您的位置: 首页 > 2019年3月 第4卷 第3期 > 文字全文

Optical coherence tomography findings in a case of cilioretinal artery occlusion reversal, treated with mannitol and carbogen administration

Optical coherence tomography findings in a case of cilioretinal artery occlusion reversal, treated with mannitol and carbogen administration

来源期刊: Annals of Eye Science | 2019年3月 第4卷 第3期 - 发布时间: 06 March 2019.阅读量:930
作者:
关键词:
Cilioretinal artery occlusion (CLRAO) carbogen and mannitol administration optical coherence tomography (OCT)
Cilioretinal artery occlusion (CLRAO) carbogen and mannitol administration optical coherence tomography (OCT)
DOI:
10.21037/aes.2019.02.01

Abstract: To present spectral domain optical coherence tomography (OCT) findings during treatment in a case of acute isolated cilioretinal artery occlusion (CLRAO) reversed with intravenous systemic administration of mannitol and carbogen inhalation. Close monitoring with OCT thickness topographic map and cross section scans, every 12 hours, during treatment and till complete reversal of retinal nerve fiber layer edema. Fundus photography and fluorescein angiography (FFA) were used to illustrate occlusion and recanalization. After 72 hours of therapy, visual acuity improved from counting fingers (CF) to 7/10, Snellen’s chart. Consecutively OCT scans showed that the initial macular edema was gradually restored to typical 72 hours of treatment initiation. FFA performed after treatment confirmed recanalization of the cilioretinal artery. Early intervention with the combined intravenous administration of mannitol and carbogen inhalation can reverse acute onset loss of vision due to CLRAO. The reflectivity of retinal layers differs significantly regarding stages of acute CLRAO. In our case report increased reflectivity of the innermost layers of the retina was illustrated and a corresponding reduction in the outer retina and the retinal pigment epithelium and choriocapillaris layers. Macular thickness follow-up data recorded the course of intracellular edema to normal.

Abstract: To present spectral domain optical coherence tomography (OCT) findings during treatment in a case of acute isolated cilioretinal artery occlusion (CLRAO) reversed with intravenous systemic administration of mannitol and carbogen inhalation. Close monitoring with OCT thickness topographic map and cross section scans, every 12 hours, during treatment and till complete reversal of retinal nerve fiber layer edema. Fundus photography and fluorescein angiography (FFA) were used to illustrate occlusion and recanalization. After 72 hours of therapy, visual acuity improved from counting fingers (CF) to 7/10, Snellen’s chart. Consecutively OCT scans showed that the initial macular edema was gradually restored to typical 72 hours of treatment initiation. FFA performed after treatment confirmed recanalization of the cilioretinal artery. Early intervention with the combined intravenous administration of mannitol and carbogen inhalation can reverse acute onset loss of vision due to CLRAO. The reflectivity of retinal layers differs significantly regarding stages of acute CLRAO. In our case report increased reflectivity of the innermost layers of the retina was illustrated and a corresponding reduction in the outer retina and the retinal pigment epithelium and choriocapillaris layers. Macular thickness follow-up data recorded the course of intracellular edema to normal.

Introduction

Cilioretinal artery occlusion (CLRAO) involving the macula causes sudden catastrophic loss of vision due to neuronal destruction of the inner layers of the retina. CLRAO has no predefined algorithm of treatment. Systemic screening and observation describe ophthalmologist’s modus operandi. It is a distinct clinical entity, as cilioretinal arterioles arise from the posterior ciliary artery, contrary to the central retinal artery that supplies the inner retina. Etiologically it is classified in three distinct entities: (I) nonarteritic CLRAO alone, (II) nonarteritic CLRAO associated with central vein occlusion (CRVO) and (III) arteritic CLRAO associated with giant cell arteritis (GCA). Of the three types, those associated with GCA and those with central vein occlusion require detailed discussion about their pathogeneses, which are controversial (1).

Approximately 15–30% of the general population has a cilioretinal artery which supplies the whole or a part of the fovea, CLRAO has an incidence of approximately 1 to 10 in 100,000 (1). Symptomatic CLRAO is less common than retinal artery occlusions (RAO), comprising about 5.3–7.1% of all RAOs (1).

Our search in peer review articles showed that there had been no reports presenting isolated CLRAO treated effectively with combined intra venous mannitol (2) and carbogen inhalation (3) which simultaneously recorded edema recession with consecutively macular thickness and reflectivity optical coherence tomography (OCT) scans and contrasts with previously reported cases. The case report was conducted in accordance with the ethical standards stated in the Declaration of Helsinki and was approved by an institutional review board; written consent was obtained from the participant.


Case presentation

A 67-year-old man came to our vitreoretinal clinic with a sudden painless loss of vision, in the left eye with onset 6 hours prior to presentation. Ocular history was not contributory. Patient’s blood laboratory findings, systemic physical examination, electrocardiogram, and chest x-ray were all unremarkable. Carotid artery triplex ultrasound revealed bilateral internal carotid artery stenosis which was more severe in the left side, 30–35%.

On ophthalmic examination, best-corrected visual acuity was 8/10 in the right eye (OD) and counting fingers (CF) in the left eye (OS). Intraocular pressure was 12 mmHg in OD and 22 mmHg in OS. Anterior segment examination with slit-lamp was normal in both eyes. Funduscopy of the right eye was normal; left eye showed well demarcated papillomacular bundle edema centered on cilioretinal artery adjacent to the fovea and cherry red spot (Figure 1A). Fluorescein angiography (FFA) of the left eye showed masking of choroidal fluorescence secondary to retinal edema and delayed filling of cilioretinal artery with late hyperfluorescence (Figure 1B). FFA which was performed on the second week after treatment demonstrated that the cilioretinal artery was recanalized (Figure 1C).

figure1

figure1

OCT thickness was automatically calculated by mapping software on admission, confirming nasal paramacular and perimacular edema (412 & 373 μm, Figure 1D). Humphrey visual field testing showed a significant central visual field defect. We diagnosed the disease as CLRAO.

Therapy was started 7 hours after the onset of symptoms. Carbogen, a mixture of 4–7% carbon dioxide and 93–96% oxygen was conducted for 10 minutes hourly during waking hours, and 10 min every 4 hours at night and continued for 72 hours. Intravenous mannitol was administered in the dosage of 2 gr per kilogram of body weight twice per day and continued for 72 hours. Dorzolamide and brimonidine tartrate was topically applied three times daily (t.i.d.).

OCT macular scans were acquired from both eyes every 12 hours demonstrating gradual thickness reduction (Figure 1E,F,G,H). The last performed scan showed that paramacular, and perimacular thickness was restored to normal, 336 and 310 μm (Figure 1I). Increased reflectivity of the innermost layers of the retina, was identified and a corresponding reduction of reflectivity in the outer retina and the retinal pigment epithelium and choriocapillaris layers (Figure 1J,K).


Discussion

CLRAO has been reported in cases related to antiphospholipid syndrome, cisplatin, embolism, migraine, sildenafil, SLE, pregnancy, systemic hypertension, and hyperhomocysteinemia (4-7). In our case, there was a 30–35% stenosis of the left internal carotid artery, an associated risk factor for CLRAO. As oxygen consumption of the retina is 13 mL/100 g/minute (8) the highest rate of any organ in the body, it is susceptible to ischemia. CLRAO results in inner layer edema and pyknosis of the ganglion cell nuclei, ischemic necrosis, and retina opacification. In order to prevent irreversible damage to the retina, therapy must be provided as soon as possible after the onset of vision loss irreversible retinal damage occurs 240 minutes after the occlusive event (9).

The ocular perfusion pressure is equal to the difference between the central retinal artery and the central retinal vein. Equilibrium between the pressure inside retinal veins and the intraocular pressure (IOP) is required; reduction of the later may increase the retinal artery perfusion or help dislodge the embolus. Many strategies have been employed by surgeons for this purpose, such as bulbus massage, anterior chamber paracentesis, and pharmacological administration of agents reducing the IOP, as mannitol.

Carbogen administration is based on the hypothesis that carbon dioxide will prevent oxygen-induced vasoconstriction and hence improve or maintain the blood flow while maintaining the oxygenation of the retina.


Conclusions

Retinal vascular occlusions are serious events that require investigation for a life-threatening underlying systemic disease. The spectrum of clinical variability was related to the extent of the ischemic area, the location of the occlusion, and the degree of macular involvement. A thorough assessment is required in order to identify the etiology. CLRAO should be considered as an ocular emergency analog of cerebral stroke or infarction. Atherosclerotic risk factors must be evaluated to prevent further medical comorbidities. Current systemic management in CLRAO is considered to have limited efficacy in improving vision and announcements suggest that for treatment to be effective, it must be initiated within 240 minutes symptoms onset. Oxygen deprivation of the inner retinal layers leads to cell and nerve fibers edema and lowering of light transmission. Spectral domain OCT is based on light interference of a reference arm and the sample arm. In the sample arm, different structures will have different indices of refraction and light will be backscattered when it encounters materials of different refractive index. The edematous high index layers cause optical shadowing of the outer layers due to high reflectivity.

SD-OCT images in the acute stage shows: (I) increased macular thickness which gradually improved during treatment; (II) inner retinal layers; the nerve fiber, ganglion cell, inner plexiform, inner nuclear and outer plexiform layers, present increased reflectivity corresponding to higher thickness; (III) the outer retinal layers; outer nuclear and retinal pigment epithelium, shows reduced reflectivity. At a late phase OCT findings of reflectivity was reversed.

To our knowledge this is the only case of CLRAO that reports effective treatment with combined administration of mannitol and carbogen inhalation. Clinical observation is accompanied with FFA documentation of recanalization and complete follow-up data of retinal thickness and reflectivity. A retrospective review (10) describes similar SD-OCT findings of two cases with central RAO.


1、Falkenberry SM, Ip MS, Blodi BA, et al. Optical coherence tomography findings in central retinal artery occlusion. Ophthalmic Surg Lasers Imaging 2006;37:502-5. Falkenberry SM, Ip MS, Blodi BA, et al. Optical coherence tomography findings in central retinal artery occlusion. Ophthalmic Surg Lasers Imaging 2006;37:502-5.
2、Hayreh SS, Zimmerman MB, Kimura A, et al. Central retinal artery occlusion. Retinal survival time. Exp Eye Res 2004;78:723-36. Hayreh SS, Zimmerman MB, Kimura A, et al. Central retinal artery occlusion. Retinal survival time. Exp Eye Res 2004;78:723-36.
3、Werkmeister RM, Schmidl D, Aschinger G, et al. Retinal oxygen extraction in humans. Sci Rep 2015;5:15763. Werkmeister RM, Schmidl D, Aschinger G, et al. Retinal oxygen extraction in humans. Sci Rep 2015;5:15763.
4、Basu A, Eyong E. Cilioretinal arterial occlusion phenomenon: a rare cause of loss of vision in pregnancy. Eur J Obstet Gynecol Reprod Biol 2008;137:251-2. Basu A, Eyong E. Cilioretinal arterial occlusion phenomenon: a rare cause of loss of vision in pregnancy. Eur J Obstet Gynecol Reprod Biol 2008;137:251-2.
5、Berkani Z, Kitouni Y, Belhadj A, et al. Cilioretinal artery occlusion and central retinal vein occlusion complicating hyperhomocysteinemia: a case report. J Fr Ophtalmol 2013;36:e119-27. Berkani Z, Kitouni Y, Belhadj A, et al. Cilioretinal artery occlusion and central retinal vein occlusion complicating hyperhomocysteinemia: a case report. J Fr Ophtalmol 2013;36:e119-27.
6、Alkan A, Talaz S. Cilioretinal artery occlusion associated with cisplatin. J Oncol Pharm Pract 2018;1078155218759805 [Epub ahead of print]. Alkan A, Talaz S. Cilioretinal artery occlusion associated with cisplatin. J Oncol Pharm Pract 2018;1078155218759805 [Epub ahead of print].
7、Park SU, Lee SJ, Kim M. Isolated cilioretinal artery occlusion in a patient with hypertensive crisis. BMJ Case Rep 2014;2014.Park SU, Lee SJ, Kim M. Isolated cilioretinal artery occlusion in a patient with hypertensive crisis. BMJ Case Rep 2014;2014.
8、Arend O, Harris A, Martin BJ, et al. Retinal blood velocities during carbogen breathing using scanning laser ophthalmoscopy. Acta Ophthalmol (Copenh) 1994;72:332-6. Arend O, Harris A, Martin BJ, et al. Retinal blood velocities during carbogen breathing using scanning laser ophthalmoscopy. Acta Ophthalmol (Copenh) 1994;72:332-6.
9、Varma DD, Cugati S, Lee AW, et al. A review of central retinal artery occlusion: clinical presentation and management. Eye (Lond) 2013;27:688-97. Varma DD, Cugati S, Lee AW, et al. A review of central retinal artery occlusion: clinical presentation and management. Eye (Lond) 2013;27:688-97.
10、Hayreh SS. Acute retinal arterial occlusive disorders. Prog Retin Eye Res 2011;30:359-94. Hayreh SS. Acute retinal arterial occlusive disorders. Prog Retin Eye Res 2011;30:359-94.
上一篇
下一篇
其他期刊
  • 眼科学报

    主管:中华人民共和国教育部
    主办: 中山大学
    承办: 中山大学中山眼科中心
    主编: 林浩添
    主管:中华人民共和国教育部
    主办: 中山大学
    浏览
  • Eye Science

    主管:中华人民共和国教育部
    主办: 中山大学
    承办: 中山大学中山眼科中心
    主编: 林浩添
    主管:中华人民共和国教育部
    主办: 中山大学
    浏览
出版者信息
中山大学中山眼科中心 版权所有粤ICP备:11021180
目录