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Factors which affect refractive outcome following LASIK for myopia.Feltham, Mark Hayes, Optometry & Vision Science, Faculty of Science, UNSW January 2004 (has links)
Purpose: To improve the predictability, accuracy and stability of laser in-situ keratomileusis (LASIK), by evaluating the clinical, procedural and tissue response factors that affect refractive outcomes. Methods: Myopic LASIK surgeries (n=5,978) were carried out using the Technolas planoscan and Nidek EC-5000 excimer lasers. Clinical variables associated with a refractive outcome of within ??0.50 D of the target were identified using regression analysis. Possible procedural variations such as the timing of the procedure and accuracy of both the chosen keratome and excimer laser were evaluated. The predictability and accuracy of the ablation was assessed by measuring changes in corneal thickness during and after the procedure. Factors influencing the stability of refractive outcome were assessed. Results: Clinical factors associated with a refractive outcome of within ??0.50 D of the target included; corrections less than 5.00 DS (OR 0.21x, 95% CI 0.11-0.40x compared with corrections over -5.00 DS[referent]), patients younger than 40 years (patients over 50 OR 8.27x, 95% CI 3.41-20.03x, patients 40 to 50 years OR 1.93x, 95% CI 0.96-3.90x, compared with patients under 40[referent]) and average pre-operative curvatures between 43.50 and 45.50D (OR 0.39x, 95% CI 0.18-0.83 compared with curvatures of less than 43.50D [referent]). Refractive stability was improved using optic zone sizes between 5.5-6.0 mm, reduced myopic corrections, flatter pre-operative corneal curvatures and thicker corneal flaps (R??=25%, p<0.001). Procedural factors associated with poorer outcomes included: thinner measured flap thickness, deeper ablations and the use of the automated corneal shaper (ACS) microkeratome with a novice surgical team (R??=34%, p < 0.001). Delaying the ablation from 20 to 90 seconds (s) after flap lift was associated with a more stable refractive outcome at three months (p=0.017). In the 90 s following flap lift, the cornea thinned by 5??3%. The ablation rate per scan varied between procedures, however, the effect on refractive outcome was small (r=0.15, p=0.267). Changes in central corneal thickness indicated refractive stability (p=0.039). Conclusions: Applying the optimal clinical and procedural factors as described afforded a refractive outcome in a further 8% of cases, resulting in 94% to 96% of cases within ??0.50 DS of target. Refractive predictability was limited due to the inability of the keratome to produce a consistent corneal flap thickness and unexpected changes in corneal thickness. The accuracy of refractive outcome will decrease with larger ablations. The degree of refractive inaccuracy with high refractive corrections (> -10.00 D) can be over 1.00 D.
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Factors which affect refractive outcome following LASIK for myopia.Feltham, Mark Hayes, Optometry & Vision Science, Faculty of Science, UNSW January 2004 (has links)
Purpose: To improve the predictability, accuracy and stability of laser in-situ keratomileusis (LASIK), by evaluating the clinical, procedural and tissue response factors that affect refractive outcomes. Methods: Myopic LASIK surgeries (n=5,978) were carried out using the Technolas planoscan and Nidek EC-5000 excimer lasers. Clinical variables associated with a refractive outcome of within ??0.50 D of the target were identified using regression analysis. Possible procedural variations such as the timing of the procedure and accuracy of both the chosen keratome and excimer laser were evaluated. The predictability and accuracy of the ablation was assessed by measuring changes in corneal thickness during and after the procedure. Factors influencing the stability of refractive outcome were assessed. Results: Clinical factors associated with a refractive outcome of within ??0.50 D of the target included; corrections less than 5.00 DS (OR 0.21x, 95% CI 0.11-0.40x compared with corrections over -5.00 DS[referent]), patients younger than 40 years (patients over 50 OR 8.27x, 95% CI 3.41-20.03x, patients 40 to 50 years OR 1.93x, 95% CI 0.96-3.90x, compared with patients under 40[referent]) and average pre-operative curvatures between 43.50 and 45.50D (OR 0.39x, 95% CI 0.18-0.83 compared with curvatures of less than 43.50D [referent]). Refractive stability was improved using optic zone sizes between 5.5-6.0 mm, reduced myopic corrections, flatter pre-operative corneal curvatures and thicker corneal flaps (R??=25%, p<0.001). Procedural factors associated with poorer outcomes included: thinner measured flap thickness, deeper ablations and the use of the automated corneal shaper (ACS) microkeratome with a novice surgical team (R??=34%, p < 0.001). Delaying the ablation from 20 to 90 seconds (s) after flap lift was associated with a more stable refractive outcome at three months (p=0.017). In the 90 s following flap lift, the cornea thinned by 5??3%. The ablation rate per scan varied between procedures, however, the effect on refractive outcome was small (r=0.15, p=0.267). Changes in central corneal thickness indicated refractive stability (p=0.039). Conclusions: Applying the optimal clinical and procedural factors as described afforded a refractive outcome in a further 8% of cases, resulting in 94% to 96% of cases within ??0.50 DS of target. Refractive predictability was limited due to the inability of the keratome to produce a consistent corneal flap thickness and unexpected changes in corneal thickness. The accuracy of refractive outcome will decrease with larger ablations. The degree of refractive inaccuracy with high refractive corrections (> -10.00 D) can be over 1.00 D.
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Factors which affect refractive outcome following LASIK for myopia.Feltham, Mark Hayes, Optometry & Vision Science, Faculty of Science, UNSW January 2004 (has links)
Purpose: To improve the predictability, accuracy and stability of laser in-situ keratomileusis (LASIK), by evaluating the clinical, procedural and tissue response factors that affect refractive outcomes. Methods: Myopic LASIK surgeries (n=5,978) were carried out using the Technolas planoscan and Nidek EC-5000 excimer lasers. Clinical variables associated with a refractive outcome of within ??0.50 D of the target were identified using regression analysis. Possible procedural variations such as the timing of the procedure and accuracy of both the chosen keratome and excimer laser were evaluated. The predictability and accuracy of the ablation was assessed by measuring changes in corneal thickness during and after the procedure. Factors influencing the stability of refractive outcome were assessed. Results: Clinical factors associated with a refractive outcome of within ??0.50 D of the target included; corrections less than 5.00 DS (OR 0.21x, 95% CI 0.11-0.40x compared with corrections over -5.00 DS[referent]), patients younger than 40 years (patients over 50 OR 8.27x, 95% CI 3.41-20.03x, patients 40 to 50 years OR 1.93x, 95% CI 0.96-3.90x, compared with patients under 40[referent]) and average pre-operative curvatures between 43.50 and 45.50D (OR 0.39x, 95% CI 0.18-0.83 compared with curvatures of less than 43.50D [referent]). Refractive stability was improved using optic zone sizes between 5.5-6.0 mm, reduced myopic corrections, flatter pre-operative corneal curvatures and thicker corneal flaps (R??=25%, p<0.001). Procedural factors associated with poorer outcomes included: thinner measured flap thickness, deeper ablations and the use of the automated corneal shaper (ACS) microkeratome with a novice surgical team (R??=34%, p < 0.001). Delaying the ablation from 20 to 90 seconds (s) after flap lift was associated with a more stable refractive outcome at three months (p=0.017). In the 90 s following flap lift, the cornea thinned by 5??3%. The ablation rate per scan varied between procedures, however, the effect on refractive outcome was small (r=0.15, p=0.267). Changes in central corneal thickness indicated refractive stability (p=0.039). Conclusions: Applying the optimal clinical and procedural factors as described afforded a refractive outcome in a further 8% of cases, resulting in 94% to 96% of cases within ??0.50 DS of target. Refractive predictability was limited due to the inability of the keratome to produce a consistent corneal flap thickness and unexpected changes in corneal thickness. The accuracy of refractive outcome will decrease with larger ablations. The degree of refractive inaccuracy with high refractive corrections (> -10.00 D) can be over 1.00 D.
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Perfil de distribuição de erros refracionais no sul do centro-oeste do estado de São Paulo e seu impacto na acuidade visual: estudo de base populacional. -Ferraz, Fábio Henrique da Silva [UNESP] 17 May 2013 (has links) (PDF)
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000741373.pdf: 4583650 bytes, checksum: 87f6f61f6501ebdd745502a6340efa62 (MD5) / Determinar o perfil de distribuição dos erros refracionais em uma amostra populacional do centro-oeste do Estado de São Paulo, suas possíveis associações com características individuais e a influência sobre a acuidade visual. foi desenvolvido estudo de secção transversal com amostragem residencial probabilística e sistemática em nove municípios no sul do centro-oeste paulista, como parte do Projeto de Prevenção à Cegueira na Comunidade. Os indivíduos acima de um ano de idade foram submetidos a entrevista e exame oftalmológico completo. A acuidade visual em sistema Snellen e posterior conversão para logMAR foi obtida antes e após exame de refração e categorizada em quatro segmentos. Os erros refracionais foram classificados em miopia (EE ≤ - 0,50D), hipermetropia (EE ≥ 0,50D), astigmatismo (DC ≤ -0,50D) e anisometropia (diferença de EE ≥ 1,00D entre os olhos). Foi realizada a análise descritiva dos dados de prevalência na amostra, análise univariada e multivariada com modelos de regressão logística múltipla para determinar possíveis associações de prevalências. 3012 residências foram entrevistadas e 7654 indivíduos foram incluídos no estudo, sendo 62,7% mulheres, 92,1% considerados com pele branca e média para a idade de 36,89 anos (extremos de 1 a 96 anos). A miopia foi mais prevalente na terceira e quarta décadas de vida, atingindo 43,31% sem diferenças significativas entre sexos, enquanto a hipermetropia foi mais prevalente entre mulheres acima de 60 anos de idade, com uma frequência de 65,6% nesta faixa etária. O astigmatismo apresentou uma frequência progressivamente maior com a idade e semelhante entre os sexos. O eixo do astigmatismo também apresentou variação conforme a idade, com o eixo horizontal mais frequente em jovens e o vertical nos idosos. A prevalência da anisometropia apresentou variação com a idade sendo mais frequente nos extremos de idade,... / Establish the refractive errors distribution in a population sample of the Central São Paulo State, correlations with personal features and its influence in visual acuity. A cross sectional survey was developed with randomized and systematic residential sampling in nine cities of middle region of São Paulo St/Brazil as part of Blindness Prevention Project at Community. Inhabitants above one year old were submitted to an interview and full ophthalmic exam. Visual acuity in logMAR system was determined before and after refraction exam and classified in four categories. Refractive errors were classified in myopia (SE ≤ -0,50D), hyperopia (SE ≥ 0,50D), astigmatism (CD ≤ -0,50D) and anisometrophy (SE difference between eyes ≥ 1,00D). Prevalence data sample were submitted to descriptive analysis, univariate and multivariate logistic regression models to find eventual prevalence associations. 7654 participants were included in this survey, in which 62,7% were women, 92,1% with white skin and middle age of 36,89 years old (1 to 96 years). Myopia was more prevalent at 3rd and 4th decades, achieving 43,31% without significant differences between genders, while hyperopia was more prevalent in women above 60 years old, with 65,5%. Astigmatism prevalence increased by age with no differences between genders. Astigmatism axis changed by age too, when horizontal axis were more frequently observed in youngers and vertical in olders. Anisometrophy prevalence changed by age, more frequent at extremes, achieving 32,66% after 70 years old. No significant differences were found in ethnic categories. Visual acuity increasing prevalence by visual impairment corrected with spectacles (UREN) was 6,53% in the total sample, mainly after 60 years old and high refrective errors. Prevalence associations were found between age and all ametrophic categories, sex and hyperopia and between UREN with myopia, hyperopia and ...
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Design optometrického přístroje pro primární vyšetření zraku / Design of Optometric Equipment for Basic Eye ExaminationBěťáková, Vendula January 2017 (has links)
The goal of this bachelor thesis is a proposal design of optometric device for primary examination of eye vision, which should respect the functional requirements and conceptualize the technical and aesthetic aspects. The work includes a study of the current market situation and development of new technologies in the field. The proposal deals with an ergonomic design and issues.
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Risk Factors Associated with the Occurrence of Refractive errors among Secondary School Children in Malamulele Community, Limpopo Province.Khoza, Hllawulani Lizzy 09 1900 (has links)
MPH / Department of Public Health / See the attached abstract below
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Componentes oculares em anisometropia / The ocular components in anisometropiaTayah, David 06 December 2007 (has links)
Objetivo: Em anisométropes, comparar os valores médios individuais dos componentes oculares de ambos os olhos (poder da córnea, profundidade da câmara anterior, poder equivalente do cristalino e comprimento axial), correlacionar as diferenças dos componentes oculares com as diferenças de refração de ambos os olhos; verificar a contribuição total e a seqüência geral de influência das variáveis na diferença refrativa; e identificar o menor número de fatores que contenham o mesmo grau de informações expressas no conjunto de variáveis que influenciam na diferença refrativa. Métodos: Realizou-se um estudo transversal analítico em população de 77 anisométropes de duas ou mais dioptrias, atendida no ambulatório de Oftalmologia do Hospital Universitário da Faculdade de Medicina Nilton Lins, Manaus, Amazonas. Os anisométropes foram submetidos à refração estática objetiva e subjetiva, ceratometria e biometria ultra-sônica A-scan. A análise dos dados foi feita por meio dos seguintes modelos estatísticos: análise univariada, multivariada, de regressão múltipla e fatorial. Resultados: Não houve diferenças significativas na comparação dos valores médios individuais dos componentes oculares entre os olhos. Houve correlação negativa média entre a diferença refrativa e a diferença de comprimento axial (r=-0,64) (P<0,01) e correlação negativa fraca entre a diferença refrativa e a diferença de poder do cristalino (r=-0,34) (p<0,01). As variáveis analisadas responderam, no seu conjunto, por 78% da variação total para a diferença refrativa. A seqüência geral de influência das variáveis na diferença refrativa foi a seguinte: comprimento axial, poder do cristalino, poder da córnea e profundidade da câmara anterior. Foram identificados três fatores para a diferença refrativa: a) fator 1 (refração, comprimento axial); b) fator 2 (profundidade da câmera anterior, poder da córnea) e c) fator 3 (poder do cristalino). Conclusões: O estudo conduzido em 77 indivíduos com anisometropias variando de 2,00 a mais de 19,00 dioptrias, realizado para avaliar a influência dos componentes oculares, mostrou que o comprimento axial foi o principal fator causador das anisometropias, seguido pelo cristalino que contribuiu menos, depois pela córnea e profundidade da câmara anterior, com contribuições ainda menores. A investigação sugere falência no mecanismo adaptativo normal em anisometropia, o que poderia produzir não só descontrole do alongamento do comprimento axial (fator 1), mas também falência no controle do aplanamento da córnea e do aprofundamento da câmara anterior (fator 2) e no achatamento do cristalino (fator 3). / Purpose: To compare the individual means of ocular components of both eyes (corneal power, anterior chamber depth, crystalline lens power and axial length) in patients with anisometropia; to correlate the differences of the ocular components with refractive differences in both eyes; to verify total contribution and the sequence of influence that variables have in refractive differences, and to identify the smallest number of factors that contain the same level of information expressed in the set of variables that influence refractive difference. Methods: An analytical transversal study was carried out in 77 patients with anisometropia of two or more dioptres seen at the Ophthalmologic Clinic, University Hospital, Medical School Nilton Lins, Manaus, Amazon state. All participants were submitted to ophthalmologic exam which included objective and subjective cycloplegic refractometry, keratometry and ultrasonic biometry. Data analysis comprised the following statistical models: univariate, multivariate, multiple and factorial regression analyses. Results: There were no significant differences in the comparison of the individual means of the ocular components. There was negative correlation between refractive difference and difference of axial length (r=- 0.64; p<0.01) and weak negative correlation between refractive difference and crystalline lens power difference (r=-0.34; p< 0.01). The analyzed variables amounted to 78% of the total variation of refractive difference. The general sequence of variables influencing refractive difference was: axial length, crystalline lens power, cornea power, and anterior chamber depth. There were three factors identified for refractive differences: a) factor 1 (refraction, axial length); b) factor 2 (anterior chamber depth, cornea power), and c) factor 3 (crystalline lens power). Conclusions: Seventy-seven cases of anisometropia ranging from 2,00 to over 19,00 dioptres, examined for the individual components of refraction, showed that axial length was the major causative factor; crystalline lens have contributed less, followed by cornea and anterior chamber length. This study has suggested deficit of the normal adaptive mechanism in anisometropia that could produce not only axial elongation (factor 1), but also failure to control flattening of the cornea, deepening of the anterior chamber length (factor 2) and flattening of crystalline lens (factor 3).
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Componentes oculares em anisometropia / The ocular components in anisometropiaDavid Tayah 06 December 2007 (has links)
Objetivo: Em anisométropes, comparar os valores médios individuais dos componentes oculares de ambos os olhos (poder da córnea, profundidade da câmara anterior, poder equivalente do cristalino e comprimento axial), correlacionar as diferenças dos componentes oculares com as diferenças de refração de ambos os olhos; verificar a contribuição total e a seqüência geral de influência das variáveis na diferença refrativa; e identificar o menor número de fatores que contenham o mesmo grau de informações expressas no conjunto de variáveis que influenciam na diferença refrativa. Métodos: Realizou-se um estudo transversal analítico em população de 77 anisométropes de duas ou mais dioptrias, atendida no ambulatório de Oftalmologia do Hospital Universitário da Faculdade de Medicina Nilton Lins, Manaus, Amazonas. Os anisométropes foram submetidos à refração estática objetiva e subjetiva, ceratometria e biometria ultra-sônica A-scan. A análise dos dados foi feita por meio dos seguintes modelos estatísticos: análise univariada, multivariada, de regressão múltipla e fatorial. Resultados: Não houve diferenças significativas na comparação dos valores médios individuais dos componentes oculares entre os olhos. Houve correlação negativa média entre a diferença refrativa e a diferença de comprimento axial (r=-0,64) (P<0,01) e correlação negativa fraca entre a diferença refrativa e a diferença de poder do cristalino (r=-0,34) (p<0,01). As variáveis analisadas responderam, no seu conjunto, por 78% da variação total para a diferença refrativa. A seqüência geral de influência das variáveis na diferença refrativa foi a seguinte: comprimento axial, poder do cristalino, poder da córnea e profundidade da câmara anterior. Foram identificados três fatores para a diferença refrativa: a) fator 1 (refração, comprimento axial); b) fator 2 (profundidade da câmera anterior, poder da córnea) e c) fator 3 (poder do cristalino). Conclusões: O estudo conduzido em 77 indivíduos com anisometropias variando de 2,00 a mais de 19,00 dioptrias, realizado para avaliar a influência dos componentes oculares, mostrou que o comprimento axial foi o principal fator causador das anisometropias, seguido pelo cristalino que contribuiu menos, depois pela córnea e profundidade da câmara anterior, com contribuições ainda menores. A investigação sugere falência no mecanismo adaptativo normal em anisometropia, o que poderia produzir não só descontrole do alongamento do comprimento axial (fator 1), mas também falência no controle do aplanamento da córnea e do aprofundamento da câmara anterior (fator 2) e no achatamento do cristalino (fator 3). / Purpose: To compare the individual means of ocular components of both eyes (corneal power, anterior chamber depth, crystalline lens power and axial length) in patients with anisometropia; to correlate the differences of the ocular components with refractive differences in both eyes; to verify total contribution and the sequence of influence that variables have in refractive differences, and to identify the smallest number of factors that contain the same level of information expressed in the set of variables that influence refractive difference. Methods: An analytical transversal study was carried out in 77 patients with anisometropia of two or more dioptres seen at the Ophthalmologic Clinic, University Hospital, Medical School Nilton Lins, Manaus, Amazon state. All participants were submitted to ophthalmologic exam which included objective and subjective cycloplegic refractometry, keratometry and ultrasonic biometry. Data analysis comprised the following statistical models: univariate, multivariate, multiple and factorial regression analyses. Results: There were no significant differences in the comparison of the individual means of the ocular components. There was negative correlation between refractive difference and difference of axial length (r=- 0.64; p<0.01) and weak negative correlation between refractive difference and crystalline lens power difference (r=-0.34; p< 0.01). The analyzed variables amounted to 78% of the total variation of refractive difference. The general sequence of variables influencing refractive difference was: axial length, crystalline lens power, cornea power, and anterior chamber depth. There were three factors identified for refractive differences: a) factor 1 (refraction, axial length); b) factor 2 (anterior chamber depth, cornea power), and c) factor 3 (crystalline lens power). Conclusions: Seventy-seven cases of anisometropia ranging from 2,00 to over 19,00 dioptres, examined for the individual components of refraction, showed that axial length was the major causative factor; crystalline lens have contributed less, followed by cornea and anterior chamber length. This study has suggested deficit of the normal adaptive mechanism in anisometropia that could produce not only axial elongation (factor 1), but also failure to control flattening of the cornea, deepening of the anterior chamber length (factor 2) and flattening of crystalline lens (factor 3).
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Interactions between GABAergic, dopaminergic and cholinergic neurotransmitter systems in form deprived myopic chickTripathy, Srikant January 2008 (has links)
Myopia is a refractive defect of the eye in which collimated light produces images focused in front of the retina. Myopia can be artificially induced in animal models by form deprivation (form deprivation myopia, FDM) or by application of negative lenses (lens induced myopia, LIM). In this study myopia was induced using diffusers. The project had two main aims:
1. To determine if there is an interaction between the GABAergic system and dopaminergic system in the retina in terms of myopia?
2. To determine if there is an interaction between the GABAergic system and cholinergic system in the retina in terms of myopia?
Firstly, an experiment focusing on the interaction between dopaminergic receptors antagonists and GABAC receptor antagonist was developed. Comparison of the different drug treated eye with the control was found and the effects of combination injections were compared to individual drug injections. Use of different blockers for various subtype of receptors simplified the understandings the underlying pharmacological interventions for GABAC receptor antagonist TPMPA. The D1 subtype of receptors was found to be involved in transmission of signals from GABAC receptors. Our results showed that D1 receptor antagonist SCH-23390 antagonizes the actions of TPMPA. In addition to this it was also found that possibly 5HT receptor may also play an important role in modulation of signaling from GABA receptor to dopaminergic receptors in the retina. These results were consistent with the drug combination effects for agonists. GABA A/C receptor agonist muscimol negativate the efficacy of D1 receptor agonist SKF-38393 but the activity of D2/4 receptor agonist quinpirole was not affected by muscimol.
Although dopaminergic receptors are found to interact with GABAergic signaling, but an alternative interaction with anticholinergic (most widely studied antimyopic agents) could not be ruled out. This problem led to a follow-up experiment, in which GABA receptors intervention in anticholinergic agents was studied.
The GABAergic receptor agonist muscimol when injected with anticholinergics (atropine and pirenzepine) showed a moderate interaction. As muscimol interacted with atropine to a lesser extent a more specific M1/5 receptor antagonist pirenzepine (earlier found to inhibit myopia) was used under these circumstances. The second aim to study the interaction between muscimol and pirenzepine showed more interaction with GABAA/C receptor agonist. There were data suggesting that there is a muscarinic and GABAergic interaction in retina, such that each modulation of each receptor had an effect on FDM. However, a drug combination treatment helped in understanding the underlying mechanism. Several previous studies have indicated that there exist a strong interaction between excitatory neurotransmitter acetylcholine and inhibitory transmitter GABA in retina. The results of this study indicate a similar finding.
Thus results of this study may be summarized as: 1. D1 antagonists and not D2 antagonists blocks the antimyopic effects of GABAC antagonist TPMPA 2. GABA A/C agonist muscimol partially blocks the antimyopic activity of anticholinergics (e.g. atropine and pirenzepine).
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Impacto da retinopatia da prematuridade nas alterações oftalmológicas tardias em recém-nascidos pré-termos de muito baixo pesoInêz, Natália Pereira 18 July 2016 (has links)
Introdução: Os distúrbios oftalmológicos representam um sério problema de saúde pública
considerando que muitos dos agravos à saúde ocular poderiam ser prevenidos ou
adequadamente tratados. O presente estudo tem como objetivo avaliar as alterações
oftalmológicas em recém-nascidos pré-termo de muito baixo peso aos dois anos de idade
cronológica e compará-las entre os grupos com e sem retinopatia da prematuridade. Métodos:
Estudo transversal incluindo todas as crianças nascidas em um hospital universitário entre o
período de novembro de 2009 a junho de 2011, com IG < 34 semanas e peso de nascimento <
1500g, avaliadas aos dois anos de idade. Foram excluídos gêmeos, óbitos neonatais e as
crianças que não compareceram a consulta de seguimento. Foi realizada a análise descritiva e
comparativa dos dois grupos pelo teste de Mann Whitney e x²; odds ratio das alterações
oftalmológicas entre os dois grupos através do software SPSS 20.0 e Bioestat 5.2.
Resultados: Foram avaliadas 82 crianças, das quais 29 (35,3%) apresentaram o diagnóstico
de ROP. Dentre os fatores de risco estatisticamente significantes destaca-se a IG (p=0,005),
PN(p=0,000), tempo de internação (p=0,000), uso e tipo de O2(p=0,016), hemotransfusões
(p=0,000), SNAPPE(p=0,000), broncodisplasia (p=0,000), HPIV(p=0,003). A maioria das
retinopatias foram classificadas no estadiamento II (51,7%). O diagnóstico de ROP durante a
internação foi associado a 4,3 vezes maior probabilidade de desenvolver estrabismo aos dois
anos de idade. Conclusão: A ROP aumenta o risco de alterações oftalmológicas nos prétermos
de muito baixo peso, em especial o desenvolvimento de estrabismo. / Purpose: To evaluate the ocular changes in preterm with very low birth weight, at two years
of chronological age and compare them between the groups with and without retinopathy of
prematurity (ROP). Methods: A cross-sectional study including all children born in a
university hospital in the period from November 2009 to June 2011, with gestational age
(GA) <34 weeks and birth weight <1500 g, evaluated to two years of age. Were excluded:
twins, neonatal deaths and children who did not attend the follow-up consultations. Was
performed a descriptive and comparative analysis for both groups by the Mann Whitney test
and x²; odds ratio of ophthalmologic abnormalities between the two groups through SPSS
20.0 and Bioestat 5.2 software. Results: Were evaluated 82 children, of which 29 (35.3%)
had a ROP diagnosis. Among the statistically significant risk factors following stand out the
GA (p = 0.005), birth weight (p = 0.000), length of hospital stay (p = 0.000), use and type of
oxygen administration (p = 0.016), blood transfusions (p = 0.000 ) Score for Neonatal Acute
Physiology Perinatal Extension (SNAPPE) (p = 0.000), bronchodysplasia (p = 0.000), periintraventricular
hemorrhage (p = 0.003). Most ROP (51.7%) were classified as stage II. The
diagnosis of ROP was associated with 4.3 times more likely to develop strabismus at two
years of age. Conclusions: The study demonstrated that ROP increases the risk of ocular
changes in preterm very low birth weight, especially the development of strabismus. / Dissertação (Mestrado)
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