Obesity Clinical Trial
Official title:
Normalization of Vitamin D Levels and Its Effect on Glucose Homeostasis in Obese Youth
Verified date | November 2019 |
Source | University of Texas Southwestern Medical Center |
Contact | n/a |
Is FDA regulated | No |
Health authority | |
Study type | Interventional |
Vitamin D deficiency is extremely common in obese youth. In our obese population followed in
the Endocrinology clinic at Children's Medical Center Dallas, vitamin D levels were inversely
correlated with a measure of insulin resistance. We propose to show that correction of
vitamin D levels in obese children and adolescents improves their insulin sensitivity. Obese
youth presenting to the Center for Obesity and its Consequences on Health (COACH) clinic will
be randomized to receive either the most recent Institute of Medicine (IOM) recommendations
of minimum D3 dose of 600 IU/day (1), or receive higher doses of D3 such that the blood
levels of vitamin D will be brought to a target level in either the low part or high part of
the normal range. The goal is to determine if correction of vitamin D deficiency will improve
insulin sensitivity in this group. Secondary goals include determining whether correction of
vitamin D deficiency in obese adolescents and children results in less weight gain, and
determining the amount of D3 required to correct vitamin D levels in this population.
Our specific hypotheses are as follows:
Hypothesis #1 Obese youth treated with Vitamin D3 who achieve low-normal 25-hydroxyvitamin D3
(OHD) levels (30-50 ng/mL) or high-normal 25-OHD levels (60-80 ng/mL) will have improved
insulin resistance, as measured by Homeostatic Model Assessment of Insulin Resistance
(HOMA-IR), compared to those individuals with deficient 25-OHD levels (< 30 ng/mL).
Hypothesis #2 Subjects with a higher BMI will have higher Vitamin D dose requirements than
current IOM recommendations of 600 IU/day and will take a longer period of time to reach
target 25-OHD levels.
Hypothesis #3 Subjects with normal 25-OHD levels will demonstrate less weight gain compared
to subjects on the control arm.
Status | Completed |
Enrollment | 109 |
Est. completion date | October 11, 2015 |
Est. primary completion date | September 2013 |
Accepts healthy volunteers | No |
Gender | All |
Age group | 6 Years to 17 Years |
Eligibility |
Inclusion Criteria: - age 6-17 years - BMI > 95% for age - serum 25-OH D level < or + to 25 ng/mL Exclusion Criteria: - BMI < 95% for age - serum 25-OH D level > 25 ng/mL - current Vitamin D supplementation > 400 IU/day - anti-convulsant therapy, anti-hypertensive therapy, lipid lowering medication - any medications that affect glucose metabolism (e.g., metformin, insulin) - daily glucocorticoid therapy - diabetes - any disorders of bone or calcium metabolism - hepatic or renal disease - any malabsorptive disorder - baseline serum Calcium > 11 ng/dL (> 2 SD above the mean) - any genetic disorder that predisposes to obesity (e.g., Prader Willi - hypothalamic obesity |
Country | Name | City | State |
---|---|---|---|
United States | UT Southwestern Medical Center | Dallas | Texas |
Lead Sponsor | Collaborator |
---|---|
Perrin C White, MD |
United States,
Alemzadeh R, Kichler J, Babar G, Calhoun M. Hypovitaminosis D in obese children and adolescents: relationship with adiposity, insulin sensitivity, ethnicity, and season. Metabolism. 2008 Feb;57(2):183-91. doi: 10.1016/j.metabol.2007.08.023. — View Citation
Bischoff-Ferrari HA, Giovannucci E, Willett WC, Dietrich T, Dawson-Hughes B. Estimation of optimal serum concentrations of 25-hydroxyvitamin D for multiple health outcomes. Am J Clin Nutr. 2006 Jul;84(1):18-28. Review. Erratum in: Am J Clin Nutr. 2006 Nov;84(5):1253. Dosage error in published abstract; MEDLINE/PubMed abstract corrected. Am J Clin Nutr. 2007 Sep;86(3):809. Dosage error in published abstract; MEDLINE/PubMed abstract corrected. — View Citation
Maalouf J, Nabulsi M, Vieth R, Kimball S, El-Rassi R, Mahfoud Z, El-Hajj Fuleihan G. Short- and long-term safety of weekly high-dose vitamin D3 supplementation in school children. J Clin Endocrinol Metab. 2008 Jul;93(7):2693-701. doi: 10.1210/jc.2007-2530. Epub 2008 Apr 29. — View Citation
Mansbach JM, Ginde AA, Camargo CA Jr. Serum 25-hydroxyvitamin D levels among US children aged 1 to 11 years: do children need more vitamin D? Pediatrics. 2009 Nov;124(5):1404-10. doi: 10.1542/peds.2008-2041. Erratum in: Pediatrics. 2009 Dec;124(6):1709. — View Citation
Nagpal J, Pande JN, Bhartia A. A double-blind, randomized, placebo-controlled trial of the short-term effect of vitamin D3 supplementation on insulin sensitivity in apparently healthy, middle-aged, centrally obese men. Diabet Med. 2009 Jan;26(1):19-27. doi: 10.1111/j.1464-5491.2008.02636.x. — View Citation
Olson ML, Maalouf NM, Oden JD, White PC, Hutchison MR. Vitamin D deficiency in obese children and its relationship to glucose homeostasis. J Clin Endocrinol Metab. 2012 Jan;97(1):279-85. doi: 10.1210/jc.2011-1507. Epub 2011 Nov 9. — View Citation
Rajakumar K, Fernstrom JD, Holick MF, Janosky JE, Greenspan SL. Vitamin D status and response to Vitamin D(3) in obese vs. non-obese African American children. Obesity (Silver Spring). 2008 Jan;16(1):90-5. doi: 10.1038/oby.2007.23. — View Citation
Ross AC, Manson JE, Abrams SA, Aloia JF, Brannon PM, Clinton SK, Durazo-Arvizu RA, Gallagher JC, Gallo RL, Jones G, Kovacs CS, Mayne ST, Rosen CJ, Shapses SA. The 2011 report on dietary reference intakes for calcium and vitamin D from the Institute of Medicine: what clinicians need to know. J Clin Endocrinol Metab. 2011 Jan;96(1):53-8. doi: 10.1210/jc.2010-2704. Epub 2010 Nov 29. — View Citation
von Hurst PR, Stonehouse W, Coad J. Vitamin D supplementation reduces insulin resistance in South Asian women living in New Zealand who are insulin resistant and vitamin D deficient - a randomised, placebo-controlled trial. Br J Nutr. 2010 Feb;103(4):549-55. doi: 10.1017/S0007114509992017. Epub 2009 Sep 28. — View Citation
Type | Measure | Description | Time frame | Safety issue |
---|---|---|---|---|
Primary | Change in HOMA-IR | Change in HOMA-IR from initial visit to end-of-study visit; i.e., the value at the later time point minus the value at the earlier time point. HOMA-IR= Fasting insulin (mIU/ml) x Fasting glucose (mg/dl) / 405. | 4-12 mo after randomization (4 months after target 25-hydroxyvitamin D level is reached). | |
Secondary | Time to Normalization of Vit D Level Versus BMI Z Score | The time required to reach a normal Vitamin D level (> 30) versus BMI Z score at each vitamin D3 dose; OR vitamin D level at 6 weeks versus BMI Z score at each starting vitamin D3 dose. | 1 to 12 months | |
Secondary | Change in BMI Z-score | The change in BMI z-score from baseline to end-of-study visit; i.e., the value at the later time point minus the value at the earlier time point. The BMI Z-score indicates the number of standard deviations away from the mean. A Z-score of 0 is equal to the mean of a reference population (i.e., healthy, age and sex-matched children). Negative numbers indicate values lower than the reference population and positive numbers indicate values higher than the reference population. |
4-12 mo after randomization (4 months after target 25-hydroxyvitamin D level is reached). |
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