Anogenital distance and penile width measurements in The Infant Development and the Environment Study (TIDES): Methods and predictors

Anogenital distance (AGD) is an androgen responsive anatomic measurement that may have significant utility in clinical and epidemiological research studies. We describe development of standardized measurement methods and predictors of AGD outcomes. We examined infants born to 758 participants in The...

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Published in	Journal of pediatric urology Vol. 11; no. 2; pp. 76.e1 - 76.e6
Main Authors	Sathyanarayana, Sheela, Grady, Richard, Redmon, J.B., Ivicek, Kristy, Barrett, Emily, Janssen, Sarah, Nguyen, Ruby, Swan, Shanna H.
Format	Journal Article
Language	English
Published	England Elsevier Ltd 01.04.2015
Subjects	Anal Canal - anatomy & histology Anogenital distance Child Development - physiology Cohort Studies Female Genitalia, Female - anatomy & histology Genitalia, Female - growth & development Genitalia, Male - anatomy & histology Genitalia, Male - growth & development Gestational Age Humans Infant Infant, Newborn Male Maternal Age Pediatric Pediatrics Penile width Penis - anatomy & histology Predictive Value of Tests Pregnancy Reference Values Urology Weights and Measures Penile width Pediatric Urology Anogenital distance
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Abstract	Anogenital distance (AGD) is an androgen responsive anatomic measurement that may have significant utility in clinical and epidemiological research studies. We describe development of standardized measurement methods and predictors of AGD outcomes. We examined infants born to 758 participants in The Infant Development and the Environment Study (TIDES cohort) in four clinical centers in 2011-2013. We developed and implemented a detailed training protocol that incorporated multiple quality control (QC) measures. In males, we measured anoscrotal distance (AGDAS), anopenile distance (AGDAP), and penile width (PW) and in females, anofourchette distance (AGDAF,) and anoclitoral distance (AGDAC). A single examiner obtained three repetitions of all measurements, and a second examiner obtained independent measurements for 14% of infants. We used the intra-rater ICC to assess within-examiner variability and the inter-rater ICC to assess between-examiner variability. We used multivariable linear regression to examine predictors of AGD outcomes including: gestational age at birth, birth weight, gestational age, several measures of body size, race, maternal age, and study center. In the full TIDES cohort, including 758 mothers and children, significant predictors of AGD and PW included: age at exam, gestational age at birth, weight-for-length Z-score, maternal age and study center. In 371 males, the mean (SD) AGDAS, AGDAP, and PW were 24.7 (4.5), 49.6 (5.9), and 10.8 (1.3) mm, respectively. In 387 females, the mean (SD) AGDAF and AGDAC were 16.0 (3.2) mm and 36.7 (3.8) mm, respectively. The intra-examiner ICC and inter-examiner ICC averaged over all subjects and examiners were between 0.89–0.92 and 0.69–0.84 respectively. Our study confirms that with appropriate training and quality control measures, AGD and PW measurements can be performed reliably and accurately in male and female infants. In order for reliable interpretation, these measurements should be adjusted for appropriate covariates in epidemiologic analysis.
AbstractList	Anogenital distance (AGD) is an androgen responsive anatomic measurement that may have significant utility in clinical and epidemiological research studies. We describe development of standardized measurement methods and predictors of AGD outcomes. We examined infants born to 758 participants in The Infant Development and the Environment Study (TIDES cohort) in four clinical centers in 2011-2013. We developed and implemented a detailed training protocol that incorporated multiple quality control (QC) measures. In males, we measured anoscrotal distance (AGDAS), anopenile distance (AGDAP), and penile width (PW) and in females, anofourchette distance (AGDAF,) and anoclitoral distance (AGDAC). A single examiner obtained three repetitions of all measurements, and a second examiner obtained independent measurements for 14% of infants. We used the intra-rater ICC to assess within-examiner variability and the inter-rater ICC to assess between-examiner variability. We used multivariable linear regression to examine predictors of AGD outcomes including: gestational age at birth, birth weight, gestational age, several measures of body size, race, maternal age, and study center. In the full TIDES cohort, including 758 mothers and children, significant predictors of AGD and PW included: age at exam, gestational age at birth, weight-for-length Z-score, maternal age and study center. In 371 males, the mean (SD) AGDAS, AGDAP, and PW were 24.7 (4.5), 49.6 (5.9), and 10.8 (1.3) mm, respectively. In 387 females, the mean (SD) AGDAF and AGDAC were 16.0 (3.2) mm and 36.7 (3.8) mm, respectively. The intra-examiner ICC and inter-examiner ICC averaged over all subjects and examiners were between 0.89-0.92 and 0.69-0.84 respectively. Our study confirms that with appropriate training and quality control measures, AGD and PW measurements can be performed reliably and accurately in male and female infants. In order for reliable interpretation, these measurements should be adjusted for appropriate covariates in epidemiologic analysis. Summary Background Anogenital distance (AGD) is an androgen responsive anatomic measurement that may have significant utility in clinical and epidemiological research studies. We describe development of standardized measurement methods and predictors of AGD outcomes. Methods We examined infants born to 758 participants in The Infant Development and the Environment Study (TIDES cohort) in four clinical centers in 2011-2013. We developed and implemented a detailed training protocol that incorporated multiple quality control (QC) measures. In males, we measured anoscrotal distance (AGDAS ), anopenile distance (AGDAP ), and penile width (PW) and in females, anofourchette distance (AGDAF, ) and anoclitoral distance (AGDAC ). A single examiner obtained three repetitions of all measurements, and a second examiner obtained independent measurements for 14% of infants. We used the intra-rater ICC to assess within-examiner variability and the inter-rater ICC to assess between-examiner variability. We used multivariable linear regression to examine predictors of AGD outcomes including: gestational age at birth, birth weight, gestational age, several measures of body size, race, maternal age, and study center. Results In the full TIDES cohort, including 758 mothers and children, significant predictors of AGD and PW included: age at exam, gestational age at birth, weight-for-length Z-score, maternal age and study center. In 371 males, the mean (SD) AGDAS , AGDAP, and PW were 24.7 (4.5), 49.6 (5.9), and 10.8 (1.3) mm, respectively. In 387 females, the mean (SD) AGDAF and AGDAC were 16.0 (3.2) mm and 36.7 (3.8) mm, respectively. The intra-examiner ICC and inter-examiner ICC averaged over all subjects and examiners were between 0.89–0.92 and 0.69–0.84 respectively. Conclusions Our study confirms that with appropriate training and quality control measures, AGD and PW measurements can be performed reliably and accurately in male and female infants. In order for reliable interpretation, these measurements should be adjusted for appropriate covariates in epidemiologic analysis.
Author	Redmon, J.B. Barrett, Emily Ivicek, Kristy Nguyen, Ruby Swan, Shanna H. Grady, Richard Janssen, Sarah Sathyanarayana, Sheela
AuthorAffiliation	c Seattle Children's Research Institute, Seattle, WA, USA d Department of Medicine, University of Minnesota, Minneapolis, MN, USA f Department of Occupational Medicine, Kaiser Permanente, San Francisco, CA, USA g Department of Preventive Medicine, Icahn School of Medicine at Mount Sinai, New York, NY, USA b Department of Environmental and Occupational Health Sciences, University of Washington, Seattle, WA, USA a Department of Pediatrics, University of Washington, Seattle, WA, USA e Department of Obstetrics and Gynecology, University of Rochester, Rochester, NY, USA
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Copyright	2015 Journal of Pediatric Urology Company Journal of Pediatric Urology Company Copyright © 2015 Journal of Pediatric Urology Company. Published by Elsevier Ltd. All rights reserved. 2015 Journal of Pediatric Urology Company. Published by Elsevier Ltd. 2015
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Snippet	Anogenital distance (AGD) is an androgen responsive anatomic measurement that may have significant utility in clinical and epidemiological research studies. We... Summary Background Anogenital distance (AGD) is an androgen responsive anatomic measurement that may have significant utility in clinical and epidemiological...
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SubjectTerms	Anal Canal - anatomy & histology Anogenital distance Child Development - physiology Cohort Studies Female Genitalia, Female - anatomy & histology Genitalia, Female - growth & development Genitalia, Male - anatomy & histology Genitalia, Male - growth & development Gestational Age Humans Infant Infant, Newborn Male Maternal Age Pediatric Pediatrics Penile width Penis - anatomy & histology Predictive Value of Tests Pregnancy Reference Values Urology Weights and Measures
Title	Anogenital distance and penile width measurements in The Infant Development and the Environment Study (TIDES): Methods and predictors
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