1.Introduction of Lens-angle Reconstruction Surgery in Rabbit Eyes.
Min Hee KIM ; Ho Sik HWANG ; Kyoung Jin PARK ; Je Hyung HWANG ; Choun Ki JOO
Korean Journal of Ophthalmology 2014;28(6):486-492
PURPOSE: In this study, we examined the stability of the lens-angle supporter (LAS) for accommodation restoration by comparing intraocular lens (IOL) location, after-cataract and ciliary body damage after cataract surgery in rabbits. METHODS: Eight rabbits were divided into experimental and control groups of four rabbits each. Phacoemulsification and irrigation and aspiration were performed in all rabbits. This was followed by an LAS and IOL insertion in the four experimental rabbits. In the four control rabbits, only an IOL insertion was performed. Six months after the surgery, the location of the IOL, the conditions of the lens capsule and ciliary body were evaluated using a slitl-amp examination and Miyake-Apple view. RESULTS: For the experimental group, the ultrasound biomicroscope results showed normal LAS and IOL positioning in all four cases. According to the slitlamp examination and Miyake-Apple view, the IOL was positioned at the center, with less after-cataract and damage to the ciliary body. For the control group, ultrasound biomicroscope results indicated a higher IOL position than normal, as well as a single case of IOL decentering. According to the slit-lamp examination and Miyake-Apple view, the IOL was decentered with more severe after-cataract and ciliary body damage. CONCLUSIONS: The LAS has the potential to maintain a stable IOL position while producing less after-cataract when used in lens-angle reconstruction for correction of presbyopia. Moreover, LAS implantation incurs less damage to the ciliary body.
Accommodation, Ocular/physiology
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Animals
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Anterior Eye Segment
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Ciliary Body/injuries
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Disease Models, Animal
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Eye Injuries/*surgery
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Lens Capsule, Crystalline/*surgery
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*Lens Implantation, Intraocular
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Microscopy, Acoustic
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*Phacoemulsification
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Rabbits
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*Reconstructive Surgical Procedures
2.A Case Report on the Change of the Refractive Power After a Blunt Trauma.
Seong Il KIM ; Yong Jae CHA ; Seong Eun PARK
Korean Journal of Ophthalmology 2008;22(1):53-57
PURPOSE: To determine the pathogenesis of transient myopia after blunt eye trauma. METHODS: In one patient, the refraction of both eyes (the left eye was injured, but the right eye was not) was measured with an autorefractometer. The cycloplegic refraction was measured at the early stage of trauma and again 3 months after the blunt eye injury. The angle and depth of the anterior chamber, the ciliary body, and the choroids were examined by ultrasound biomicroscopy (UBM) over 3 months. The depth of the anterior chamber, the thickness of the lens, and the axial length were measured by A-scan ultrasonography in both eyes. During the 3 months after the injury, we made comparisons between the menifest and the cycloplegic refractions, the depths of anterior chambers, the thickness of the lenses, the axial lengths, and the UBM-determined appearances of the angles and depths of the anterior chambers, the ciliary bodies, and the choroids in both eyes. RESULTS: We suspect that the depth reduction in the anterior chamber, the increase in anterior to posterior lens diameter, and the edema in the ciliary body are all related to the change in the refractive power following the blunt trauma. CONCLUSIONS: Ultrasound biomicroscopy (UBM) and ultrasonography of the anterior segment in the eye may be helpful to diagnose and confirm changes in the refractive power that occur after trauma.
Adolescent
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Anterior Eye Segment/ultrasonography
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Ciliary Body/*injuries/ultrasonography
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Eye Injuries/*complications
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Female
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Humans
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Microscopy, Acoustic
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Myopia/*etiology/ultrasonography
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Refraction, Ocular
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Uveal Diseases/etiology/ultrasonography
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Visual Acuity
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Wounds, Nonpenetrating/*complications
3.A Case Report on the Change of the Refractive Power After a Blunt Trauma.
Seong Il KIM ; Yong Jae CHA ; Seong Eun PARK
Korean Journal of Ophthalmology 2008;22(1):53-57
PURPOSE: To determine the pathogenesis of transient myopia after blunt eye trauma. METHODS: In one patient, the refraction of both eyes (the left eye was injured, but the right eye was not) was measured with an autorefractometer. The cycloplegic refraction was measured at the early stage of trauma and again 3 months after the blunt eye injury. The angle and depth of the anterior chamber, the ciliary body, and the choroids were examined by ultrasound biomicroscopy (UBM) over 3 months. The depth of the anterior chamber, the thickness of the lens, and the axial length were measured by A-scan ultrasonography in both eyes. During the 3 months after the injury, we made comparisons between the menifest and the cycloplegic refractions, the depths of anterior chambers, the thickness of the lenses, the axial lengths, and the UBM-determined appearances of the angles and depths of the anterior chambers, the ciliary bodies, and the choroids in both eyes. RESULTS: We suspect that the depth reduction in the anterior chamber, the increase in anterior to posterior lens diameter, and the edema in the ciliary body are all related to the change in the refractive power following the blunt trauma. CONCLUSIONS: Ultrasound biomicroscopy (UBM) and ultrasonography of the anterior segment in the eye may be helpful to diagnose and confirm changes in the refractive power that occur after trauma.
Adolescent
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Anterior Eye Segment/ultrasonography
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Ciliary Body/*injuries/ultrasonography
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Eye Injuries/*complications
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Female
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Humans
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Microscopy, Acoustic
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Myopia/*etiology/ultrasonography
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Refraction, Ocular
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Uveal Diseases/etiology/ultrasonography
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Visual Acuity
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Wounds, Nonpenetrating/*complications
4.Unilateral Scleral Fixation of Posterior Chamber Intraocular Lenses in Pediatric Complicated Traumatic Cataracts.
Dong Won HYUN ; Tae Gon LEE ; Sung Won CHO
Korean Journal of Ophthalmology 2009;23(3):148-152
PURPOSE: The purpose of this study was to evaluate the visual outcomes and complications of unilateral scleral fixation of posterior chamber intraocular lenses (SF-PCIOLs) in pediatric complicated traumatic cataracts without capsular support. METHODS: This study involved five eyes of five children who underwent unilateral SF-PCIOL. All patients had a unilateral complicated traumatic cataract associated with anterior or posterior segment injury. Visual acuity (VA), IOL position, and postoperative complications were assessed during follow-up. RESULTS: The mean age of patients at the time of SF-PCIOL was 90 months (range, 66-115). The mean duration of follow-up time after surgery was 22 months (range, 5-55). In all patients, the best-corrected VA was either improved or was stable at last follow-up following SF-PCIOL implantation. There were no serious complications. CONCLUSIONS: Unilateral scleral fixation of PCIOL can be a safe and effective procedure for pediatric, unilateral, complicated traumatic cataracts without capsular support in selected cases.
Anterior Eye Segment/injuries
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Aphakia, Postcataract/*surgery
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Cataract/*etiology/physiopathology
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Child
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Child, Preschool
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Endophthalmitis/etiology
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Eye Injuries/*complications
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Female
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Follow-Up Studies
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Humans
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Lens Implantation, Intraocular/*methods
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Male
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Postoperative Period
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Retrospective Studies
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Sclera/*surgery
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*Suture Techniques
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Visual Acuity