Analysis of retinal sublayer thickness in Leber hereditary optic neuropathy and <i>G11778A</i> mutation carriers_Chinese Journal of Ocular Fundus Diseases

Authors：

Cheng Yufang , Miao Qingmei , Yuan Jiajia ,  Chen Changzheng

Department of Ophthalmology, Renmin Hospital of Wuhan University, Wuhan 430060, China;

Corresponding author：

Chen Changzheng, Email: whuchenchzh@163.com

Keywords：

Leber hereditary optic neuropathy; Mitochondrial disorders; Tomography, optical coherence; Peripapillary retinal nerve fiber layer; Photoreceptors sublayers thickness

DOI：

10.3760/cma.j.cn511434-20221115-00608

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Objective To analyze the thickness of peripapillary retinal nerve fiber layer (pRNFL) and photoreceptor (PR) sublayer in Leber hereditary optic neuropathy (LHON) and G11778A mutation carriers. Methods A cross sectional study. From September 2020 to October 2021, 68 LHON patients (136 eyes) (patient group) and 40 G11778A mutation carriers (80 eyes) of LHON patients' families (carrier group) were included in the study. All patients were found to have G11778A mutation by Genetic testing. Forty healthy volunteers with 80 eyes matched to the age and gender of the patient group were recruited as a normal control group. All eyes were examined by optical coherence tomography (OCT). The pRNFL thickness was automatically measured by the built-in software of the OCT device. The total retinal thickness (MT) and the thickness of the outer bundle layer (OPL), outer nuclear layer (ONL), external limiting membrane to retinal pigment epithelium (ELM-RPE) in macular OCT images were measured by Image J software. Linear mixed model was used to analyze and compare the thickness of pRNFL, macular fovea and four layers above the nasal and temporal paracentral retina in patients, carriers and normal controls. The correlation between pRNFL and macular retinal sublayer thickness and the course of disease was also analyzed. Results The thickness of the upper and lower pRNFL, temporal pRNFL and average pRNFL of the patients were smaller than those of the carriers and the normal control group (P＜0.01), and the nasal pRNFL thickness of the patients was smaller than that of the carriers (P＜0.01). Fovea: compared with the normal control group, the thickness of MT and ONT in the patient group was decreased, ONL thickness decreased in carrier group, with the significant different (P＜0.05). Parafovea: compared with normal control group, the thickness of MT and temporal ONL decreased and temporal OPL increased in the patients group, with the significant different (P＜0.05). In the carrier group, the thickness of MT and temporal, nasal ONL decreased, and the thickness of nasal OPL increased, with the significant different (P＜0.05). Compared with the carrier group, the MT thickness of the patient group was decreased, and the nasal ONL and nasal ELM-RPE thickness were increased, with the significant different (P＜0.05). Correlation analysis results showed that the thinning of pRNFL in the superior, nasal, temporal and average (r=－0.22, －0.21, －0.25, －0.22), and the thickening of ELM-RPE in foveo-temporal (r=0.19) were correlated with the course of disease (P＜0.05). Conclusions The pRNFL of LHON patients with G11778A mutation becomes thinner and is related to the course of the disease. There were significant differences in the thickness of MT and PR sublayers between patients and carriers compared to the normal control group.

Citation： Cheng Yufang, Miao Qingmei, Yuan Jiajia, Chen Changzheng. Analysis of retinal sublayer thickness in Leber hereditary optic neuropathy and G11778A mutation carriers. Chinese Journal of Ocular Fundus Diseases, 2023, 39(7): 554-559. doi: 10.3760/cma.j.cn511434-20221115-00608 Copy

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2.	Germain F, Fernández E, de la Villa PMorphometrical analysis of dendritic arborization in axotomized retinal ganglion cells[J]. Eur J Neurosci200318511031109. DOI: 10.1046/j.1460-9568.2003.02842.x.
3.	Balducci N, Savini G, Cascavilla ML, et alMacular nerve fibre and ganglion cell layer changes in acute Leber's hereditary optic neuropathy[J]. Br J Ophthalmol2016100912321237. DOI: 10.1136/bjophthalmol-2015-307326.
4.	Levin LAMechanisms of retinal ganglion specific-cell death in Leber hereditary optic neuropathy[J]. Trans Am Ophthalmol Soc2007105379391.
5.	Kerrison JB, Howell N, Miller NR, et alLeber hereditary optic neuropathy. Electron microscopy and molecular genetic analysis of a case[J]. Ophthalmology19951021015091516. DOI: 10.1016/s0161-6420(95)30838-x.
6.	Zhang Y, Huang H, Wei S, et alCharacterization of macular thickness changes in Leber's hereditary optic neuropathy by optical coherence tomography[J]. BMC Ophthalmol201414105. DOI: 10.1186/1471-2415-14-105.
7.	Stone J, Van Driel D, Valter K, et alThe locations of mitochondria in mammalian photoreceptors: relation to retinal vasculature[J]. Brain Res200811895869. DOI: 10.1016/j.brainres.2007.10.083.
8.	Huang S, Chen Q, Ma Q, et alThree-dimensional characteristics of four macular intraretinal layer thicknesses in symptomatic and asymptomatic carriers of G11778A mutation with Leber's hereditary optic neuropathy[J]. Retina2016361224092418. DOI: 10.1097/iae.0000000000001111.
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10.	程宇芳, 陈长征光相干断层扫描及其血管成像在Leber遗传性视神经病变中的应用研究进展[J]. 中华眼底病杂志20213710821825. DOI: 10.3760/cma.j.cn511434-20201124-00582. ..Cheng YF, Chen CZResearch progress of optical coherence tomography and optical coherence tomography angiography in Leber hereditary optic neuropathy[J]. Chin J Ocul Fundus Dis20213710821825. doi:10.3760/cma.j.cn511434-20201124-00582.
11.	Wang D, Liu HL, Du YY, et alCharacterisation of thickness changes in the peripapillary retinal nerve fibre layer in patients with Leber's hereditary optic neuropathy[J]. Br J Ophthalmol2021105811661171. DOI: 10.1136/bjophthalmol-2020-316573.
12.	刘哲, 孙传宾, 童绎, 等相干光断层扫描检测Leber遗传性视神经病变视网膜神经纤维层厚度改变[J]. 中华眼科杂志20124810888892. DOI: 10.3760/cma.j.issn.0412-4081.2012.10.007.Liu Z, Sun CB, Tong Y, et alMeasurement of retinal nerve fiber layer thickness in Leber hereditary optic neuropathy by optical coherence tomography[J]. Chin J Ophthalmol20124810888892. DOI: 10.3760/cma.j.issn.0412-4081.2012.10.007.
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14.	Moster SJ, Moster ML, Scannell Bryan M, et alRetinal ganglion cell and inner plexiform layer loss correlate with visual acuity loss in LHON: a longitudinal, segmentation OCT analysis[J]. Invest Ophthalmol Vis Sci201657838723883. DOI: 10.1167/iovs.15-17328.
15.	Darvizeh F, Asanad S, Falavarjani KG, et alChoroidal thickness and the retinal ganglion cell complex in chronic Leber's hereditary optic neuropathy: a prospective study using swept-source optical coherence tomography[J]. Eye (Lond)202034916241630. DOI: 10.1038/s41433-019-0695-5.
16.	Mumm JS, Godinho L, Morgan JL, et alLaminar circuit formation in the vertebrate retina[J]. Prog Brain Res2005147155169. DOI: 10.1016/S0079-6123(04)47012-5.
17.	Germain F, Calvo M, de la Villa PRabbit retinal ganglion cell survival after optic nerve section and its effect on the inner plexiform layer[J]. Exp Eye Res200478195102. DOI: 10.1016/j.exer.2003.09.012.
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19.	Fujihara FMF, de Arruda Mello PA, Lindenmeyer RL, et alIndividual macular layer evaluation with spectral domain optical coherence tomography in normal and glaucomatous eyes[J]. Clin Ophthalmol2020141591-1599. DOI: 10.2147/OPTH.S256755.
20.	Nork TM, Ver Hoeve JN, Poulsen GL, et alSwelling and loss of photoreceptors in chronic human and experimental glaucomas[J]. Arch Ophthalmol20001182235245. DOI: 10.1001/archopht.118.2.235.
21.	Liu H, Prokosch VEnergy metabolism in the inner retina in health and glaucoma[J]. Int J Mol Sci20212273689. DOI: 10.3390/ijms22073689.
22.	Chinchore Y, Begaj T, Wu D, et al. Glycolytic reliance promotes anabolism in photoreceptors[J/OL]. Elife, 2017, 6: e25946[2017-06-09]. https://europepmc.org/article/MED/2859832. DOI: 10.7554/eLife.25946.
23.	Bringmann A, Barth T, Wiedemann R, et al. Age- and sex-related variations of individual retinal layer thickness in the foveal center of healthy eyes[J/OL]. Exp Eye Res, 2022, 219: 109038[2022-03-17]. https://linkinghub.elsevier.com/retrieve/pii/S0014-4835(22)00119-1. DOI: 10.1016/j.exer.2022.109038.

1. Chen JR, Chen C, Chen J, et alNuclear modifier YARS2 allele correction restored retinal ganglion cells-specific deficiencies in Leber's hereditary optic neuropathy[J]. Hum Mol Genet202332915391551. DOI: 10.1093/hmg/ddad001.
2. Germain F, Fernández E, de la Villa PMorphometrical analysis of dendritic arborization in axotomized retinal ganglion cells[J]. Eur J Neurosci200318511031109. DOI: 10.1046/j.1460-9568.2003.02842.x.
3. Balducci N, Savini G, Cascavilla ML, et alMacular nerve fibre and ganglion cell layer changes in acute Leber's hereditary optic neuropathy[J]. Br J Ophthalmol2016100912321237. DOI: 10.1136/bjophthalmol-2015-307326.
4. Levin LAMechanisms of retinal ganglion specific-cell death in Leber hereditary optic neuropathy[J]. Trans Am Ophthalmol Soc2007105379391.
5. Kerrison JB, Howell N, Miller NR, et alLeber hereditary optic neuropathy. Electron microscopy and molecular genetic analysis of a case[J]. Ophthalmology19951021015091516. DOI: 10.1016/s0161-6420(95)30838-x.
6. Zhang Y, Huang H, Wei S, et alCharacterization of macular thickness changes in Leber's hereditary optic neuropathy by optical coherence tomography[J]. BMC Ophthalmol201414105. DOI: 10.1186/1471-2415-14-105.
7. Stone J, Van Driel D, Valter K, et alThe locations of mitochondria in mammalian photoreceptors: relation to retinal vasculature[J]. Brain Res200811895869. DOI: 10.1016/j.brainres.2007.10.083.
8. Huang S, Chen Q, Ma Q, et alThree-dimensional characteristics of four macular intraretinal layer thicknesses in symptomatic and asymptomatic carriers of G11778A mutation with Leber's hereditary optic neuropathy[J]. Retina2016361224092418. DOI: 10.1097/iae.0000000000001111.
9. Lam BL, Burke SP, Wang MX, et alMacular retinal sublayer thicknesses in G11778A Leber hereditary optic neuropathy[J]. Ophthalmic Surg Lasers Imaging Retina2016479802810. DOI: 10.3928/23258160-20160901-02.
10. 程宇芳, 陈长征光相干断层扫描及其血管成像在Leber遗传性视神经病变中的应用研究进展[J]. 中华眼底病杂志20213710821825. DOI: 10.3760/cma.j.cn511434-20201124-00582. ..Cheng YF, Chen CZResearch progress of optical coherence tomography and optical coherence tomography angiography in Leber hereditary optic neuropathy[J]. Chin J Ocul Fundus Dis20213710821825. doi:10.3760/cma.j.cn511434-20201124-00582.
11. Wang D, Liu HL, Du YY, et alCharacterisation of thickness changes in the peripapillary retinal nerve fibre layer in patients with Leber's hereditary optic neuropathy[J]. Br J Ophthalmol2021105811661171. DOI: 10.1136/bjophthalmol-2020-316573.
12. 刘哲, 孙传宾, 童绎, 等相干光断层扫描检测Leber遗传性视神经病变视网膜神经纤维层厚度改变[J]. 中华眼科杂志20124810888892. DOI: 10.3760/cma.j.issn.0412-4081.2012.10.007.Liu Z, Sun CB, Tong Y, et alMeasurement of retinal nerve fiber layer thickness in Leber hereditary optic neuropathy by optical coherence tomography[J]. Chin J Ophthalmol20124810888892. DOI: 10.3760/cma.j.issn.0412-4081.2012.10.007.
13. Mizoguchi A, Hashimoto Y, Shinmei Y, et alMacular thickness changes in a patient with Leber's hereditary optic neuropathy[J]. BMC Ophthalmol20151527. DOI: 10.1186/s12886-015-0015-1.
14. Moster SJ, Moster ML, Scannell Bryan M, et alRetinal ganglion cell and inner plexiform layer loss correlate with visual acuity loss in LHON: a longitudinal, segmentation OCT analysis[J]. Invest Ophthalmol Vis Sci201657838723883. DOI: 10.1167/iovs.15-17328.
15. Darvizeh F, Asanad S, Falavarjani KG, et alChoroidal thickness and the retinal ganglion cell complex in chronic Leber's hereditary optic neuropathy: a prospective study using swept-source optical coherence tomography[J]. Eye (Lond)202034916241630. DOI: 10.1038/s41433-019-0695-5.
16. Mumm JS, Godinho L, Morgan JL, et alLaminar circuit formation in the vertebrate retina[J]. Prog Brain Res2005147155169. DOI: 10.1016/S0079-6123(04)47012-5.
17. Germain F, Calvo M, de la Villa PRabbit retinal ganglion cell survival after optic nerve section and its effect on the inner plexiform layer[J]. Exp Eye Res200478195102. DOI: 10.1016/j.exer.2003.09.012.
18. Choi SS, Zawadzki RJ, Keltner JL, et alChanges in cellular structures revealed by ultra-high resolution retinal imaging in optic neuropathies[J]. Invest Ophthalmol Vis Sci200849521032119. DOI: 10.1167/iovs.07-0980.
19. Fujihara FMF, de Arruda Mello PA, Lindenmeyer RL, et alIndividual macular layer evaluation with spectral domain optical coherence tomography in normal and glaucomatous eyes[J]. Clin Ophthalmol2020141591-1599. DOI: 10.2147/OPTH.S256755.
20. Nork TM, Ver Hoeve JN, Poulsen GL, et alSwelling and loss of photoreceptors in chronic human and experimental glaucomas[J]. Arch Ophthalmol20001182235245. DOI: 10.1001/archopht.118.2.235.
21. Liu H, Prokosch VEnergy metabolism in the inner retina in health and glaucoma[J]. Int J Mol Sci20212273689. DOI: 10.3390/ijms22073689.
22. Chinchore Y, Begaj T, Wu D, et al. Glycolytic reliance promotes anabolism in photoreceptors[J/OL]. Elife, 2017, 6: e25946[2017-06-09]. https://europepmc.org/article/MED/2859832. DOI: 10.7554/eLife.25946.
23. Bringmann A, Barth T, Wiedemann R, et al. Age- and sex-related variations of individual retinal layer thickness in the foveal center of healthy eyes[J/OL]. Exp Eye Res, 2022, 219: 109038[2022-03-17]. https://linkinghub.elsevier.com/retrieve/pii/S0014-4835(22)00119-1. DOI: 10.1016/j.exer.2022.109038.

Chinese Journal of Ocular Fundus Diseases

Analysis of retinal sublayer thickness in Leber hereditary optic neuropathy and G11778A mutation carriers

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