontw700">Volume 11 (2023)</span>Volume 11 (2023)
Collapse <span class="m110 colortj mt20 fontw700">Volume 10 (2022)</span>Volume 10 (2022)
Collapse <span class="m110 colortj mt20 fontw700">Volume 9 (2021)</span>Volume 9 (2021)
Collapse <span class="m110 colortj mt20 fontw700">Volume 8 (2020)</span>Volume 8 (2020)
Collapse <span class="m110 colortj mt20 fontw700">Volume 7 (2019)</span>Volume 7 (2019)
Collapse <span class="m110 colortj mt20 fontw700">Volume 6 (2018)</span>Volume 6 (2018)
Collapse <span class="m110 colortj mt20 fontw700">Volume 5 (2017)</span>Volume 5 (2017)
Collapse <span class="m110 colortj mt20 fontw700">Volume 4 (2016)</span>Volume 4 (2016)
Collapse <span class="m110 colortj mt20 fontw700">Volume 3 (2015)</span>Volume 3 (2015)
Collapse <span class="m110 colortj mt20 fontw700">Volume 2 (2014)</span>Volume 2 (2014)
Collapse <span class="m110 colortj mt20 fontw700">Volume 1 (2013)</span>Volume 1 (2013)
American Journal of Medical Case Reports. 2018, 6(2), 33-35
DOI: 10.12691/AJMCR-6-2-6
Original Research

Relationship between Ocular Pain and Optic Tract Involvement in Optic Neuritis Analyzed by Magnetic Resonance Imaging

Zahra Janamiri1, and Omid Sadeghpour Moradi2

1Department of Radiology Technology, Shohada Tajrish Hospital, School of Allied Medicl Sciences, Shahid Beheshti University of Medical Sciences, Tehran, Iran

2Shahid Beheshti University of Medical Sciences, Tehran, Iran

Pub. Date: March 31, 2018
Full Text PDF

Cite this paper

Zahra Janamiri and Omid Sadeghpour Moradi. Relationship between Ocular Pain and Optic Tract Involvement in Optic Neuritis Analyzed by Magnetic Resonance Imaging. American Journal of Medical Case Reports. 2018; 6(2):33-35. doi: 10.12691/AJMCR-6-2-6

Abstract

Introduction: Optic Neuritis is defined as inflammation of the optic nerve, which is mostly idiopathic, while demyelinating lesions secondary to auto-immune conditions are among other causes. These lesions are demonstrated on Magnetic Resonance Imaging (MRI) as hyper intensities. In this study, authors plan to investigate the relationship between MRI pattern of patients suffering from optic neuritis, and their pain and visual loss patterns. Materials and Methods: From June 2017 to December 2017, we have enrolled 127 patients suffering from optic neuritis. These patients were referred to neurology and ophthalmology clinic of a private hospital in Tehran. Demographic data of all patients were collected and they underwent MRI for evaluation of optic nerve abnormalities and possible lesions and enhancements. Also, detailed pain score regarding their ocular pain were recorded by an expert blind neurologist, categorizing them into pain with movement, pain during rest and no pain. Also, visual field assessments were performed by an expert blinded ophthalmologist. Statistical analysis performed using SPSS version 17.00 and Student T-test and Mann-whitney test and Chi-square test. Results: There were 110 females and 17 males, with mean age of 35.2 years for females and 39.8 for males. Statistical analysis revealed no significant difference between demographic data of patients. (P value=0.12) Of these patients, 116 cases have abnormalities in their neuro-imaging, which 60 cases have pain in eye movement (group A), 37 cases experienced pain during rest (group B) and 19 cases have no pain (group C). Also, 78 patients have optic nerve enhancement in the orbital segment (39 cases of group A, 28 cases of group B, 11 cases of group C), 16 patients have canalicular segment enhancement (4 cases of group A, 9 cases of group B, 3 cases of group C) and 22 patients have intracranial segment enhancement (13 cases of group A, 6 cases of group B, 3 cases of group C). Also we have found that enhancements longer than 8 mm are consistent with more severe ocular pain, whether during movement or rest. (P value < 0.05) Visual field assessment revealed no significant correlation between type and length of optic nerve enhancement on MRI and visual field loss. (P value=0.09). Conclusion: Authors have found that most of the patients suffering from optic neuritis may demonstrate their symptoms as ocular pain during movement, which most of them have orbital segment involvement of optic nerve. Also, we have found that canalicular optic nerve enhancement were mostly associated with ocular pain at rest, opposed to other types of enhancement (orbital and intracranial). Also, we have found a specific threshold defined as 8 mm of optic nerve enhancement and severity of pain, which is less than other studies in literature.

Keywords

optic neuritis, magnetic resonance imaging, enhancement, optic nerve length, visual field

Copyright

Creative CommonsThis work is licensed under a Creative Commons Attribution 4.0 International License. To view a copy of this license, visit http://creativecommons.org/licenses/by/4.0/

References

[1]  Beck, R.W., Smith, C.H., Gal, R.L., Xing, D., Bhatti, M.T., Brodsky, M.C., Buckley, E.G., Chrousos, G.A., Corbett, J., Eggenberger, E., Goodwin, J.A., “Neurologic impairment 10 years after optic neuritis,” Archives of neurology, 61(9). 1386-9. 2004.
 
[2]  Voss, E., Raab, P., Trebst, C., Stangel, M., “Clinical approach to optic neuritis: pitfalls, red flags and differential diagnosis,” Therapeutic advances in neurological disorders, 4(2). 123-34. 2011.
 
[3]  Flanagan, P., Zele, A.J., “Chromatic and luminance losses with multiple sclerosis and optic neuritis measured using dynamic random luminance contrast noise,” Ophthalmic and Physiological Optics, 24(3). 225-33. 2004.
 
[4]  Wingerchuk, D.M., Weinshenker, B.G., “Neuromyelitis optica,” Current treatment options in neurology, 10(1). 55-66. 2008.
 
[5]  Frederiksen, J.L., Larsson, H.B., Henriksen, O., Olesen, J., “Magnetic resonance imaging of the brain in patients with acute monosymptomatic optic neuritis,” Acta neurologica scandinavica, 80(6). 512-7. 1989.
 
[6]  Rizzo, J.F., Lessell, S., “Optic neuritis and ischemic optic neuropathy: overlapping clinical profiles,” Archives of Ophthalmology, 109(12). 1668-72. 1991.
 
[7]  Hayreh, S.S., “Management of ischemic optic neuropathies,” Indian journal of ophthalmology, 59(2). 123. 2011.
 
[8]  Newman, N.J., “Treatment of Leber hereditary optic neuropathy,” Brain, 134(9). 2447. 2011.
 
[9]  Trobe, J.D., Sieving, P.C., Guire, K.E., Fendrick, A.M., “The impact of the optic neuritis treatment trial on the practices of ophthalmologists and neurologists,” Ophthalmology, 106(11). 2047-53. 1999.
 
[10]  Seddighi, A., Akbari, M.E., Seddighi, A.S., Pirayesh, E., Soleymani, M.M., Baqdashti, H.R., Nikouei, A., Zali, A., Tabatabaei, S.M., Naimian, S., “Radioguided surgery using gamma detection probe technology for resection of cerebral glioma,” Hellenic Journal of Nuclear Medicine, 18(Suppl 3). 68-75. 2015.
 
[11]  Ormerod, I.E., McDonald, W.I., Du Boulay, G.H., Kendall, B.E., Moseley, I.F., Halliday, A.M., Kakigi, R., Kriss, A., Peringer, E., “Disseminated lesions at presentation in patients with optic neuritis,” Journal of Neurology, Neurosurgery & Psychiatry, 49(2). 124-7. 1986.
 
[12]  Seddighi, A., Seddighi, A.S., Nikouei, A., Mohseni, G., “NS-06 Image Guided Surgery Using Neuronavigation System in Resection of Cerebral Gliomas Involving Eloquent Cortical Areas in Pediatric Population,” Neuro Oncol, 18. 2016.
 
[13]  Nakajima, H., Hosokawa, T., Sugino, M., Kimura, F., Sugasawa, J., Hanafusa, T., Takahashi, T., “Visual field defects of optic neuritis in neuromyelitis optica compared with multiple sclerosis,” BMC neurology, 10(1). 45. 2010.
 
[14]  Fazzone, H.E., Lefton, D.R., Kupersmith, M.J., “Optic neuritis: correlation of pain and magnetic resonance imaging,” Ophthalmology, 110(8). 1646-9. 2003.