Christina Eckmann-Hansen, Mathias Hvidtfelt Hansen, Poul Pedersen Laigaard, Birgit Agnes Sander, Inger Christine Munch, Else Marie Olsen, Anne Mette Skovgaard, Michael Larsen
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Associations of cone density with gestational parameters, maternal smoking, sex and age were analysed using multiple regression adjusted for axial length.</p><p><strong>Results: </strong>Mean absolute cone density was 30,007 cones/mm<sup>2</sup> (SD ± 3,802) and mean angular cone density was 2,383 cones/deg<sup>2</sup> (SD ± 231). Peri- and postnatal parameters, sex and age had no statistically significant effect on cone density (p > 0.05). Absolute cone density decreased with longer axial length (-2,855 cones/mm<sup>2</sup> per mm or -9.7% per mm, p < 0.0001). For angular density, which included a correction for the geometrical enlargement of the eye with axial length, a decrease with axial length was detectable, but it was small (-20 cones/deg<sup>2</sup> per mm or -0.84% per mm, p = 0.009).</p><p><strong>Conclusions: </strong>The decrease in cone density per unit solid angle with increasing axial length was small, less than 1 percent per mm, indicating that expansion of the posterior pole during the development of refraction takes place without a clinically significant loss of cones. Perinatal parameters, within the spectrum presented by the study population, had no detectable effect on cone density.</p>","PeriodicalId":520731,"journal":{"name":"Ophthalmic & physiological optics : the journal of the British College of Ophthalmic Opticians (Optometrists)","volume":" ","pages":"1292-1299"},"PeriodicalIF":2.4000,"publicationDate":"2021-11-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"5","resultStr":"{\"title\":\"Cone photoreceptor density in the Copenhagen Child Cohort at age 16-17 years.\",\"authors\":\"Christina Eckmann-Hansen, Mathias Hvidtfelt Hansen, Poul Pedersen Laigaard, Birgit Agnes Sander, Inger Christine Munch, Else Marie Olsen, Anne Mette Skovgaard, Michael Larsen\",\"doi\":\"10.1111/opo.12889\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<p><strong>Purpose: </strong>To examine cone density in relation to gestational and morphological parameters in the Copenhagen Child Cohort (CCC2000).</p><p><strong>Methods: </strong>The macula was imaged using adaptive optics in 1,296 adolescents aged 16-17 years. Axial length and distance visual acuity were determined. Absolute and angular cone photoreceptor density were analysed for an 80 × 80-pixel area, 2 degrees temporal to the fovea. Association with axial length was analysed with linear regression. Correlation with visual acuity was described with a Pearson correlation coefficient. Associations of cone density with gestational parameters, maternal smoking, sex and age were analysed using multiple regression adjusted for axial length.</p><p><strong>Results: </strong>Mean absolute cone density was 30,007 cones/mm<sup>2</sup> (SD ± 3,802) and mean angular cone density was 2,383 cones/deg<sup>2</sup> (SD ± 231). Peri- and postnatal parameters, sex and age had no statistically significant effect on cone density (p > 0.05). Absolute cone density decreased with longer axial length (-2,855 cones/mm<sup>2</sup> per mm or -9.7% per mm, p < 0.0001). 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引用次数: 5
摘要
目的:研究哥本哈根儿童队列(CCC2000)中锥体密度与妊娠期和形态参数的关系。方法:对1296例16 ~ 17岁青少年的黄斑进行自适应光学成像。测定眼轴长度和距离视力。在距中央凹2度的80 × 80像素区域,分析绝对锥光感受器密度和角锥光感受器密度。用线性回归分析与轴长的关系。与视力的相关性用Pearson相关系数来描述。使用调整轴长后的多元回归分析了锥体密度与妊娠参数、母亲吸烟、性别和年龄的关系。结果:平均绝对锥密度为30,007锥/mm2 (SD±3,802),平均角锥密度为2,383锥/deg2 (SD±231)。出生前后参数、性别和年龄对锥体密度的影响均无统计学意义(p > 0.05)。绝对锥密度随着轴向长度的增加而降低(-2,855个锥/mm2 /mm或-9.7% /mm, p 2 /mm或-0.84% /mm, p = 0.009)。结论:随着轴向长度的增加,每单位立体角锥体密度的下降很小,每毫米不到1%,这表明在屈光发展过程中,后极的扩张发生了,但没有临床上显著的锥体损失。围产期参数,在研究人群提供的频谱内,对锥体密度没有可检测到的影响。
Cone photoreceptor density in the Copenhagen Child Cohort at age 16-17 years.
Purpose: To examine cone density in relation to gestational and morphological parameters in the Copenhagen Child Cohort (CCC2000).
Methods: The macula was imaged using adaptive optics in 1,296 adolescents aged 16-17 years. Axial length and distance visual acuity were determined. Absolute and angular cone photoreceptor density were analysed for an 80 × 80-pixel area, 2 degrees temporal to the fovea. Association with axial length was analysed with linear regression. Correlation with visual acuity was described with a Pearson correlation coefficient. Associations of cone density with gestational parameters, maternal smoking, sex and age were analysed using multiple regression adjusted for axial length.
Results: Mean absolute cone density was 30,007 cones/mm2 (SD ± 3,802) and mean angular cone density was 2,383 cones/deg2 (SD ± 231). Peri- and postnatal parameters, sex and age had no statistically significant effect on cone density (p > 0.05). Absolute cone density decreased with longer axial length (-2,855 cones/mm2 per mm or -9.7% per mm, p < 0.0001). For angular density, which included a correction for the geometrical enlargement of the eye with axial length, a decrease with axial length was detectable, but it was small (-20 cones/deg2 per mm or -0.84% per mm, p = 0.009).
Conclusions: The decrease in cone density per unit solid angle with increasing axial length was small, less than 1 percent per mm, indicating that expansion of the posterior pole during the development of refraction takes place without a clinically significant loss of cones. Perinatal parameters, within the spectrum presented by the study population, had no detectable effect on cone density.
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