1.Surgical Treatment for Vitreous Hemorrhage Associated with Branch Retinal Vein Occlusion.
Duk Kee HAHN ; Young Hoon PARK
Yeungnam University Journal of Medicine 1992;9(2):211-217
No abstract available.
Retinal Vein Occlusion*
;
Retinal Vein*
;
Retinaldehyde*
;
Vitreous Hemorrhage*
2.A Study on Arteriovenous Crossing Sites in Branch Retinal Vein Occlusion.
Kyoung Soo NA ; Hi Mo YOON ; Nam Chul JI
Journal of the Korean Ophthalmological Society 1992;33(2):148-153
Retinal arteriovenous crossing sites are important because they are generally the points at which. in branch retinal obstruction, a blockage of venous blood flow occurs. We evaluated retrospectively the cases of 54 patiens wIth a recent temporal branch retinal vein occlusion to determine the relative anatomic position of the obstructed vein in relation to its crossing artery. In 54 (100%) of 54 eyes, the artery lay antenor to the vein, toward the vitreous cavity. In the control corssing site, the artery lay anterior to the vein 41.3% (J9/46) of the time (p<0.01) The second control group, which was obtained by examining all of the first-and second-order, without BRVO, consisted of 103 crossing sites. In this second control group's artenovenous crossmgs, the arteries were situated anteriorly in 83 (80.6%) of 103 crossing sites (p<0.005). Our observation that the artery lies anterior to the vein at the all of BRVO crossing sites contributes further evidence that mechanical factors play a prominent role in the causing BRVO.
Arteries
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Retinal Vein Occlusion*
;
Retinal Vein*
;
Retinaldehyde*
;
Retrospective Studies
;
Veins
3.Multifocal Electroretinograms in Patients with Branch Retinal Vein Occlusion.
Yong Suk AHN ; Tae Kwann PARK ; Seung Min KANG ; Young Hoon OHN
Journal of the Korean Ophthalmological Society 2003;44(12):2775-2783
PURPOSE: To evaluate the damage to the inner retina in patients with branch retinal vein occlusion (BRVO), we recorded multifocal electroretinograms (mfERG) and analyzed the waveform changes of the first and the second order kernel responses. METHODS: Eight eyes of patients with unilateral BRVO were included. Fourteen eyes of 14 normal subjects were also tested as controls. VERIS system was used to record mfERG. The first and the second order kernel responses of each quadrant were averaged. Averaged responses were compared with those of the contralateral eyes and normal control eyes. RESULTS: The amplitudes of averaged tracing decreased in the N1, P1, and N2 of the first order kernel responses in the affected quadrant in comparison with those of contralateral and normal control eyes (P<0.05). Prolongation of latency was noted in N1, P1 and N2 in the affected quadrant. In the second order kernel responses of the affected quadrant, no responses were found in four patients. The delay in latency and the decrease in amplitude were more marked in the second order kernel responses than in the first order kernel responses (P<0.01). CONCLUSIONS: The first order mfERG components decreased in amplitude and increased in latency, with N2 being the most severely affected. And the second order mfERG components were more decreased in the affected area in patients with BRVO. These results suggested that the second order kernel responses may reflect the condition of the inner retina better than the first order kernel responses.
Humans
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Retina
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Retinal Vein Occlusion*
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Retinal Vein*
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Retinaldehyde*
4.Clinical Features According to the Occlusion Site in Patients with Branch Retinal Vein Occlusion.
Journal of the Korean Ophthalmological Society 2013;54(8):1248-1254
PURPOSE: To evaluate clinical patterns according to the occlusion site in patients with branch retinal vein occlusion. METHODS: Ninety-one branch retinal vein occlusion patients were divided into 4 groups according to the occlusion site based on the description by Duke-Elder and Wybar: Papillary retinal vein occlusion group (group A), main retinal vein occlusion group (group B), minor retinal vein occlusion group (group C), and retinal venule occlusion group (group D). The following factors were analyzed retrospectively: baseline/final visual acuity, visual improvement, macular thickness, and macular circulatory states. RESULTS: The macular thickness (microm) was 575.33 +/- 178.44 in group A, 511.92 +/- 218.02 in group B, 397.21 +/- 144.51 in group C, and 336.68 +/- 120.55 in group D. The retinal ischemic area (DD) was 22.00 +/- 13.28 in group A, 18.26 +/- 10.12 in group B, 12.52 +/- 10.52 in group C, and 12.36 +/- 11.92 in group D, which was found to be significantly greater in the group with the higher branch occlusion site (p < 0.05). However, visual acuity, macular circulatory states and other clinical characteristics were not significantly different. CONCLUSIONS: Occlusion site is a relating factor for retinal ischemic area and macular thickness in patients with Branch retinal vein occlussion, but which is not a prognostic factor for final visual acuity.
Humans
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Retinal Vein
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Retinal Vein Occlusion
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Retinaldehyde
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Venules
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Visual Acuity
5.Arteriovenous Crossing Patterns in the Normal Retina.
Seung Wan SHIN ; Young Hoon OHN ; Hanho SHIN
Journal of the Korean Ophthalmological Society 1995;36(4):664-669
The retinal blood bessels exit the optic disc and branch in a complex pattern to serve the metabolic need of the inner retina. As the vessels traverse the retina, the arteries and veins frequently cross one another. Recently, there has been renewed iterest in the orientation of the crossing retinal vessels at arteriovenous intersections, particularly as it relates to the risk of branch retinal vein occlusion. The authors studied standard fundus photographs of 30 subjects(60 eyes) who don't habve any retinal and systemic disorders. Arteriovenous crossings were analized for fundus location and relative orientation of the crossing vessels(vein-posterior or vein-anterior). In the superotemporal quadrant, A-V crossings were a greater number, distributed closer to the optic disc than the inferotemporal quadrant. Also a greater proportion of crossings was vein-posterior than the inferotemporal quadrant. These findings may explain the predilection for branch retinal vein occlusions to occur frequency in the superotemporal quadrant.
Arteries
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Retina*
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Retinal Vein Occlusion
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Retinal Vessels
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Retinaldehyde
;
Veins
6.Measurement of Blood Retina Barrier in Branch Retinal Vein Occlusion (BRVO).
Duck Young SUN ; Jae Heung LEE
Journal of the Korean Ophthalmological Society 1996;37(6):981-984
Vitreous fluorophotometry was used to measure blood retinal barrier permeability to fluorescein in 15 patients with branch retinal vein occlusion(BRVO). Mean posterior vitreous fluorescein concentration(3mm) was 20.0 +/- 11.3(ng/ml) in affected eyes, and 2.99 +/- 1.22(ng/ml) in unaffected eyes. There was a statistically significant difference between the affected eye and unaffected eye(p<0.05). Also there was a correlation between the hemorrhage area and the posterior vitreous fluorescein concentration(r2=0.819). This study revealed that the permeability of blood retinal barrier was increased in BRVO as compared to the contralateral eye, and the higher permeability values were associated with the extent of area involved.
Blood-Retinal Barrier
;
Fluorescein
;
Fluorophotometry
;
Hemorrhage
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Humans
;
Permeability
;
Retina*
;
Retinal Vein Occlusion*
;
Retinal Vein*
;
Retinaldehyde*
7.Outcome of Vitrectomy on Vitreoretinal Pathologies due to Branch Retinal Vein Occlusion.
Journal of the Korean Ophthalmological Society 1992;33(2):154-158
32 eyes with vitroretinal pathologies caused by branch retinal vein occlusion (BRVO) under went pars plana vitrectomy. Visual acuity was restored postoperatively in 28 of 32 eyes (87.5%). Visual acuity was restored in 19 of 19 eyes (100%) with vitreous opacity only, in 5 of 6 eyes (83.3%) with fibrous proliferation and in 4 of 7 eyes (57.1%) with retinal detachment. Regarding final visual acuity. 78.1% showed 0.1 or better, and 43.8% showed 0.5 or better Among the complications. surgically induced retinal detachment showed the worst prognosis.
Pathology*
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Prognosis
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Retinal Detachment
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Retinal Vein Occlusion*
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Retinal Vein*
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Retinaldehyde*
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Visual Acuity
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Vitrectomy*
8.Clinical Characteristics of Branch Retinal Vein Occlusion with Vitreous Hemorrhage.
Kyu Hun LEE ; Seok Joon PARK ; Jaeheung LEE ; Hum CHUNG
Journal of the Korean Ophthalmological Society 1998;39(2):336-341
Forty three eyes with vitreous hemorrhage caused by branch retinal vein occlusion had been underwent pars plana vitrectomy and followed-up over 6 months. The eyes were classified into 4 groups according to intraoperative fundus findings-group 1; vitreous hemorrhage only, group 2; vitreous hemorrhage with fibrovascular proliferation, group 3; vitreous hemorrhage with traction retinal detachments, group 4; vitreous hemorrhage with rhegmatogenous retinal detachments. Analysis was focused on the clinical characteristics and postoperative outcome in each group. The durations of vitreous hemorrhage were longer significantly in group 2 and group 3. The vision improved postoperatively in 35 of 43 eyes(81.3%). The percentage of postoperative visual improvements was 100%(18 of 18 eyes) in group 1, 85.7%(12 of 14 eyes) in group 2, 66.6%(4 of 6 eyes) in group 3, and 20$(1 of 5 eyes) in group 4. The preoperative ultrasono-graphic findings of retinal status were accorded with intraoperative retinal findings in 74.4% of eyes.
Retinal Detachment
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Retinal Vein Occlusion*
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Retinal Vein*
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Retinaldehyde*
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Traction
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Ultrasonography
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Vitrectomy
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Vitreous Hemorrhage*
9.Clinical Analysis of Vitrectomy Efficiency for Non-diabetic Vitreous Hemorrhage.
Young Mun KOH ; Gwang Ju CHOI ; Kyoung Soo NA
Journal of the Korean Ophthalmological Society 2002;43(2):255-260
PURPOSE: To investigate postoperative visual acuities of patients who underwent vitrectomy for their dense nondiabetic vitreous hemorrhage, and in addition to assess postoperative visual results of the group who underwent early vitrectomy. METHODS: Included in the study were 52 patients (52 eyes) who had undergone vitrectomy and been followed up for longer than 4 months after surgeries. Authors investigated the underlying diseases of vitreous hemorrhage, surgical outcomes, and the rate of complications. In addition, we evaluated the results of the group who had undergone vitrectomy between 4 weeks and 6 weeks after development of hemorrhage. RESULTS: The most common cause of vitreous hemorrhage was branch retinal vein occlusion followed by macular hole, ocular trauma, central retinal vein occlusion, age related macular degeneration, Terson`s syndrome, and unknown cases. Visual acuity before operation is less than light perception to 0.3 and improved in 44 eyes (84.6%) after operation. The rate of more than 5 lines' improvement is 63.4% (33 eyes) and 51.9% (27 eyes) obtained their visual acuity of 0.5 or better. In the group which had been operated 4 to 6 weeks after the development, visual acuity improved in 100% (16 eyes). Thirteen eyes (81.2%) showed more than 5 lines' improvement of their visual acuity and 12 eyes had 0.5 or better (75.5%). The most common complication after surgeries is cataract in 5 eyes (10.8%), others were macular hole in 3 eyes (5.7%), retinal detachment in 2 eyes (3.8%), macular hole in 1 eye (6.2%). CONCLUSIONS: Pars plana vitrectomy is a good procedure to improve visual acuity for the patients who have suffered persistent visual disturbances due to non-diabetic vitreous hemorrhage. Also, early vitrectomy should be considered for early visual rehabilitation.
Cataract
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Hemorrhage
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Humans
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Macular Degeneration
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Rehabilitation
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Retinal Detachment
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Retinal Perforations
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Retinal Vein
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Retinal Vein Occlusion
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Visual Acuity
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Vitrectomy*
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Vitreous Hemorrhage*
10.Laser Photocoagulation for Macular Edema in Branch Retinal Vein Occlusion.
Journal of the Korean Ophthalmological Society 1993;34(9):844-850
We observed 44 eyes of 43 patients who were diagnosed as macular edema in branch retinal vein occlusion(BRVO) by fluorescein angiogram, which had been followed up over 6 months after argon-green laser photocoagulation. In our cases, sixth decade of age was most commonly affected and there were no significant difference in sexual prevalence and laterality. Eighty six percent was 0.5 or less in initial visual acuity and 59.1% was 0.5 or more in final visual acuity. Increased visual acuity of 2 lines or more was 61.4% and decrease was only 9.1%. After laser treatment, visual improvements of each comparing group were as follow: 60.7% in superotemporal and 62.5% in inferotemporal, 56.5% in hypertensive patients and 66.7% in normotensive patients, 61.5% in below 6 months from onset of symptom until entry into laser photocoagulation and 61.1% in over 7 months, and there were no significant statistical difference.
Fluorescein
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Humans
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Light Coagulation*
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Macular Edema*
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Prevalence
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Retinal Vein Occlusion*
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Retinal Vein*
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Retinaldehyde*
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Visual Acuity