Trials / Completed

CompletedNCT02629198

The Effect of Body Weight on Vitamin D Metabolism

Summary

There is current interest in the role of vitamin D in the prevention and treatment of many chronic diseases, including osteoporosis, cancer and neurological disease. The majority of vitamin D in the UK comes from the action of sunlight on skin, and very little from dietary sources. Half of the adult United Kingdom (UK) population have vitamin D insufficiency (according to the Institute of Medicine definition). There are still several important unknowns, including what the optimum levels of vitamin D are, and whether the same intake of vitamin D is appropriate for all sections of the population. Low 25(OH)D and high parathyroid hormone (PTH) have been observed in people with high adiposity (obesity), and the summer rise in vitamin D is blunted in obesity. The potential causes of low 25(OH)D levels include an inadequate supply of vitamin D (by reduced sunlight exposure or poor nutrition), the large pool size of adipose tissue or increased metabolic clearance rate. The investigators will measure metabolites of vitamin D and the kinetics of 25(OH)D using stable isotope techniques in lean, overweight and obese men, women and children to establish whether age, gender and obesity affect vitamin D metabolism and clearance rate. If low 25(OH)D in obesity is related to poorer skeletal health and is due to increased clearance of 25(OH)D or large pool size, then total requirements, and hence supplementation requirements, would be larger for obese people than for lean people.

Detailed description

Part 1: Measurement of vitamin D and metabolites (adults and children) Circulating levels of vitamin D metabolites are influenced by calcium intake, so participants will be asked to complete a seven day diet diary before the first vitamin D measurement. Measured vitamin D is influenced by vitamin D binding protein, lipids and inflammatory cytokines, so the investigators will include and correct for these measurements. Visit 1 Consent Height and weight Diet diary instructions Urine collection instructions Visit 2 Return of 24h urine collection for calcium and creatinine Return of diet diary Fasting blood sample for vitamin D, binding protein and metabolites C reactive protein (CRP), lipids and creatine kinase (CK), PTH, insulin-like growth factor -1 (IGF-1), creatinine, calcium, albumin, phosphate Part 2: Measurement of vitamin D clearance rate (adults only) Kinetic studies will be perturbed by acute changes in vitamin D (most likely to be caused by sunlight exposure on a sunny day), and so the studies will all be conducted in the autumn, winter, and early spring when sunlight in Sheffield will not be strong enough to deliver large doses of vitamin D. The administration and sampling protocol for the kinetics study has been developed by statisticians at the Sheffield School of Health and Related Research (ScHaRR) in collaboration with the Medical Research Council Human Nutrition Unit, based on modelling from their previous use of the stable isotope tracer method. Visit 2 Oral administration of stable vitamin D isotope Visit 3 (5-7 days after visit 2) Blood sample for tracer and vitamin D metabolites Visit 4 (9 days ± 2 after visit 2) Blood sample for tracer and vitamin D metabolites Visit 5 (27 days ± 2 after visit 2) Blood sample for tracer and vitamin D metabolites Visit 6 (30 days ± 2 after visit 2) Blood sample for tracer and vitamin D metabolites Height and weight The effect of obesity on vitamin D metabolites will be determined by regression models of BMI and vitamin D measurements corrected for age and gender. The effects of obesity on vitamin D kinetics will be determined by modelling metabolic clearance rate on age, gender and BMI. Subjects' previous data from the 'Effects of obesity on bone structure and strength'study (STH 15688) and the 'Body weight and bone' study (STH16199) will be used to evaluate relationships between vitamin D metabolism and body fat distribution, bone density and structure, and bone biochemistry.

Conditions

• Osteoporosis
• Obesity

Timeline

Start date

2012-10-01

Primary completion

2013-04-01

Completion

2013-04-01

First posted

2015-12-14

Last updated

2015-12-14

Source: ClinicalTrials.gov record NCT02629198. Inclusion in this directory is not an endorsement.