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Gauteng cornea and eye bank registry: a report on corneal grafts done between January 1998 and December 2005Makgotloe, Aubrey Zacharia 16 April 2010 (has links)
MMed, Ophthalmology, Faculty of Health Sciences, University of the Witwatersrand, 2009 / Aim: To describe and analyse donor demographics; source, utilisation and distribution of corneal
tissue procured by the Gauteng cornea and eye bank (GCEB). To further establish the indications
for penetrating keratoplasty done by private ophthalmologists in Johannesburg.
Methods: A retrospective study of the records from the GCEB for the 8 year period from 1998 to
2005. An analysis for each year was done in respect of donor demographics; corneal donor tissue
source and distribution. Records from selected corneal surgeons in private practice in
Johannesburg were analysed for indications for penetrating keratoplasty.
Results: During the study period, 2504 corneas were retrieved from 1252 donors. The average
number of donors per year was 157 (Standard deviation: 20.01). There was a statistically
significant increase in the number of donors over the study period
(B-coefficient = 6.40, standard error=2, 07, p-value=0.02). Majority of donors were males
(68.6%). The mean age of donors was 40.4 years (Standard deviation: 15.97) and ranged from 3
months to 78 years. Whites were in overwhelming majority compared to other races, accounting
for 96% (number=1205), followed by Blacks 2% (number=24), Asians 1% (number=18) and
Coloureds <1% (number=5). The proportion of donated corneas used for transplantation (corneal
utilisation rate) averaged 87%. This rate showed a significant decline over the period studied (Bcoefficient=
-1.76, standard error=0.48, p-value=0.01). The commonest reason for discarding
corneas was damaged corneas (36%), followed by Human immunodeficiency virus infection
(18%) and inconclusive blood results (14%). The majority of donated corneas were used in
private practices (91%).
vi
The majority of donors were referred by mortuaries (50%) and private hospitals (37%). The
commonest indication for penetrating keratoplasty was keratoconus (46.8%), followed by
corneal scarring (27.8%) and pseudophakic bullous keratopathy (10.1%)
Conclusions: This analysis shows that the number of donors increased annually over the study
period. There were very few Blacks donating corneas in Johannesburg and most of the referrals
were from mortuaries and private hospitals. The distribution of corneal tissue in areas served by
the Gauteng cornea and eye bank is in favour of private hospitals. Corneal tissue damage and
HIV infection were the commonest reasons for discarding corneas. In private practices in
Johannesburg, keratoconus was the commonest indication for penetrating keratoplasty,
followed by traumatic corneal scarring.
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Microbial Keratitis: microbiology results of infective corneal ulcers at a tertiary Hospital in South AfricaKoetsie, Karen Monica 17 January 2012 (has links)
Purpose: To describe the microbiology results of corneal scrapings and morphology results of corneal ulcers over a one year period at the St John Eye Hospital with the following objectives: (i) to describe the positive culture results (ii) to describe the commonest causative organisms (iii) to describe resistance patterns to antibiotics (iv) to correlate the positive culture results with the clinical characteristics of the ulcer.
Methods: A retrospective cross sectional review of patient medical records and microbiology reports of patients who presented with corneal ulcers at the St John Eye Hospital between October 2007 and October 2008. One hundred and fifty one (151) corneal scrapings submitted to the National Health Laboratory Services (NHLS) for microbiology, culture and sensitivity testing were analyzed. The following information was extracted from the microbiology reports and patient medical records: patient demographics, microbial isolations, antibiotic sensitivity and resistance, and corneal ulcer morphology (central versus peripheral).
Results: Of the 151 patients who had corneal scrapings, 63(42%) were female and 88(58%) were male. The median age was 39.6(range 1-95; SD 19.3). An organism was identified in 78(52%) of the samples. Of the 93 pathogens isolated, 78(83.9%) were gram positive, 10(10.8%) were gram negative, and 5(5.4%) were fungi. Mixed isolates were found in 15 of the 151 corneal scrapings. The most common gram positive isolates were Staphylococcus aureus 23(29.5%), coagulase negative Staphylococcus 18(23.1%), and Streptococcus pneumoniae 16(20.5%). The two most commonly isolated gram negative organisms were Pseudomonas aeruginosa 3(30%) and Haemophilus influenza 3(30%). A total of 5 fungi were isolated from the 151 corneal scrapings with Fusarium 3(60%) being the most common fungus isolated. Antibiotic resistance patterns were as follows: Gram positive isolates (73) consistently showed 100% sensitivity to vancomycin. A small number of gram positive organisms showed in vitro resistance to the second generation fluoroquinolone ciprofloxacin. This was, however only a small number of gram positive isolates and therefore the P value (P<0.001) remained significant. Overall the gram positives isolates showed a 95.3% sensitivity to ciprofloxacin. Both second and fourth generation fluoroquinolones, ciprofloxacin and moxifloxacin respectively, showed equivalent (100%) in vitro activity against the gram negative isolates. All gram negative isolates showed 100% laboratory susceptibility to the aminoglycosides, gentamicin and amikacin. Inpatient medical records were available for 56 of the 151 corneal ulcer scrapings. Of the 56 inpatient records reviewed 42(75%) were central ulcers. Streptococcus pneumoniae 10(23.8%) was the most common organism isolated in central corneal ulcers, while staphylococcus aureus 4(28.6%) was the most common organism isolated in peripheral corneal ulcers.
Conclusion: Compared with previous reports from the St John Eye Hospital, the spectrum of causative organisms has remained unchanged over the past 25 years. The organisms commonly responsible for microbial keratitis at the hospital are significantly susceptibility to the antibiotics currently being used as therapy.
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Bacterial keratitis at St. John Eye Hospital with emphasis on causation and managementCockinos, Chrissanthie January 1998 (has links)
A dissertation submitted to the Faculty of Health Sciences,
University of the Witwatersrand, Johannesburg
in partial fuifillment of the requirements for the degree
of Master of Medicine in Ophthalmology, / This dissertation describes the causation and management of bacterial keratitis at St John Eye Hospital. [Abbreviated Abstract. Open document to view full version] / AC2017
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The long-term biocompatibility of porous Perfluoropolyether (PFPE) corneal inlays in humansPrakasam, Ruby Kala, Optometry & Vision Science, Faculty of Science, UNSW January 2009 (has links)
Purpose: To evaluate long-term biocompatibility, optical clarity and the efficacy of Perfluoropolyether (PFPE) polymer as a corneal inlay in humans. Materials and Methods: Corneas of 5 unsighted eyes of 5 patients received inlays: one patient selected as control. All were examined at baseline, immediately post-operative, 7 days and monthly thereafter for 12 months and at 3-monthly intervals for the next 12 months. Clinical evaluation includes detailed slit-lamp biomicroscopy, refraction, keratometry, corneal topography, and other routine ocular examinations. Results: Surgery was uneventful. None of the patients developed corneal oedema or increased vascularisation during study period. All corneas were clear except for minimal haze around the edge of the implant and mild interface reflectivity. Two patients developed epithelial erosion with minimal stromal involvement at 4 and 24 months post surgery resulted in removal of inlay. Inlays remained stable in position in all patients, however clarity has reduced (4% - 26%) gradually with time. We believe mechanical stress from inlay to the surrounding tissue triggered keratocyte activation and extra cellular matrix material deposits around inlay may be responsible for epithelial erosions as well as the reduction in inlay clarity. All test eyes showed acute myopic shift by 8.47D ?? 1.97 (mean ?? SD) following implantation. The epithelial pigment deposits were detected in all test patients following surgery, related to acute corneal curvature changes. The removal data from two patients showed the reversal of the refractive effect to preoperative levels. One patient followed up for an extensive period of 19 months post inlay removal demonstrated stable results. Conclusion: The PFPE inlays have demonstrated excellent biocompatibility within the human corneal tissue for 2 years. The epithelial erosion and inlay clarity reduction were the two major problems encountered in this study. We believe these problems were related to the mechanical stress induced tissue response from inlay. Critical patient selection and the modification of inlay design should improve the success of the procedure. Inlays are effective in altering the refractive status of the eye by altering the anterior corneal curvature. Also, inlay implantation and removal procedures are found to be easy, safe and quick without any complications.
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Corneal response to overnight orthokeratologyAlharbi, Ahmed A, Optometry & Vision Science, Faculty of Science, UNSW January 2005 (has links)
Orthokeratology (OK) is the reduction, modification or elimination of myopia through application of contact lenses. With the development of high Dk/t lens materials, overnight therapy has become the modality of choice for OK. Overnight OK lens wear has been previously investigated in terms of its efficacy to reduce myopia. However, the underlying effects of overnight OK lens wear on the human cornea have received less attention. As well as the clinical efficacy of overnight OK, this study investigated the effects of overnight OK on topographical corneal thickness and the overnight corneal edema response, and corneal tissue changes with overnight OK. Eighteen subjects participated as the OK lens-wearing group, wearing BE lenses (UltraVision, Brisbane, Queensland) in both eyes. A further ten subjects participated as control subjects, wearing conventional rigid lenses (J-Contour, UltraVision) in the right eye (RE) only. The left eye (LE) acted as a non-lens-wearing control. Both groups wore lenses overnight only, with no lens wear during the day. Measurements were conducted at baseline then on day 1, 4, 10, 30, 60, and 90 for the OK lens-wearing eyes; and up to day 30 for the control group, in the morning (after overnight lens wear) and in the evening (after 8-10 hours of lens removal). Variables measured included best vision sphere (BVS), unaided logMAR visual acuity (VA), refractive astigmatism, apical corneal power (ACP), simulated K readings (Medmont E300 corneal topographer), topographical corneal thickness (Holden-Payor optical pachometer), and keratocyte and endothelial cell densities (ConfoScan2 confocal microscope). Approximately 75% of myopia was corrected after the first night of OK lens wear and the changes in refractive error stabilised by day 10. By day 90, myopia reduction averaged 2.54 ?? 0.63 D. This was associated with significant improvement in unaided VA of about 82% after the first night of lens wear. There was no change in refractive astigmatism over the 3-month period. There was significant reduction in ACP in the OK lens-wearing eyes after the first night of lens wear, which accounted for more than 70% of the total ACP change over the 3-month period (RE: -2.16 ?? 0.53 D; LE: -2.11 ?? 0.86 D). There was significant central epithelial thinning (about 30%) and significant thickening (about 3%) in the mid-peripheral stroma in the OK lens-wearing eyes. Significant central epithelial thinning was found after the first night of lens wear while thickening in the mid-peripheral stroma reached statistical significance by day 4. Further analysis suggests that topographical corneal thickness changes account for the refractive error changes with overnight OK lens wear, rather than corneal bending. The central overnight stromal edema response was significantly reduced in the OK lens-wearing eyes (1.2 ?? 0.5%) to a level lower than in the conventional RGP (6.2 ?? 1.2%) and non-lens-wearing eyes (2.5 ?? 0.9%) in the control group. Mid-peripheral and peripheral stromal edema responses showed similar levels to those predicted based on lens Dk/t. A single overnight wear of BE and Paragon Corneal Refractive Therapy (CRT) lenses showed that the edema response to BE lens wear is significantly less than in the CRT lens-wearing eyes (BE: 2.5 ?? 0.7%; CRT 3.5 ?? 1.3%) immediately on eye opening. No significant changes were found in either central stromal keratocyte or endothelial cell densities in either OK or control groups over the study period. In conclusion, overnight OK lens wear induces significant reductions in myopia after the first night of lens wear associated with improvement in unaided VA. Overnight OK lens wear causes significant thinning in the central epithelium and significant mid-peripheral stromal thickening which results in flattening of the central cornea and steepening in the mid-periphery. Although there were no significant changes in central stromal keratocyte and endothelial cell densities, thinning of the central epithelial layer raises concerns regarding the safety of the procedure, especially with the alarming number of corneal infections reported recently in the literature.
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Corneal response to overnight orthokeratologyAlharbi, Ahmed A, Optometry & Vision Science, Faculty of Science, UNSW January 2005 (has links)
Orthokeratology (OK) is the reduction, modification or elimination of myopia through application of contact lenses. With the development of high Dk/t lens materials, overnight therapy has become the modality of choice for OK. Overnight OK lens wear has been previously investigated in terms of its efficacy to reduce myopia. However, the underlying effects of overnight OK lens wear on the human cornea have received less attention. As well as the clinical efficacy of overnight OK, this study investigated the effects of overnight OK on topographical corneal thickness and the overnight corneal edema response, and corneal tissue changes with overnight OK. Eighteen subjects participated as the OK lens-wearing group, wearing BE lenses (UltraVision, Brisbane, Queensland) in both eyes. A further ten subjects participated as control subjects, wearing conventional rigid lenses (J-Contour, UltraVision) in the right eye (RE) only. The left eye (LE) acted as a non-lens-wearing control. Both groups wore lenses overnight only, with no lens wear during the day. Measurements were conducted at baseline then on day 1, 4, 10, 30, 60, and 90 for the OK lens-wearing eyes; and up to day 30 for the control group, in the morning (after overnight lens wear) and in the evening (after 8-10 hours of lens removal). Variables measured included best vision sphere (BVS), unaided logMAR visual acuity (VA), refractive astigmatism, apical corneal power (ACP), simulated K readings (Medmont E300 corneal topographer), topographical corneal thickness (Holden-Payor optical pachometer), and keratocyte and endothelial cell densities (ConfoScan2 confocal microscope). Approximately 75% of myopia was corrected after the first night of OK lens wear and the changes in refractive error stabilised by day 10. By day 90, myopia reduction averaged 2.54 ?? 0.63 D. This was associated with significant improvement in unaided VA of about 82% after the first night of lens wear. There was no change in refractive astigmatism over the 3-month period. There was significant reduction in ACP in the OK lens-wearing eyes after the first night of lens wear, which accounted for more than 70% of the total ACP change over the 3-month period (RE: -2.16 ?? 0.53 D; LE: -2.11 ?? 0.86 D). There was significant central epithelial thinning (about 30%) and significant thickening (about 3%) in the mid-peripheral stroma in the OK lens-wearing eyes. Significant central epithelial thinning was found after the first night of lens wear while thickening in the mid-peripheral stroma reached statistical significance by day 4. Further analysis suggests that topographical corneal thickness changes account for the refractive error changes with overnight OK lens wear, rather than corneal bending. The central overnight stromal edema response was significantly reduced in the OK lens-wearing eyes (1.2 ?? 0.5%) to a level lower than in the conventional RGP (6.2 ?? 1.2%) and non-lens-wearing eyes (2.5 ?? 0.9%) in the control group. Mid-peripheral and peripheral stromal edema responses showed similar levels to those predicted based on lens Dk/t. A single overnight wear of BE and Paragon Corneal Refractive Therapy (CRT) lenses showed that the edema response to BE lens wear is significantly less than in the CRT lens-wearing eyes (BE: 2.5 ?? 0.7%; CRT 3.5 ?? 1.3%) immediately on eye opening. No significant changes were found in either central stromal keratocyte or endothelial cell densities in either OK or control groups over the study period. In conclusion, overnight OK lens wear induces significant reductions in myopia after the first night of lens wear associated with improvement in unaided VA. Overnight OK lens wear causes significant thinning in the central epithelium and significant mid-peripheral stromal thickening which results in flattening of the central cornea and steepening in the mid-periphery. Although there were no significant changes in central stromal keratocyte and endothelial cell densities, thinning of the central epithelial layer raises concerns regarding the safety of the procedure, especially with the alarming number of corneal infections reported recently in the literature.
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Corneal response to overnight orthokeratologyAlharbi, Ahmed A, Optometry & Vision Science, Faculty of Science, UNSW January 2005 (has links)
Orthokeratology (OK) is the reduction, modification or elimination of myopia through application of contact lenses. With the development of high Dk/t lens materials, overnight therapy has become the modality of choice for OK. Overnight OK lens wear has been previously investigated in terms of its efficacy to reduce myopia. However, the underlying effects of overnight OK lens wear on the human cornea have received less attention. As well as the clinical efficacy of overnight OK, this study investigated the effects of overnight OK on topographical corneal thickness and the overnight corneal edema response, and corneal tissue changes with overnight OK. Eighteen subjects participated as the OK lens-wearing group, wearing BE lenses (UltraVision, Brisbane, Queensland) in both eyes. A further ten subjects participated as control subjects, wearing conventional rigid lenses (J-Contour, UltraVision) in the right eye (RE) only. The left eye (LE) acted as a non-lens-wearing control. Both groups wore lenses overnight only, with no lens wear during the day. Measurements were conducted at baseline then on day 1, 4, 10, 30, 60, and 90 for the OK lens-wearing eyes; and up to day 30 for the control group, in the morning (after overnight lens wear) and in the evening (after 8-10 hours of lens removal). Variables measured included best vision sphere (BVS), unaided logMAR visual acuity (VA), refractive astigmatism, apical corneal power (ACP), simulated K readings (Medmont E300 corneal topographer), topographical corneal thickness (Holden-Payor optical pachometer), and keratocyte and endothelial cell densities (ConfoScan2 confocal microscope). Approximately 75% of myopia was corrected after the first night of OK lens wear and the changes in refractive error stabilised by day 10. By day 90, myopia reduction averaged 2.54 ?? 0.63 D. This was associated with significant improvement in unaided VA of about 82% after the first night of lens wear. There was no change in refractive astigmatism over the 3-month period. There was significant reduction in ACP in the OK lens-wearing eyes after the first night of lens wear, which accounted for more than 70% of the total ACP change over the 3-month period (RE: -2.16 ?? 0.53 D; LE: -2.11 ?? 0.86 D). There was significant central epithelial thinning (about 30%) and significant thickening (about 3%) in the mid-peripheral stroma in the OK lens-wearing eyes. Significant central epithelial thinning was found after the first night of lens wear while thickening in the mid-peripheral stroma reached statistical significance by day 4. Further analysis suggests that topographical corneal thickness changes account for the refractive error changes with overnight OK lens wear, rather than corneal bending. The central overnight stromal edema response was significantly reduced in the OK lens-wearing eyes (1.2 ?? 0.5%) to a level lower than in the conventional RGP (6.2 ?? 1.2%) and non-lens-wearing eyes (2.5 ?? 0.9%) in the control group. Mid-peripheral and peripheral stromal edema responses showed similar levels to those predicted based on lens Dk/t. A single overnight wear of BE and Paragon Corneal Refractive Therapy (CRT) lenses showed that the edema response to BE lens wear is significantly less than in the CRT lens-wearing eyes (BE: 2.5 ?? 0.7%; CRT 3.5 ?? 1.3%) immediately on eye opening. No significant changes were found in either central stromal keratocyte or endothelial cell densities in either OK or control groups over the study period. In conclusion, overnight OK lens wear induces significant reductions in myopia after the first night of lens wear associated with improvement in unaided VA. Overnight OK lens wear causes significant thinning in the central epithelium and significant mid-peripheral stromal thickening which results in flattening of the central cornea and steepening in the mid-periphery. Although there were no significant changes in central stromal keratocyte and endothelial cell densities, thinning of the central epithelial layer raises concerns regarding the safety of the procedure, especially with the alarming number of corneal infections reported recently in the literature.
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Corneal response to overnight orthokeratologyAlharbi, Ahmed A, Optometry & Vision Science, Faculty of Science, UNSW January 2005 (has links)
Orthokeratology (OK) is the reduction, modification or elimination of myopia through application of contact lenses. With the development of high Dk/t lens materials, overnight therapy has become the modality of choice for OK. Overnight OK lens wear has been previously investigated in terms of its efficacy to reduce myopia. However, the underlying effects of overnight OK lens wear on the human cornea have received less attention. As well as the clinical efficacy of overnight OK, this study investigated the effects of overnight OK on topographical corneal thickness and the overnight corneal edema response, and corneal tissue changes with overnight OK. Eighteen subjects participated as the OK lens-wearing group, wearing BE lenses (UltraVision, Brisbane, Queensland) in both eyes. A further ten subjects participated as control subjects, wearing conventional rigid lenses (J-Contour, UltraVision) in the right eye (RE) only. The left eye (LE) acted as a non-lens-wearing control. Both groups wore lenses overnight only, with no lens wear during the day. Measurements were conducted at baseline then on day 1, 4, 10, 30, 60, and 90 for the OK lens-wearing eyes; and up to day 30 for the control group, in the morning (after overnight lens wear) and in the evening (after 8-10 hours of lens removal). Variables measured included best vision sphere (BVS), unaided logMAR visual acuity (VA), refractive astigmatism, apical corneal power (ACP), simulated K readings (Medmont E300 corneal topographer), topographical corneal thickness (Holden-Payor optical pachometer), and keratocyte and endothelial cell densities (ConfoScan2 confocal microscope). Approximately 75% of myopia was corrected after the first night of OK lens wear and the changes in refractive error stabilised by day 10. By day 90, myopia reduction averaged 2.54 ?? 0.63 D. This was associated with significant improvement in unaided VA of about 82% after the first night of lens wear. There was no change in refractive astigmatism over the 3-month period. There was significant reduction in ACP in the OK lens-wearing eyes after the first night of lens wear, which accounted for more than 70% of the total ACP change over the 3-month period (RE: -2.16 ?? 0.53 D; LE: -2.11 ?? 0.86 D). There was significant central epithelial thinning (about 30%) and significant thickening (about 3%) in the mid-peripheral stroma in the OK lens-wearing eyes. Significant central epithelial thinning was found after the first night of lens wear while thickening in the mid-peripheral stroma reached statistical significance by day 4. Further analysis suggests that topographical corneal thickness changes account for the refractive error changes with overnight OK lens wear, rather than corneal bending. The central overnight stromal edema response was significantly reduced in the OK lens-wearing eyes (1.2 ?? 0.5%) to a level lower than in the conventional RGP (6.2 ?? 1.2%) and non-lens-wearing eyes (2.5 ?? 0.9%) in the control group. Mid-peripheral and peripheral stromal edema responses showed similar levels to those predicted based on lens Dk/t. A single overnight wear of BE and Paragon Corneal Refractive Therapy (CRT) lenses showed that the edema response to BE lens wear is significantly less than in the CRT lens-wearing eyes (BE: 2.5 ?? 0.7%; CRT 3.5 ?? 1.3%) immediately on eye opening. No significant changes were found in either central stromal keratocyte or endothelial cell densities in either OK or control groups over the study period. In conclusion, overnight OK lens wear induces significant reductions in myopia after the first night of lens wear associated with improvement in unaided VA. Overnight OK lens wear causes significant thinning in the central epithelium and significant mid-peripheral stromal thickening which results in flattening of the central cornea and steepening in the mid-periphery. Although there were no significant changes in central stromal keratocyte and endothelial cell densities, thinning of the central epithelial layer raises concerns regarding the safety of the procedure, especially with the alarming number of corneal infections reported recently in the literature.
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Avaliação da morfologia pós-operatória das células do endotélio corneano de coelhos na região periférica perincisional comparativamente à região centralHünning, Paula Stieven January 2011 (has links)
A manutenção da morfologia normal do endotélio da córnea é um importante indicador da integridade funcional. A reparação endotelial frente a um trauma, em coelhos, ocorre por migração, hipertrofia e mitose celular. Objetivou-se comparar a morfologia das células do endotélio, da região periférica perincisional à região central, da córnea de coelhos (Oryctolagus cuniculus) em diferentes períodos pós-operatórios. Foram designados três grupos, com 5 animais cada, para avaliação pós-operatória, sendo G1 (7 dias); G2 (15 dias) e G3 (45 dias). Trinta bulbos dos olhos de coelhos, da raça Nova Zelândia, foram submetidos à incisão de córnea clara uniplanar com 3,2 mm. Ao fim dos períodos determinados, procedeu-se a avaliação da morfologia endotelial valendose da microscopia eletrônica de varredura. Realizaram-se seis eletromicrografias de varredura, de cada região da córnea, com aumento de 1000 vezes. Para análise do percentual do número de lados celular, foram analisadas 100 células endoteliais. Na região periférica perincisional, avaliada ao 7° dia de pós-operatório, foram encontradas células com 6 lados (47,8%), 5 lados (31,3%), 7 lados (13,9%), 3 lados (0,1%), 4 lados (4,9%), 8 lados (1,8%) e 9 lados (0,2%). Na avaliação ao 15° dia de pós-operatório, observaram-se células com 6 lados (45,6%), 5 lados (32,6%), 7 lados (17,4%), 4 lados (1,7%) e 8 lados (2,7%). No 45° dia de pós-operatório, verificou-se a presença de células com 6 lados (57%), 5 lados (24%), 7 lados (17,2%), 4 lados (0,1%), 8 lados (1,6%) e 9 lados (0,1%). Na área central, ao 7° dia de pós-operatório, detectaram-se células com 6 lados (75,6%), 5 lados (13,3%), 7 lados (10,8%) e 8 lados (0,3%). Na avaliação, ao 15° dia de pós-operatório, foi possível observar células com 6 lados (78,9%), 5 lados (11,5%) e 7 lados (9,6%). No 45° dia de pós-operatório identificaram-se células com 6 lados (74,8%), 5 lados (13,6%) e 7 lados (11,6%). Os resultados demonstraram que na região periférica perincisional ocorreu diminuição das células com seis lados e aumento do número de células com cinco e sete lados. Na região central manteve-se o padrão regular de hexagonalidade das células endoteliais nos diferentes períodos pós-operatórios. Conclui-se que houve alteração na morfologia das células endoteliais, da região periférica perincisional comparada à região central, da córnea de coelhos nos diferentes períodos pós-operatórios. / The maintenance of the normal corneal endothelium morphology is an important indicator of its functional integrity. In rabbits, endothelial repair in the event of traumas is made through cell migration, hypertrophy and mitosis. The purpose of this study was to compare the morphology of endothelial cells of the perincisional area with the central area of the cornea of rabbits (Oryctolagus cuniculus), in different post-operative periods. Three groups containing 5 animals each were designed for post-operative evaluation: G1 (7 days); G2 (15 days) and G3 (45 days). The clear cornea of thirty New Zealand rabbits was subjected to a single-planed incision of 3.2 mm. At the end of the established periods, a morphological evaluation of the endothelium was carried out using scanning electron microscopy. Six scanning electron micrographs of each corneal area were performed using a magnification of 1000 x. One hundred endothelial cells were analyzed to obtain the cell side count percentage. In the perincisional peripheral area, which was evaluated at the 7 post-operative day, 6-sided (47.8%), 5-sided (31.3%) and 7-sided (13.9%) cells were found, in addition to, 3-sided cells (0.1%), 4-sided cells (4.9%), 8-sided cells (1.8%) and 9-sided cells (0.2%). In the evaluation made on the 15th post-operative day, 6-sided (45.6%), 5-sided (32.6%) and 7-sided (17.4%) cells were observed, as well as 4-sided (1.7%) and 8-sided cells (2.7%). On the 45th postoperative day, the presence of 6-sided (57%), 5-sided (24%), 7-sided (17.2%), 4-sided (0,1%), 8-sided (1.6%) and 9-sided cells (0.1%) was verified. On the 7th post-operative day, 6-sided (75.6%), 5-sided (13.3%), 7-sided (10.8%) and 8-sided cells (0.3%) were observed in the central area .Upon evaluation made on the 15th post-operative day, it was possible to observe 6-sided (78.9%), 5-sided (11.5%) and 7-sided (9.6%) cells. Results have shown that there was a reduction of six-sided cells and an increase in the number of five and seven-sided cells in the perincisional peripheral area. The regular hexagonal standard of the endothelial cells was maintained in the central area in different post-operative periods. In comparison to the central area, there was a morphological alteration of the endothelial cells of the peripheral perincisional area in different post-operative periods of the cornea of rabbits.
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Avaliação da morfologia pós-operatória das células do endotélio corneano de coelhos na região periférica perincisional comparativamente à região centralHünning, Paula Stieven January 2011 (has links)
A manutenção da morfologia normal do endotélio da córnea é um importante indicador da integridade funcional. A reparação endotelial frente a um trauma, em coelhos, ocorre por migração, hipertrofia e mitose celular. Objetivou-se comparar a morfologia das células do endotélio, da região periférica perincisional à região central, da córnea de coelhos (Oryctolagus cuniculus) em diferentes períodos pós-operatórios. Foram designados três grupos, com 5 animais cada, para avaliação pós-operatória, sendo G1 (7 dias); G2 (15 dias) e G3 (45 dias). Trinta bulbos dos olhos de coelhos, da raça Nova Zelândia, foram submetidos à incisão de córnea clara uniplanar com 3,2 mm. Ao fim dos períodos determinados, procedeu-se a avaliação da morfologia endotelial valendose da microscopia eletrônica de varredura. Realizaram-se seis eletromicrografias de varredura, de cada região da córnea, com aumento de 1000 vezes. Para análise do percentual do número de lados celular, foram analisadas 100 células endoteliais. Na região periférica perincisional, avaliada ao 7° dia de pós-operatório, foram encontradas células com 6 lados (47,8%), 5 lados (31,3%), 7 lados (13,9%), 3 lados (0,1%), 4 lados (4,9%), 8 lados (1,8%) e 9 lados (0,2%). Na avaliação ao 15° dia de pós-operatório, observaram-se células com 6 lados (45,6%), 5 lados (32,6%), 7 lados (17,4%), 4 lados (1,7%) e 8 lados (2,7%). No 45° dia de pós-operatório, verificou-se a presença de células com 6 lados (57%), 5 lados (24%), 7 lados (17,2%), 4 lados (0,1%), 8 lados (1,6%) e 9 lados (0,1%). Na área central, ao 7° dia de pós-operatório, detectaram-se células com 6 lados (75,6%), 5 lados (13,3%), 7 lados (10,8%) e 8 lados (0,3%). Na avaliação, ao 15° dia de pós-operatório, foi possível observar células com 6 lados (78,9%), 5 lados (11,5%) e 7 lados (9,6%). No 45° dia de pós-operatório identificaram-se células com 6 lados (74,8%), 5 lados (13,6%) e 7 lados (11,6%). Os resultados demonstraram que na região periférica perincisional ocorreu diminuição das células com seis lados e aumento do número de células com cinco e sete lados. Na região central manteve-se o padrão regular de hexagonalidade das células endoteliais nos diferentes períodos pós-operatórios. Conclui-se que houve alteração na morfologia das células endoteliais, da região periférica perincisional comparada à região central, da córnea de coelhos nos diferentes períodos pós-operatórios. / The maintenance of the normal corneal endothelium morphology is an important indicator of its functional integrity. In rabbits, endothelial repair in the event of traumas is made through cell migration, hypertrophy and mitosis. The purpose of this study was to compare the morphology of endothelial cells of the perincisional area with the central area of the cornea of rabbits (Oryctolagus cuniculus), in different post-operative periods. Three groups containing 5 animals each were designed for post-operative evaluation: G1 (7 days); G2 (15 days) and G3 (45 days). The clear cornea of thirty New Zealand rabbits was subjected to a single-planed incision of 3.2 mm. At the end of the established periods, a morphological evaluation of the endothelium was carried out using scanning electron microscopy. Six scanning electron micrographs of each corneal area were performed using a magnification of 1000 x. One hundred endothelial cells were analyzed to obtain the cell side count percentage. In the perincisional peripheral area, which was evaluated at the 7 post-operative day, 6-sided (47.8%), 5-sided (31.3%) and 7-sided (13.9%) cells were found, in addition to, 3-sided cells (0.1%), 4-sided cells (4.9%), 8-sided cells (1.8%) and 9-sided cells (0.2%). In the evaluation made on the 15th post-operative day, 6-sided (45.6%), 5-sided (32.6%) and 7-sided (17.4%) cells were observed, as well as 4-sided (1.7%) and 8-sided cells (2.7%). On the 45th postoperative day, the presence of 6-sided (57%), 5-sided (24%), 7-sided (17.2%), 4-sided (0,1%), 8-sided (1.6%) and 9-sided cells (0.1%) was verified. On the 7th post-operative day, 6-sided (75.6%), 5-sided (13.3%), 7-sided (10.8%) and 8-sided cells (0.3%) were observed in the central area .Upon evaluation made on the 15th post-operative day, it was possible to observe 6-sided (78.9%), 5-sided (11.5%) and 7-sided (9.6%) cells. Results have shown that there was a reduction of six-sided cells and an increase in the number of five and seven-sided cells in the perincisional peripheral area. The regular hexagonal standard of the endothelial cells was maintained in the central area in different post-operative periods. In comparison to the central area, there was a morphological alteration of the endothelial cells of the peripheral perincisional area in different post-operative periods of the cornea of rabbits.
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