Body mass index and astigmatism: A nationwide study

Background Existing research on the relationship between body mass index (BMI) and astigmatism yields inconsistent results. This study analyses this association in a nationally representative sample of adolescents. Methods This retrospective, cross‐sectional study included Israeli adolescents who un...

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Published in:	Clinical & experimental ophthalmology Vol. 52; no. 6; pp. 616 - 626
Main Authors:	Nitzan, Itay, Akavian, Inbal, Shmueli, Or, Erdinest, Nir, Hanina, Yair, Twig, Gilad, Safir, Margarita
Format:	Journal Article
Language:	English
Published:	Melbourne John Wiley & Sons Australia, Ltd 01-08-2024 Wiley Subscription Services, Inc
Subjects:	Adolescent Adolescents Astigmatism Astigmatism - epidemiology Astigmatism - physiopathology Body Mass Index Body weight Cross-Sectional Studies cylinder Female Females Humans Israel - epidemiology Male Males Obesity Prevalence Regression analysis Retrospective Studies Risk Factors Teenagers Weight control Israel astigmatism cylinder adolescents body mass index obesity
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Abstract	Background Existing research on the relationship between body mass index (BMI) and astigmatism yields inconsistent results. This study analyses this association in a nationally representative sample of adolescents. Methods This retrospective, cross‐sectional study included Israeli adolescents who underwent medical assessments before mandatory military service between 2011 and 2022. BMI was categorised based on the US age‐ and sex‐matched percentiles. Astigmatism was categorised by magnitude [low‐moderate: 0.75 to <3.00 diopters (D), high: ≥3.00 D], and axis orientation [with‐the‐rule (WTR), against‐the‐rule (ATR), or oblique (OBL)]. Sex‐stratified regression models adjusted for sociodemographic variables were used. Results Of 935 989 adolescents evaluated, 887 325 were included [511 465 (57.6%) males, mean age 17.2 years]. Astigmatism was diagnosed in 123 675 (13.9%) adolescents, of whom 117 081 (13.2%) had low‐moderate and 6594 (0.7%) had high astigmatism. WTR astigmatism was the most prevalent (8.2%), followed by ATR (4.1%) and OBL (1.6%) types. Compared with low‐normal BMI (5th to 50th percentile), the adjusted ORs for total astigmatism increased with increasing BMI, peaking at 1.65 (1.57–1.74) in males and 1.74 (1.64–1.86) in females with severe obesity. ORs were accentuated for high astigmatism, reaching 3.51 (3.01–4.09) in males, and 3.45 (2.83–4.22) in females with severe obesity. WTR astigmatism demonstrated the strongest association with BMI, with ORs reaching 2.26 (2.13–2.40) in males and 2.04 (1.90–2.20) in females with severe obesity. The results persisted in a series of subgroup analyses. Conclusions Obesity is associated with higher odds of astigmatism in adolescence. Further investigation into the role of weight management in astigmatism development is warranted.
AbstractList	BackgroundExisting research on the relationship between body mass index (BMI) and astigmatism yields inconsistent results. This study analyses this association in a nationally representative sample of adolescents.MethodsThis retrospective, cross‐sectional study included Israeli adolescents who underwent medical assessments before mandatory military service between 2011 and 2022. BMI was categorised based on the US age‐ and sex‐matched percentiles. Astigmatism was categorised by magnitude [low‐moderate: 0.75 to <3.00 diopters (D), high: ≥3.00 D], and axis orientation [with‐the‐rule (WTR), against‐the‐rule (ATR), or oblique (OBL)]. Sex‐stratified regression models adjusted for sociodemographic variables were used.ResultsOf 935 989 adolescents evaluated, 887 325 were included [511 465 (57.6%) males, mean age 17.2 years]. Astigmatism was diagnosed in 123 675 (13.9%) adolescents, of whom 117 081 (13.2%) had low‐moderate and 6594 (0.7%) had high astigmatism. WTR astigmatism was the most prevalent (8.2%), followed by ATR (4.1%) and OBL (1.6%) types. Compared with low‐normal BMI (5th to 50th percentile), the adjusted ORs for total astigmatism increased with increasing BMI, peaking at 1.65 (1.57–1.74) in males and 1.74 (1.64–1.86) in females with severe obesity. ORs were accentuated for high astigmatism, reaching 3.51 (3.01–4.09) in males, and 3.45 (2.83–4.22) in females with severe obesity. WTR astigmatism demonstrated the strongest association with BMI, with ORs reaching 2.26 (2.13–2.40) in males and 2.04 (1.90–2.20) in females with severe obesity. The results persisted in a series of subgroup analyses.ConclusionsObesity is associated with higher odds of astigmatism in adolescence. Further investigation into the role of weight management in astigmatism development is warranted. Existing research on the relationship between body mass index (BMI) and astigmatism yields inconsistent results. This study analyses this association in a nationally representative sample of adolescents. This retrospective, cross-sectional study included Israeli adolescents who underwent medical assessments before mandatory military service between 2011 and 2022. BMI was categorised based on the US age- and sex-matched percentiles. Astigmatism was categorised by magnitude [low-moderate: 0.75 to <3.00 diopters (D), high: ≥3.00 D], and axis orientation [with-the-rule (WTR), against-the-rule (ATR), or oblique (OBL)]. Sex-stratified regression models adjusted for sociodemographic variables were used. Of 935 989 adolescents evaluated, 887 325 were included [511 465 (57.6%) males, mean age 17.2 years]. Astigmatism was diagnosed in 123 675 (13.9%) adolescents, of whom 117 081 (13.2%) had low-moderate and 6594 (0.7%) had high astigmatism. WTR astigmatism was the most prevalent (8.2%), followed by ATR (4.1%) and OBL (1.6%) types. Compared with low-normal BMI (5th to 50th percentile), the adjusted ORs for total astigmatism increased with increasing BMI, peaking at 1.65 (1.57-1.74) in males and 1.74 (1.64-1.86) in females with severe obesity. ORs were accentuated for high astigmatism, reaching 3.51 (3.01-4.09) in males, and 3.45 (2.83-4.22) in females with severe obesity. WTR astigmatism demonstrated the strongest association with BMI, with ORs reaching 2.26 (2.13-2.40) in males and 2.04 (1.90-2.20) in females with severe obesity. The results persisted in a series of subgroup analyses. Obesity is associated with higher odds of astigmatism in adolescence. Further investigation into the role of weight management in astigmatism development is warranted. Background Existing research on the relationship between body mass index (BMI) and astigmatism yields inconsistent results. This study analyses this association in a nationally representative sample of adolescents. Methods This retrospective, cross‐sectional study included Israeli adolescents who underwent medical assessments before mandatory military service between 2011 and 2022. BMI was categorised based on the US age‐ and sex‐matched percentiles. Astigmatism was categorised by magnitude [low‐moderate: 0.75 to <3.00 diopters (D), high: ≥3.00 D], and axis orientation [with‐the‐rule (WTR), against‐the‐rule (ATR), or oblique (OBL)]. Sex‐stratified regression models adjusted for sociodemographic variables were used. Results Of 935 989 adolescents evaluated, 887 325 were included [511 465 (57.6%) males, mean age 17.2 years]. Astigmatism was diagnosed in 123 675 (13.9%) adolescents, of whom 117 081 (13.2%) had low‐moderate and 6594 (0.7%) had high astigmatism. WTR astigmatism was the most prevalent (8.2%), followed by ATR (4.1%) and OBL (1.6%) types. Compared with low‐normal BMI (5th to 50th percentile), the adjusted ORs for total astigmatism increased with increasing BMI, peaking at 1.65 (1.57–1.74) in males and 1.74 (1.64–1.86) in females with severe obesity. ORs were accentuated for high astigmatism, reaching 3.51 (3.01–4.09) in males, and 3.45 (2.83–4.22) in females with severe obesity. WTR astigmatism demonstrated the strongest association with BMI, with ORs reaching 2.26 (2.13–2.40) in males and 2.04 (1.90–2.20) in females with severe obesity. The results persisted in a series of subgroup analyses. Conclusions Obesity is associated with higher odds of astigmatism in adolescence. Further investigation into the role of weight management in astigmatism development is warranted. Existing research on the relationship between body mass index (BMI) and astigmatism yields inconsistent results. This study analyses this association in a nationally representative sample of adolescents.BACKGROUNDExisting research on the relationship between body mass index (BMI) and astigmatism yields inconsistent results. This study analyses this association in a nationally representative sample of adolescents.This retrospective, cross-sectional study included Israeli adolescents who underwent medical assessments before mandatory military service between 2011 and 2022. BMI was categorised based on the US age- and sex-matched percentiles. Astigmatism was categorised by magnitude [low-moderate: 0.75 to <3.00 diopters (D), high: ≥3.00 D], and axis orientation [with-the-rule (WTR), against-the-rule (ATR), or oblique (OBL)]. Sex-stratified regression models adjusted for sociodemographic variables were used.METHODSThis retrospective, cross-sectional study included Israeli adolescents who underwent medical assessments before mandatory military service between 2011 and 2022. BMI was categorised based on the US age- and sex-matched percentiles. Astigmatism was categorised by magnitude [low-moderate: 0.75 to <3.00 diopters (D), high: ≥3.00 D], and axis orientation [with-the-rule (WTR), against-the-rule (ATR), or oblique (OBL)]. Sex-stratified regression models adjusted for sociodemographic variables were used.Of 935 989 adolescents evaluated, 887 325 were included [511 465 (57.6%) males, mean age 17.2 years]. Astigmatism was diagnosed in 123 675 (13.9%) adolescents, of whom 117 081 (13.2%) had low-moderate and 6594 (0.7%) had high astigmatism. WTR astigmatism was the most prevalent (8.2%), followed by ATR (4.1%) and OBL (1.6%) types. Compared with low-normal BMI (5th to 50th percentile), the adjusted ORs for total astigmatism increased with increasing BMI, peaking at 1.65 (1.57-1.74) in males and 1.74 (1.64-1.86) in females with severe obesity. ORs were accentuated for high astigmatism, reaching 3.51 (3.01-4.09) in males, and 3.45 (2.83-4.22) in females with severe obesity. WTR astigmatism demonstrated the strongest association with BMI, with ORs reaching 2.26 (2.13-2.40) in males and 2.04 (1.90-2.20) in females with severe obesity. The results persisted in a series of subgroup analyses.RESULTSOf 935 989 adolescents evaluated, 887 325 were included [511 465 (57.6%) males, mean age 17.2 years]. Astigmatism was diagnosed in 123 675 (13.9%) adolescents, of whom 117 081 (13.2%) had low-moderate and 6594 (0.7%) had high astigmatism. WTR astigmatism was the most prevalent (8.2%), followed by ATR (4.1%) and OBL (1.6%) types. Compared with low-normal BMI (5th to 50th percentile), the adjusted ORs for total astigmatism increased with increasing BMI, peaking at 1.65 (1.57-1.74) in males and 1.74 (1.64-1.86) in females with severe obesity. ORs were accentuated for high astigmatism, reaching 3.51 (3.01-4.09) in males, and 3.45 (2.83-4.22) in females with severe obesity. WTR astigmatism demonstrated the strongest association with BMI, with ORs reaching 2.26 (2.13-2.40) in males and 2.04 (1.90-2.20) in females with severe obesity. The results persisted in a series of subgroup analyses.Obesity is associated with higher odds of astigmatism in adolescence. Further investigation into the role of weight management in astigmatism development is warranted.CONCLUSIONSObesity is associated with higher odds of astigmatism in adolescence. Further investigation into the role of weight management in astigmatism development is warranted.
Author	Hanina, Yair Erdinest, Nir Twig, Gilad Safir, Margarita Nitzan, Itay Shmueli, Or Akavian, Inbal
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Snippet	Background Existing research on the relationship between body mass index (BMI) and astigmatism yields inconsistent results. This study analyses this... Existing research on the relationship between body mass index (BMI) and astigmatism yields inconsistent results. This study analyses this association in a... BackgroundExisting research on the relationship between body mass index (BMI) and astigmatism yields inconsistent results. This study analyses this association...
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SubjectTerms	Adolescent Adolescents Astigmatism Astigmatism - epidemiology Astigmatism - physiopathology Body Mass Index Body weight Cross-Sectional Studies cylinder Female Females Humans Israel - epidemiology Male Males Obesity Prevalence Regression analysis Retrospective Studies Risk Factors Teenagers Weight control
Title	Body mass index and astigmatism: A nationwide study
URI	https://onlinelibrary.wiley.com/doi/abs/10.1111%2Fceo.14406 https://www.ncbi.nlm.nih.gov/pubmed/38803147 https://www.proquest.com/docview/3090086314 https://www.proquest.com/docview/3061136260
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