dc.description.abstract |
In females, breast cancer is the most common cancer along with being one of the
leading causes of cancer deaths worldwide. The known risk factors associated with
breast cancer are both non-modifiable and modifiable. Factors like Vitamin D and
mammographic density are few of the modifiable factors in breast cancer prevention
which have recently been emphasized upon.
Vitamin D is the talk of all researchers with more emphasis on its non-bone effects. In
the recent past, it has been found to modulate breast epithelial cell proliferation, for
both normal and cancerous cells. Many studies have endorsed the fact that vitamin D
may be associated with reduced breast cancer risk.
The hypothesis was ―vitamin D deficiency is associated with epithelial cell proliferation
and mammographic density.‖
The primary objective of this thesis was to evaluate the effect of vitamin D deficiency
and its association with epithelial cell proliferation and mammographic density in the
reproductive age group. Mammographic density was estimated using the fullyautomated
software Volpara.
Secondary objectives were to find out the effect of the enzyme 1 alpha Hydroxylase,
DNA quantification and Vitamin D receptor gene polymorphism (fok1 and Apa1) by using
PCR/RFLP. The epithelial cell proliferation was studied by performing FNAC on palpable
lumps and utilizing ―countess‖ to count the viable and non-viable cells present in the
tissue.
This was a prospective, open label, clinical trial. The total cases were recruited from the
surgical OPD of Patel Hospital, Karachi (n=350) and were supplemented with vitamin D.
The study was carried out from June 2013-March 2015.
The results were favorable in most patients, with general increase of vitamin 25(OH) D
levels after supplementation (baseline mean ± SD: 9.88 ± 7.3; median 7.0; range 3–
49.8) to 68.3 + 25.5; 66; 30.1-150, p< 0.001), a mean difference of 58.4 between
vitamin D level at baseline and 12 months. There was a weak, positive Spearman's rankxx
order correlation between 1 alpha Hydroxylase at 12 months and vitamin D at baseline;
12 months (rs= 0.169, p= 0.126,rs= 0.079,p=0.480).A moderate negative correlation
was found between vitamin D baseline – Volumetric breast density (VBD) baseline and
vitamin D 12 months – VBD 12 months (rs= -0.245, p= <0.001,rs= -0.289, p=0.193)
respectively. No statistically significant association was found between vitamin D at
baseline and BI-RADS at baseline (p= 0.126). A Kruskal-Wallis H test showed that there
was statistically significant difference in VBD at baseline between the different BI-RADS
groups, χ2(3) = 169.4, p<0.001, with a mean rank of 6 for BI-RADS 1, 36.11 for BIRADS
2,105.67 for BI-RADS 3, and 176.55 for BI-RADS 4. A negligible or no correlation
was found between vitamin D baseline with levels of proliferation in breast cells (total
cell count rs= -0.020, p=0.906; dead cell count rs= -0.005, p=0.979; viable cell count
rs= -0.072, p= 0.672). VBD was moderate and negatively correlated with dead cell
count (rs= -0.436, p=0.018) while weak negative correlation was observed between
VBD and total cell count (rs=-0.130,p=0.502).
The conclusion is that an optimal level of vitamin D has to be maintained ;if not then
vitamin D level falls to its original deficient level in two months time. There is a need to
establish a universal definition of vitamin D deficiency to allow better comparability of
studies at the global level. Only through the identification of modifiable risk factors
associated with this disease, can effective cancer prevention be realized. |
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