Healthy Clinical Trial
Official title:
Do Vitamin D Fortified Cheese and Yogurt Products Support Vitamin D Status and Functional Outcomes in Young Children? Phase 2
This study is being done to test if adding vitamin D to cheese and yogurt products will help
children further improve their vitamin D intake. All children will be given a six month
supply of the milk products. One group will receive yogurt and cheese products already sold
in stores, while the other group will receive yogurt and cheese products with added vitamin
D. This will show if milk products with added vitamin D help maintain vitamin D intake and
child health.
The investigators are asking children 2 through 8 years old to participate. Children must not
have any medical conditions that affect their bones or vitamin D levels. They must not be
taking vitamin D supplements or medications that affect bone. This study will last for 6
months. The investigators expect 60 children from the Montreal area will participate in this
study.
Children will be randomly placed in one of the two study groups. There will be an equal
number of children in each group. All groups will go through the exact same procedures during
the study; the only difference between groups will be the amount of vitamin D in the milk
products they will consume each day. Families will not know which group their child is in
until the study is complete. Children will continue to drink their regular milk at home and
the investigators will provide flavoured yogurts and cheese to eat every day for the entire 6
month study. Families will be given a fresh supply of the yogurt or cheese products every 4
weeks along with instructions.
There are 3 study meetings for the parent and child to attend which take place at the Mary
Emily Clinical Nutrition Research Unit. The clinic is located on the Macdonald Campus of
McGill University in Ste. Anne-de-Bellevue, QC. The first visit is at the start of the study,
the second is at the end of 3 months and the last visit is at the end of the 6 month study.
Primary Objective:
1. Establish how much vitamin D intake from food is required to maintain vitamin D status
consistent with 75 nmol/L of serum 25(OH)D in all children from the beginning of the
UVB-void period (beginning of October) to the end of the winter period (end of April).
The amount of vitamin D will be selected based on Phase 1 data (January to April 2014).
It is hypothesized that total intakes half of the EAR of 400 IU (i.e. 200 IU/d as a
typical intake by young children) will result in exceeding a serum 25(OH)D of 40 nmol/L
as the population target that aligns with the current EAR value. Intakes reaching the
RDA of 600 IU will support serum concentrations of 25(OH)D over 50 nmol/L (and enable
further investigations regarding functional outcomes in bone such as BMC and BMD).
Secondary Objectives:
2. Demonstrate that children with higher vitamin D status (≥ 50 nmol/L 25(OH)D) will have
improved biomarkers of bone mineral metabolism compared to those with lower vitamin D
status (<50 nmol/L 25(OH)D).
It is hypothesized that children with higher vitamin D status will have lower PTH and CTx
with higher P1NP and normal iCa, suggesting that other bone health outcomes would also be
improved; in preparation for the follow-up studies.
Design: Parallel randomized controlled study using fortified milk and milk products.
Population: Healthy children (n=60) 2 to 8 y of age from the Greater Montreal Area.
This study uses two groups (based on results from phase 1) to establish how much vitamin D
intake from food is required to maintain vitamin D status consistent with 75 nmol/L
throughout the duration of winter.
Control Group 1: regular fortified milk + regular cheeses/yogurts Intervention Group 2:
regular fortified milk and fortified yogurts and cheeses
Estimated Vitamin D intake from 2.5 servings of Milk and Milk Products and other Foods1 All
serving sizes are ½ of a Canada's Food Guide Milk and Alternatives Serving.
Study Group Fluid Milk (2x 125 ml) Yogurt drink (2x93 ml) Cheese (21 g) Other Foods Total/d
Dose-response increments
1. (control) 100 IU ~30 IU tr. IU 10-65 IU 140-195 0
2. 100 IU 300 IU 300 IU 10-65 IU 410-465 420 IU vs grp 1
1 Fluid milk servings based on previous data where median intake was 1.7 servings/d [IQR
1.0-2.3]; total of all milk products servings was 2.5 [IQR: 1.7-3.3]; and vitamin D intake
from other foods provided ~65 IU/d. All serving sizes are ½ of a Canada's Food Guide Milk and
Alternatives Serving. The specially fortified cheeses will be made by Agropur Cooperative,
St-Hubert, Quebec and the specially fortified yogurt products will be made by Ultima Foods
Inc., Quebec. All products are verified to be within 5% of vitamin D content. The yogurt
beverage has 15 IU/93 ml and the fortified product 150 IU/93 ml. The cheese will be standard
or made with one fortification level (0 or 300 IU/25 g serving). All serving sizes have been
selected based on the target population and typical intakes. There will be no difference in
taste between the fortified and non-fortified products.
A 24 h total food intake (day prior to sampling) and validated 1 mo food frequency
questionnaire (FFQ) for calcium and vitamin D assessments will be conducted. Nutrient intake
will be generated using Nutritionist Pro™ (Axxya Systems LLC, Stafford, TX, US) and the
Canadian Nutrient File version 2010b. Compliance is also by monthly telephone survey and
unused product.
Demographics, Skin Pigmentation and UVB: Surveys at baseline with parents or legal guardians
will be used to estimate socioeconomic status (education and household income). Race will be
collected to facilitate understanding of the relationships among culture, skin pigmentation
and baseline vitamin D status [5,6]. Data regarding sun exposure during the previous month
will be collected as a percentage of body surface area (BSA) exposed frequency of sunscreen
use and total hours spent in direct sunlight per day. Sun index will be calculated for each
child as necessary (i.e. travel), by multiplying the % BSA exposed by the time spent outside
(minutes per day). This index does not consider use of sun block, which is captured by survey
in event of travel. Skin type at baseline will be established by measuring pigmentation three
times at each site for constitutive pigmentation at the inner upper arm and facultative
pigmentation at the forehead, mid-forearm and lower leg using a spectrophotometer
(CM-700d/600d, Konica Minolta, Ramsey, NJ, USA).
Anthropometry: Height will be measured using a portable stadiometer (Seca 213, Seca Medical
Scales and Measuring Systems, Hamburg, Germany) and body weight measured using a digital
scale (Home Collection 63-8711-0, Trileaf Distribution, ON, Canada: calibrated) with the
child wearing light clothing and no shoes. Body mass index (BMI) will be calculated. Z-scores
for weight, height and BMI will be calculated using the WHO 2007 growth standards/references
for children under/over 5 y (WHO AnthroPlus, Geneva, Switzerland). A BMI Z-score of +2 will
be considered obese as is important to exclusion criteria; and possibly changes over time.
At baseline and 6 months, dual-energy x-ray absorptiometry (DXA) will be used to quantify
total body and regional fat masses. This will be done to help explain any differences in
response to vitamin D intakes since more central deposition of adipose tissue relates to
vitamin D status in adults [15]. DXA will also be used to measure changes in BMC and BMD over
the 6 month period to explore their relationship to vitamin D status. Measurements will be
taken using a Hologic 4500A clinical densitometer. Whole body, lumbar spine (L1-4) and
forearm scans will be undertaken to measure BMC and BMD, children will wear standardized
clothing (pyjama bottoms and T-shirt). The whole body scan technique also provides total body
fat, but does not distinguish subcutaneous from visceral fat depots. Abdominal adipose will
be estimated using sub-region analysis of the full torso and the between the last rib and the
iliac crests. Total body fat (kg and %) and trunk fat (kg) values are available from the DXA
software. Although DXA measures of trunk fat mass reflect adipose tissue in subcutaneous and
visceral depots, DXA-derived measures agree well with CT in women [16].
To measure volumetric BMD (vBMD) as well as bone architecture, peripheral quantitative
computer tomography (pQCT) (XCT-2000; Stratec, Pforzheim, Germany) will be used. pQCT is able
to distinguish between type of bone (cortical and trabecular). For the tibia, length of the
non-dominant tibia is measured as the distance from the distance between the palpated lateral
condyle and the lateral malleolus. Single slices are measured 4% and 66% proximally from the
distal end of the tibia. The 4% site will provide a trabecular measurement whilst the 66%
site will provide a cortical measurement.
Blood Sampling and Procurement: Fasted (nothing after midnight) venipuncture samples (total
6.5 ml) will be taken ~ 0800 h [17]; breakfast will follow at the research site.
Vitamin D Status and Bone Biomarkers: In serum (from 3 ml whole blood; stored -80°C until
analysis), total 25(OH)D (25 µl) as well as PTH will be measured using an immunoassay
(Liaison, Diasorin) with proven agreement with LC-MS/MS [20].
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