RESUMO
Purpose: To identify and correlate hypopigmented spots on fundoscopy with the leakage points on fluorescein angiography (FA) in patients with central serous chorioretinopathy (CSCR) to provide criteria for FA?free focal laser photocoagulation (FLP). Methods: Fifty consecutive patients of acute CSCR were evaluated between March and October 2019 confirming the inclusion and exclusion criteria. Colocalization of leakage points with discrete hypopigmented spots on clinical fundoscopy was evaluated using FA. Positive predictive value (PPV) was calculated to identify the status of association between these to formulate criteria for FA?free FLP of CSCR patients in future. Results: Out of the 50 eyes, 38 (76%) had a discrete hypopigmented spot on fundoscopy which coincided with the leakage point on FA. The PPV of finding a leakage point at the area of discrete hypopigmented spot is 95%. Colocalization with a pigment epithelial detachment was found in 25 (65.7%) of these 38 eyes. Retinal pigment epithelial irregularities were found associated in all of these 38 eyes. Subretinal homogenously hyperreflective material was found in 8 (21.05%) of 38 eyes. optical coherence tomography following FLP of leakage point in all cases showed complete resolution of CSCR in 47 (94%) eyes. Conclusion: This study demonstrates that hypopigmented spots on clinical fundus examination in CSCR patients, when present, coincide with the leakage point of FA. This may aid to undergo FA?free FLP treatment in CSCR patients
RESUMO
ABSTRACT Purpose: We aimed to compare the body mass index and vitamin and mineral status of children with and without amblyopia. Methods: Amblyopic children aged between 5 and 18 years (n=46) and age-matched control children (n=32) were evaluated in terms of anthropometric parameters, including height, weight, body mass index and demographic features. Serum vitamin B12 and folate were measured using an Advia Centaur XP (Siemens, Ireland) biochemistry analyzer. We evaluated the inorganic mineral elements from hair samples with inductively coupled plasma-mass spectrometry using a Thermo XSeries 2 analyzer (Thermo Fisher Scientific, Bremen, Germany). Results: No significant difference was found between the two groups in terms of height, weight, and body mass index or serum B12 and folate concentrations (p>0.05). Children with severe amblyopia had lower vitamin B12 and folate and higher body mass index. The levels of phosphorus (p=0.012), selenium (p=0.002), molybdenum (p<0.001), iodine (p=0.002), chromium (p=0.022), boron (p<0.001), and beryllium (p=0.005) were all significantly lower in the amblyopia group compared to the control group. All of these minerals, except phosphorus, were also significantly lower in those with severe amblyopia compared to those with milder amblyopia and controls (p<0.05). Conclusion: Amblyopic children are significantly deficient in some inorganic elements. Inorganic elements, vitamin B12, and folate may play an important role in the visual development of amblyopic children.
RESUMO Objetivo: Nosso objetivo foi comparar o índice de massa corporal e o nível de vitaminas e minerais de crianças com e sem ambliopia. Métodos: Crianças amblióticas com idades entre 5 e 18 anos (n=46) e crianças controle pareadas por idade (n=32) foram avaliadas quanto a parâmetros antropométricos, incluindo altura, peso, índice de massa corporal e características demográficas. A vitamina B12 e o folato séricos foram medidos utilizando um analisador bioquímico Advia Centaur XP (Siemens, Irlanda). Avaliamos os elementos minerais inorgânicos de amostras de cabelo com espectrometria de massa de plasma indutivamente acoplado usando um analisador Thermo XSeries 2 (Thermo Fisher Scientific, Bremen, Alemanha). Resultados: Não houve diferença significativa entre os dois grupos em relação à altura, peso e índice de massa corporal ou concentrações séricas de B12 e folato (p>0,05). Crianças com ambliopia severa tinham menor vitamina B12 e folato e maior índice de massa corporal. Os níveis de fósforo (p=0,012), selênio (p=0,002), molibdênio (p<0,001), iodo (p=0,002), cromo (p=0,022), boro (p<0,001) e berílio (p=0,005) foram todos significativamente menores no grupo com ambliopia em comparação com o grupo controle. Todos esses minerais, exceto o fósforo, também foram significativamente menores naqueles com ambliopia em comparação com aqueles com ambliopia leve e grupo controle (p<0,05). Conclusão: As crianças amblíopes são significativamente deficientes em alguns elementos inorgânicos. Elementos inorgânicos, vitamina B12 e folato podem desempenhar um papel importante no desenvolvimento visual de crianças com ambliopia.