The axial length and anterior chamber depth in eyes with branch retinal vein occlusion_Chinese Journal of Ocular Fundus Diseases

Authors：

Chen Chen ,  Ma Xiang

Department of Ophthalmology, The First Affiliated Hospital of Dalian Medical University, Dalian 116012, China (Chen Chen, now working at Department of Ophthalmology, Dalian Children's Hospital);

Corresponding author：

Ma Xiang, Email: sdcocowangning@163.com

Keywords：

Retinal vein occlusion/etiology; Axial length, eye/ultrasonography; Anterior chamber depth; Tomography, optical coherence

DOI：

10.3760/cma.j.issn.1005-1015.2018.03.011

Video：

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Objective To observe the axial length and anterior chamber depth in eyes with branch retinal vein occlusion (BRVO). Methods Randomly selected 90 eyes of forty-five patients with BRVO were enrolled in this study. There were 25 males and 20 females. The mean age was (46.22±13.45) years. All the patients were underwent examination of visual acuity, slit-lamp microscope, indiophthalmoscope, fundus color photography and fundus fluorescence angiography (FFA). Randomly selected 45 healthy individuals for control group, including 28 males and 17 females. The mean age was (48.24±15.77) years. The axial lengths and anterior chamber depths of affected and fellow eyes of BRVO patients and the eyes of controls were measured using IOL Master. The data were compared by the two sample paired t test. Results The mean axial length of the affected eyes in the BRVO group was (22.69±0.99) mm, and that of the fellow eyes group was (22.78±1.24) mm. The difference in axial length between the affected eyes and fellow eyes in the BRVO group was not significant (t=0.355, P＞0.05). The mean axial length of the right eyes in the control group was (23.38±1.32) mm, and that of the left eyes in the control group was (23.37±1.27) mm. The difference in axial length between the left eyes and right eyes in the control group was not significant (t=0.017, P＞0.05), while the difference in axial length between the affected eyes in the BRVO group and the right, left eyes in the control group was significant (t=−2.563, −2.663; P＜0.05). The mean anterior chamber depth of the affected eyes in the BRVO group was (2.66±0.26) mm, and that of the fellow eyes was (2.65±0.30) mm. The difference in anterior chamber depth between the affected eyes and fellow eyes in the BRVO group was not significant (t=0.089, P＞0.05). The mean anterior chamber depth of the right eyes in the control group was (2.56±0.29) mm, and that of the left eyes was (2.59±0.30) mm. The difference in anterior chamber depth between the left eyes and right eyes in the control group was not significant (t=−0.592, P＞0.05). The difference in anterior chamber depth between the affected eyes in the BRVO group and the right, left eyes in the control group was not significant (t=1.779, 1.778, P＞0.05). Conclusion In the affected eyes of BRVO, the axial length is shorter and anterior chamber depth is normal.

Citation： Chen Chen, Ma Xiang. The axial length and anterior chamber depth in eyes with branch retinal vein occlusion. Chinese Journal of Ocular Fundus Diseases, 2018, 34(3): 254-257. doi: 10.3760/cma.j.issn.1005-1015.2018.03.011 Copy

1.	Shin YU, Lee MJ, Lee BR. Choroidal maps in different types of macular edema in branch retinal vein occlusion using swept-source optical coherence tomography[J]. Am J Ophthalmol, 2015, 160(2): 328-334. DOI: 10.1016/j.ajo.2015.05.003.
2.	Noma H, Mimura T, Yasuda K, et al. Intravitreal ranibizumab and aqueous humor factors/cytokines in major and macular branch retinal vein occlusion[J]. Ophthalmologica, 2016, 235(4): 203-207. DOI: 10.1159/000444923.
3.	Gokce G, Durukan AH, Ozge G, et al. Letter to the editor: comment on bevacizumab treatment for acute branch retinal vein occlusion accompanied by Subretinal Hemorrhage[J]. Curr Eye Res, 2016;41(4): 574-575. DOI: 10.3109/02713683.2015.1029135.
4.	Turgut B, Yildirim H. The causes of hyperreflective dots in optical coherence tomography excluding diabetic macular edema and retinal venous occlusion[J]. Open Ophthalmol J, 2015, 9: 36-40. DOI: 10.2174/1874364101509010036.
5.	Kouros P, Gerding H. Retinochoroiditis toxoplasmotica initially presenting as branch retinal vein occlusion[J]. Klin Monbl Augenheilkd, 2015, 232(4): 573-575. DOI: 10.1055/s-0035-1545799.
6.	伍蒙爱, 陈峰, 黄胜海, 等. 正常新生儿和早产儿视网膜静脉曲折度定量分析研究[J]. 中华眼底病杂志, 2015, 31(5): 443-446. DOI: 10.3760/cma.j.issn.1005-1015.2015.05.008.Wu MA, Chen F, Huang SH, et al. Quantitative analysis of retinal venous tortuosity in neonatal and premature infants[J]. Chin J Ocul Fundus Dis, 2015, 31(5): 443-446. DOI: 10.3760/cma.j.issn.1005-1015.2015.05.008.
7.	Ponto KA, ELbaz H, Peto T, et al. Prevalence and risk factors of retinal vein occlusion: the Gutenberg Health Study[J]. J Thromb Haemost, 2015, 13(7): 1254-1263. DOI: 10.1111/jth.12982.
8.	Albar AA, Nowilaty SR, Ghazi NG. Nanophthalmos and hemiretinal vein occlusion: a case report[J]. Saudi J Ophthalmol, 2015, 29(1): 89-91. DOI: 10.1016/j.sjopt.2014.11.005.
9.	杨丽亚, 徐延山, 杨凯转, 等.不同视网膜静脉阻塞患眼视盘水平径及杯盘比差异观察[J]. 中华眼底病杂志, 2014, 30(5): 458-461. DOI: 10.3760/cma.j.issn.1005-1015.2014.05.007.Yang LY, Xu YS, Yang KZ, et al. The differences of horizontal optic disc diameter and cup/disc ratio in eyes with different kinds of retinal vein occlusion[J]. Chin J Ocul Fundus Dis, 2014, 30(5): 458-461. DOI: 10.3760/cma.j.issn.1005-1015.2014.05.007.
10.	Wang Y, Morgan ML, Espino Barros Palau A, et al. Dermatomy-related nonischemic central retinal vein occlusion[J]. J Neuroophthalmol, 2015, 35(3): 289-292. DOI: 10.1097/WNO.0000000000000235.
11.	Girmens JF, Glacet-Bernard A, Kodjikian L, et al. Management of macular edema secondary to retinal vein occlusion[J]. J Fr Ophtalmol, 2015, 38(3): 253-263. DOI: 10.1016/j.jfo.2014.10.003.
12.	Li B, Feng K, Han L, et al. Bevacizumab for acute branch retinal vein occlusion with subretinal hemorrhage[J]. Curr Eye Res, 2015, 40(7): 758. DOI: 10.3109/02713683.2015.1004723.
13.	Tas A, IIhan A, Yolcu U, et al. Bevacizumab treatment for acute branch retinal vein occlusion accompanied by subretinal hemorrhage[J]. Curr Eye Res, 2015, 40(7): 757. DOI: 10.3109/02713683.2014.1002049.
14.	Noma H, Mimura T, Kuse M, et al. Photopic negative response in branch retinal vein occlusion with macular edema[J]. Int Ophthalmol, 2015, 35(1): 19-26. DOI: 10.1007/s10792-014-0012-z.
15.	Goel N, Kumar V, Seth A, et al. Branch retinal artery occlusion associated with congenital retinal macrovessel[J]. Oman J Ophthalmol, 2014, 7(2): 96-97. DOI: 10.4103/0974-620X.137172.

1. Shin YU, Lee MJ, Lee BR. Choroidal maps in different types of macular edema in branch retinal vein occlusion using swept-source optical coherence tomography[J]. Am J Ophthalmol, 2015, 160(2): 328-334. DOI: 10.1016/j.ajo.2015.05.003.
2. Noma H, Mimura T, Yasuda K, et al. Intravitreal ranibizumab and aqueous humor factors/cytokines in major and macular branch retinal vein occlusion[J]. Ophthalmologica, 2016, 235(4): 203-207. DOI: 10.1159/000444923.
3. Gokce G, Durukan AH, Ozge G, et al. Letter to the editor: comment on bevacizumab treatment for acute branch retinal vein occlusion accompanied by Subretinal Hemorrhage[J]. Curr Eye Res, 2016;41(4): 574-575. DOI: 10.3109/02713683.2015.1029135.
4. Turgut B, Yildirim H. The causes of hyperreflective dots in optical coherence tomography excluding diabetic macular edema and retinal venous occlusion[J]. Open Ophthalmol J, 2015, 9: 36-40. DOI: 10.2174/1874364101509010036.
5. Kouros P, Gerding H. Retinochoroiditis toxoplasmotica initially presenting as branch retinal vein occlusion[J]. Klin Monbl Augenheilkd, 2015, 232(4): 573-575. DOI: 10.1055/s-0035-1545799.
6. 伍蒙爱, 陈峰, 黄胜海, 等. 正常新生儿和早产儿视网膜静脉曲折度定量分析研究[J]. 中华眼底病杂志, 2015, 31(5): 443-446. DOI: 10.3760/cma.j.issn.1005-1015.2015.05.008.Wu MA, Chen F, Huang SH, et al. Quantitative analysis of retinal venous tortuosity in neonatal and premature infants[J]. Chin J Ocul Fundus Dis, 2015, 31(5): 443-446. DOI: 10.3760/cma.j.issn.1005-1015.2015.05.008.
7. Ponto KA, ELbaz H, Peto T, et al. Prevalence and risk factors of retinal vein occlusion: the Gutenberg Health Study[J]. J Thromb Haemost, 2015, 13(7): 1254-1263. DOI: 10.1111/jth.12982.
8. Albar AA, Nowilaty SR, Ghazi NG. Nanophthalmos and hemiretinal vein occlusion: a case report[J]. Saudi J Ophthalmol, 2015, 29(1): 89-91. DOI: 10.1016/j.sjopt.2014.11.005.
9. 杨丽亚, 徐延山, 杨凯转, 等.不同视网膜静脉阻塞患眼视盘水平径及杯盘比差异观察[J]. 中华眼底病杂志, 2014, 30(5): 458-461. DOI: 10.3760/cma.j.issn.1005-1015.2014.05.007.Yang LY, Xu YS, Yang KZ, et al. The differences of horizontal optic disc diameter and cup/disc ratio in eyes with different kinds of retinal vein occlusion[J]. Chin J Ocul Fundus Dis, 2014, 30(5): 458-461. DOI: 10.3760/cma.j.issn.1005-1015.2014.05.007.
10. Wang Y, Morgan ML, Espino Barros Palau A, et al. Dermatomy-related nonischemic central retinal vein occlusion[J]. J Neuroophthalmol, 2015, 35(3): 289-292. DOI: 10.1097/WNO.0000000000000235.
11. Girmens JF, Glacet-Bernard A, Kodjikian L, et al. Management of macular edema secondary to retinal vein occlusion[J]. J Fr Ophtalmol, 2015, 38(3): 253-263. DOI: 10.1016/j.jfo.2014.10.003.
12. Li B, Feng K, Han L, et al. Bevacizumab for acute branch retinal vein occlusion with subretinal hemorrhage[J]. Curr Eye Res, 2015, 40(7): 758. DOI: 10.3109/02713683.2015.1004723.
13. Tas A, IIhan A, Yolcu U, et al. Bevacizumab treatment for acute branch retinal vein occlusion accompanied by subretinal hemorrhage[J]. Curr Eye Res, 2015, 40(7): 757. DOI: 10.3109/02713683.2014.1002049.
14. Noma H, Mimura T, Kuse M, et al. Photopic negative response in branch retinal vein occlusion with macular edema[J]. Int Ophthalmol, 2015, 35(1): 19-26. DOI: 10.1007/s10792-014-0012-z.
15. Goel N, Kumar V, Seth A, et al. Branch retinal artery occlusion associated with congenital retinal macrovessel[J]. Oman J Ophthalmol, 2014, 7(2): 96-97. DOI: 10.4103/0974-620X.137172.

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