Breast Density: Does It Vary among the Main Ethnic Groups in Malaysia? ()
1. Introduction
3525 women had been diagnosed with breast cancer in 2006 and represents 31% of the total number of cancer diagnosed in women [1]. Breast cancer is reported to be diagnosed at a tender age of 15 years in Malaysia and is common in all the ethnic groups in Malaysia. Age Standardized Incidence (ASR) for breast cancer in Malaysia was 39.3 in 100,000 populations with Chinese having the highest incidence rate (ASR 46.4 in 100,000 populations), followed by Indians (ASR 38.1 in 100,000 populations) and Malays (ASR 30.4 in 100,000 populations).
Mammography is an x-ray examination that utilizes low dose of radiation for imaging the breast in two projections and has the ability to detect 80 - 90 percent of breast cancer in women prior to having any symptoms. Mammography is also the gold standard for breast screening for women in their forties or older and is approved by Food and Drug Authority for early detection of micro calcification and masses. Besides it can be used to evaluate breast density and monitoring of treatment in patients.
Breast density is defined as tissue characteristics seen on mammogram, stroma and epithelial tissues of breast and are displayed as whitish grey due to the absorption of radiation and fatty area appears darker due to penetration of radiation. Variations in the characteristics of these tissues enable it to be categorized qualitatively and quantitatively to various breast density [2]. It is a problem in identifying cancer tissue in dense breast compared to less dense breast due to similar radiographic characteristic seen on mammograms [3]. The protocols used in categorization of breast density on mammograms are namely Wolfe parenchymal patterns, Tabar categorization and Breast Imaging Reporting and Data System (BIRADS). It is important that categorization of breast density evaluated on mammogram is able to predict risk of cancer [4,5].
Other risk factors contributing to breast cancer are age, demographic location, early menarche, late menopausal age, pregnancy at a late age, obesity, alcohol consumption, radiation, hormone replacement therapy (HRT) and use of contraceptive pills [6,7].
Global studies had proven the association between breast density and breast cancer whereby dense breast is at a higher risk of breast cancer and varies with ethnicity [8,9]. Thus, this study was conducted to determine the association of breast cancer risk among the three different ethnic groups in Malaysia with relation to breast density.
2. Materials and Methods
2.1. Subjects
Across-sectional study was done at University Malaya Medical Centre after obtaining ethical approval. Subjects were Malaysian women aged 40 - 70 years from the three ethnic groups: Malays, Chinese and Indians while subjects with breast cancer and breast augmentation were excluded from the study. A total of 300 women were recruited with equal distribution of ethnic groups and informed consent was obtained before commencement of the study.
2.2. Data Collection
The equipment used was a Siemens Novation DR digital mammography system with exposure parameters: 26 to 32 kVp, tungsten (W) anode tube and rhodium (Rh) filter. All subjects gave consent before acquisition of mammography in the auto exposure mode. Two projections were taken, craniocaudal (CC) and medio-lateral oblique (MLO) for both right and left breast. Interpretation of mammograms were done by two independent radiologists with a minimum of five years experience based on Breast Imaging Reporting and Data System (BI-RADS) protocol which used four categories of breast tissues; almost entirely fat (I), scattered fibroglandular tissue (II), heterogeneously dense (III), and extremely dense (IV). Both BI-RADS I and BI-RADS II were clustered and categorized as fatty breast while BI-RADS III and BI-RADS IV as dense breast. A questionnaire related to demographic data was completed by the subjects which consisted of: age, ethnicity, marital status, body mass index (BMI), height, weight, age at menarche, age at first pregnancy, number of children, family history of breast cancer, menopausal status, and use of hormone replacement therapy (HRT).
2.3. Data Analysis
Statistical analyses were done using “Statistical Package for Social Sciences” (SPSS) with significance of p-value < 0.05. Descriptive analyses were presented in frequency and percentage. Bivariate analyses were done to evaluate the association of breast cancer risks to breast density and the correlation of breast density among the three ethnic groups.
3. Results
Categorization of breast density based on mammograms by both radiologist are shown in Figure 1. There was a good agreement between the radiologists using Kappa (κ = 0.674).
Table 1 displayed the data obtained from the three main ethnic groups. The average age of Malays were lowest (51.77 years) compared to Chinese (55.24 years) and Indians (52.75 years) with a significant difference (p = 0.004). Besides, body mass index (BMI) of the three groups were significantly different (p < 0.001). The Chinese showed normal BMI (22.63) while both Malays (27.27) and Indians (27.59) were obese. There was significance difference for number of children (p < 0.001) and use of HRT (p = 0.011) with Malays having highest average number of children (2.80 children). There was no significant difference for age at menarche (p = 0.905), age at first pregnancy (p = 0.414), family history of breast cancer, menopausal and marital status (p > 0.05).
Majority of Chinese women were categorized with dense breast (64%) (OR =2.405, 95% CI: 1.466 - 3.948) and an equal distribution between both dense and fatty counterparts were shown in Malays (OR = 1.020, 95% CI: 0.681 - 1.689) (Figure 2). Most Indians, were categorized in fatty breast composition (65%) (OR = 0.406, 95% CI: 0.2407 - 0.668). There was significant difference in the three ethnic groups for breast density (p < 0.05).
4. Discussion
Breast density composition was divided into two groups; of BI-RADS I and BI-RADS II (fatty breast) whilst BI-RADS III and BI-RADS IV (dense breast). There was a significant difference between the three ethnic groups with Chinese having the highest breast density composition followed by Malays and Indians. Jamal N (2005) stated Chinese had the highest glandularity (50.9%) fol-

Figure 1. Categorization of breast density using BIRADS.

Table 1. Association of factors of breast cancer risk between three ethnic groups.

Figure 2. Breast density between three race groups.
lowed by Indians (48.1%) and Malays (47.9%), however there was no significant difference [10]. Previous studies have indicated, differences in breast density between ethnic groups may be due to addendum factors such as body mass index (BMI), hormonal and reproductive factors as well as environmental factors [8].
Based on this study, women from the three ethnic groups with an age of 50 and above had less dense breast compared to those younger due to hormonal changes [11] and depletion in breast glandular tissues and an escalation of adipose tissue percentage in breast [12]. Besides cancer detection rate is higher in women above the age of 50 years due to ease of interpretation on low density breast [3]. Nevertheless, an appropriate number of postmenopausal women, were shown to have dense breast pattern on mammograms indicating age is not a perfect surrogate for breast density [13].
As breast density was inversely related to BMI it is a non-dependable risk factor. Nevertheless, higher BMI increased breast cancer risk in postmenopausal women rather than premenopausal women [14]. Higher BMI in premenopausal women showed inverse correlation to breast cancer risk but positively correlated to postmenopausal women. In this study, Malays and Indians were in obese state but had less dense breast hence a lower risk factor which was coherent with Ursin et al. [15].
However in this study, Chinese women are more vulnerable to breast cancer due to their prolonged years of dense breast based on the menopausal age of the study. Early menarche was not significant for all the ethnic groups, which was in agreement with a previous studies [16,17]. However some studies reported that late menarche was associated with lower breast density and breast cancer risk as it may be due to the shorter span of exposure to estrogen hormone. Two studies had shown slight inverse association of breast density to late menarche age, but the relationship was not statistically significant [17, 18].
There was also no significant difference between first conceived age and breast density, however women who had their first born at the age of 26 and above tend to have dense breast and are at an increased risk of breast cancer [19]. The average number of children in this study was 2.41 ± 1.62 children, the risk decreases with 1 - 2 children by 24% (95% CI: 7% - 38%) and 3% - 4% 35% (95% CI: 20% - 47%) [19].
History of breast cancer to breast density for all ethnic groups was not significant as there was a lack of subjects with history of breast cancer. It is stated that history of breast cancer was related to breast density as it is associated with genetic factor and it increases with increase in the number of family members and diagnosis before the age of 50 [20].
Hormone replacement therapy (HRT) usage was not significant to breast density in all ethnic groups, this may be due to the small sample size of 36 women who were on this therapy. Meanwhile, HRT increased the density by 17% - 73% depending on the type of hormone consumed whilst women who excluded HRT will have a decrease in breast density with passing years [21].
5. Acknowledgements
Our sincere thanks to the ethics committee who approved the study, radiologists and radiographers who assisted in the study. Our greatest appreciation is to the subjects who voluntarily participated in this study.