Autistic boys have poor bones (most likely due to low vitamin D)

Created November 2016

Bone Accrual in Males with Autism Spectrum Disorder

The Journal of Pediatrics, online 22 Nov. 2016, http://dx.doi.org/10.1016/j.jpeds.2016.10.080

Ann M. Neumeyer, MD1, 2, , aneumeyer@mgh.harvard.edu, Natalia Cano Sokoloff, MD1, Erin McDonnell, MS3, Eric A. Macklin, PhD2, 3, Christopher J. McDougle, MD1, 2, Madhusmita Misra, MD2, 4

* Need to increase vitamin D with Autism, like many other health problems * Increased Vitamin D levels will decrease the risk of other low vitamin D health problems, such as thin bones * Increased Vitamin D levels probably will treat the health problem (Autism in this case) as well. * Autism treated by Vitamin D - 150,000 monthly for 3 months – Jan 2016 * Autism decreased in 8 out of 10 children supplemented with vitamin D – April 2015 * There are several more Randomized Controlled Trials underway (Nov 2016) * As of Nov 2016 I am aware of only one trial showing that Vitamin D PREVENTS Autism * Diseases that may be related via low vitamin D 40+ as of Nov 2016 * Most Autism Risk factors are associated with low vitamin D - March 2014 * Is There a Link Between Autism and Anorexia (yes, vitamin D) – Feb 2016 Autism treated by Vitamin D: Dr. Cannell - video June 2013 * includes many reasons why he believes Autism is related to Vitamin D {include}

Objective: To test the hypothesis that bone accrual over a 4-year period is reduced in boys with autism spectrum disorder (ASD) compared with typically developing controls.

Study design: Twenty-five boys with ASD and 24 controls were assessed for bone outcomes. Fourteen boys with ASD and 11 controls were assessed both at baseline and after 4 years. The mean subject age was 11.0 ± 1.6 years at study initiation and 14.9 ± 1.6 years at follow-up. Bone mineral density (BMD) was measured at the spine, hip, and whole body using dual-energy X-ray absorptiometry and normalized for age, race, and sex (BMD z-scores). Height adjustments were performed as well. We assessed medical history, physical activity using questionnaires, vitamin D and calcium intake using food records, and serum calcium, phosphorus, 25(OH)-vitamin D, and pubertal hormone levels.

Results: Boys with ASD had lower spine, hip, and whole body BMD z-scores compared with controls. In those subjects assessed both at baseline and after 4 years, bone accrual rates did not differ between the 2 groups; however, spine and hip BMD z-scores remained lower in the boys with ASD than in controls at follow-up. Notably, the ASD group was less physically active at both time points.

Conclusion: Although pubertal bone accrual was similar to that in controls, BMD in children with ASD remained low over a 4-year follow-up period, suggesting that low BMD is a consequence of prepubertal factors, such as low physical activity. Studies are needed to investigate the causes and consequences of decreased BMD, to assess BMD in females and adults with ASD, and to evaluate therapeutic interventions.

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Tags: Autism