Osteoporosis Clinical Trial
Official title:
Does Antenatal Vitamin D Supplementation Influence Bone's Postnatal Response to Mechanical Stimulation?
Fractures in children are common and the incidence is increasing. They are more common in
children who have small, narrow and weak bones. Studies have shown that fractures in early
childhood are associated with later bone strength.
There are several (i) non-modifiable (age, gender, race, genetics) and (ii) modifiable
factors such as nutrition (vitamin D & calcium intake) and exercise that can contribute to
bone strength.
Low calcium is associated with an increased risk of fracture. Vitamin D plays a pivotal role
in bone health by increasing the absorption of calcium from the gut. Investigators know from
the previous research that there is a reduction in bone strength in children whose mothers
had lower vitamin D levels during pregnancy.
Bone growth can also be achieved by loading of bone during childhood in the form of regular
sport activities such as gymnastics and exercise programmes. Equally it can be achieved by
using whole body vibration (WBV). WBV is the application of vibratory stimulus to the body in
a synchronous fashion by which the bones are made much stronger reducing the risk of fracture
in later life. Thus WBV can be used as a means to assess bone responsiveness to mechanical
stimulation. Studies have shown that standing on a vibrating platform for 10 minutes a day
can significantly increase the bone mass. Investigators' own research has also shown that
healthy boys when made to stand on a vibration platform for 10 minutes daily for 5 days
increased the strength and quality of their bones.
Thus the role of diet and mechanical loading are of considerable interest in determining
their role in bone health and the prevention of fractures.
Maternal Vitamin D Osteoporosis Study (MAVIDOS) is a large study conducted recently at 3
different big centres (Sheffield, Southampton and Oxford). Results from this study have shown
that giving a higher dose of vitamin D to pregnant women every day from 14 weeks of pregnancy
increased the strength of the bones in their infants. In the proposed study Investigators aim
to show how vitamin D supplementation during pregnancy affects the response of bone to
vibration in children whose mothers participated in the MAVIDOS study in Sheffield. These
children will be 4 years of age when they participate in this study.
The results of this study will help inform public health policy on vitamin D intake during
pregnancy. This will also help the investigators identify a possible risk factor for poor
bone health in children.
This project aims to determine whether antenatal vitamin D supplementation alters postnatal
bone formation in response to mechanical stimulation.
The skeleton responds to mechanical stimulation by an increase in bone size and mass and that
increment can persist into adult life and may lower the risk of osteoporosis (Daly, & Bass,
2009). In contrast, without mechanical stimulation, bone is lost.
Cells within bone - osteoblasts and osteoclasts - are involved in the removal and formation
of bone; the biomarkers Pro-collagen type 1 N-terminal propeptide (PINP) and C-terminal
cross-linked telopeptide of type I collagen (CTx) are surrogates for their respective tissue
level activities.
Whole body vibration (WBV) has been used as one of the methods to deliver mechanical
stimulation in both adults and children.
The investigators have recently shown in healthy boys aged 9-11 years, WBV experienced 10
minutes daily for five days increases the P1NP by 25% and CTx by 11% (Harrison et al., 2015).
The investigators undertook another study recently to determine the effect of reduced vitamin
D intake during pregnancy and early life on the skeleton's response to mechanical loading
using a mouse model.
Our unpublished data show that antenatal vitamin D depletion substantially reduces the
loading-dependent increase in both cortical and trabecular bone mass of offspring mice close
to skeletal maturity.
The available human and mouse data suggest that antenatal vitamin D deficiency in some way
influences the bone to become less responsive to mechanical stimulation.
The investigators are now ready to explore this in humans, to assess the responsiveness of
the skeleton to mechanical stimulation by using WBV in the children who have been exposed to
higher levels of vitamin D in-utero through maternal supplementation of vitamin D.
Through this study the investigators will be able to determine whether the in-utero
environment can be modified easily to improve the skeletal responsiveness to activity and
this improved skeletal health in the short and long term.
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