Short Communication
Risk of Prostrate Cancer in Eastern India
Department of Research and Development, Barasat Cancer Research and Welfare centre, Banamalipur, Barasat, Kolkata-700 124, India
Cancer of the prostate is now recognized as one of the principal medical problems facing the male population and more often affects elderly men (Aly, 2005; Tawfiek et al., 2010). It is a bigger health concern in developed countries having 15% incidence among all male cancers, in contrast to developing countries in which 4% of male malignancies are prostate cancer (Parkin et al., 2001). In most countries a slight increase in prostate cancer mortality has been seen since 1985 (Quinn and Babb, 2002). In the year 2005 there were an estimated 230,000 new cases of prostate cancer and 30,000 deaths due to prostate cancer in USA (IARC, 2001). Prostate cancer frequency is lower in India as compared to Western countries (Sinha et al., 2003). The male sex hormone testosterone aids the growth of prostate cancer cells. Regional differences and racial predisposition are another factor; incidence of prostate cancer is highest in Blacks and lowest in Asians. Many factors, including genetics, environmental and dietary factors are involved in the development of prostate cancer (Avci et al., 2005; Sinha et al., 2003). In India the majority of cancer is diagnosed in the advanced stage and hence morbidity remains high. Beside this cancer mortality rates are under-reported due to poor recording of the cause of death. Incorporating screening, detection and treatment of diseases like cancers into peripheral health infrastructure has a significant effect on reducing mortality from these diseases (Johnson, 2006; Murthy and Mathew, 2004). The measurement of PSA, an organ-specific kallikrein-like serine protease produced almost exclusively by the epithelial cells of the prostate, has revolutionized the diagnosis of prostate cancer (Polascik et al., 1999; Stamatiou et al., 2007). Keeping in view the paucity of reliable data in a country with wide socio-cultural diversity, the present investigation was aimed to study the prostate cancer incidence in a part of eastern India for the last eight years.
A demographic study on 3747 male cancer cases were assessed for prostate carcinoma from the patients attending to Barasat Cancer Research and Welfare Centre, a prime health centre covering many districts of eastern India, for the period 2003 to 2010. The malignancy was diagnosed by symptoms, physical examination and various investigations like radio-imaging, cytology, histo-pathological examinations, PSA test or biopsy by physicians. The data of the prostate cancer staging, extent of metastasis, age, ABO blood grouping and patho-physiological status of the cancer patients were collected. Written informed consent was obtained from all in accordance with the guidelines from hospital center review board.
Among the entire 3747 cancer patients, 214 males (5.71%) showed prostate carcinoma. The level of PSA in the blood was high (<4 ng mL-1) in men having prostate cancer (Table 1). In most cases it is slow-growing and symptom free. There was variation in the site-wise distribution within the population. In some region a certain types of cancers are pronounced in groups and seem to show one kind of association in them due to similar environmental status. This multiple neoplastic syndrome was common for cancers of prostate-lung-bone and others in this population.
The present investigation revealed that the cancer frequency was moderate during 2003 to 2006, but it rises drastically from 2007 (17.76%) and reached maximum peak (28.97%) in the last year (Table 2 and 3). Comparative analysis of prostate cancer in different age groups revealed that cancer frequency was common for age group 41 to 80 years and the frequency was alarmingly high particularly from 51-70 years (Table 2). The result also highlighted that men below 40 years of age never showed prostate cancer incidence. The frequency of prostate cancer was only 5.61% at age group 41-50 years. After that the frequency drastically increased and reached 30.37% for the age group 51-60 years and showed maximum peak at 61-70 years of age with 44.39% incidence. Further decline in incidence pattern was observed after 70 years of age among the men with 18.69% incidence at 71-80 years of age.
Table 1: | Detection of prostate cancer by PSA test |
*Border line: 4.01-10.01 ng mL-1, +: Present -: Absent |
Table 2: | Distribution of prostate cancer in different age groups |
The digit in parenthesis represents the frequency value |
Table 3: | Distribution of prostate cancer in different blood groups |
The digit in parenthesis represents the frequency value |
Frequency distribution of prostate cancer in different blood groups showed that prostate cancer was most prevalent in group A (37.85%), followed by group B (28.97%) and group O (20.09%). The blood group AB was the least frequent class having only 13.08% cases of prostate cancer in the studied population (Table 3).
The demographic study highlighted that in the studied population among different types of malignant conditions the incidence of prostate carcinoma was threatening among males. This observation was in line with the early investigation that in this population the cancer of prostate forms a largest group for men (Chatterjee, 2011). Since it is hard to prove, the jury is still out on many of these, may be due to the environmental pollution, lifestyle and dietary toxicants which are vulnerable carcinogens causing cancers world wide (Kumar et al., 2011; Mahajan et al., 2009). The observation also supported the fact that prostate cancer tends to develop in men over the age of 50 and the average age at the time of diagnosis is 70 (Hankey et al., 1999). The frequency was alarmingly high particularly from 51-70 years as similar to report facts of urinary bladder cancer (Ahmed et al., 2006). This investigation was at per with the study that prostate carcinoma was increasingly high in blood group A followed by group B, as was observed by early research (Chatterjee and Mukherjee, 2009).
The present study was concerned with malignancy of prostate, the incidence of which was increasing due to various factors of different activities. The ignorance is partially responsible for that prevalence. Evidence from epidemiological studies supports protective roles in reducing prostate cancer for dietary selenium, vitamin E, lycopene, soy foods and recommended lifestyle changes by lowered intake of animal fat and increased intake of fruit, cereals and vegetables in order to decrease the risk (Khorshid, 2009; Hafidh et al., 2009; Schulman et al., 2000). Daily use of anti-inflammatory medicines, cholesterol-lowering drugs may also decrease prostate cancer risk (Jacobs et al., 2005; Shannon et al., 2005). The risk of developing prostate cancer is related to age, genetics, race, diet, lifestyle, medications and other factors (Sinha et al., 2003). The present study highlighted that the risk increased with age more rapidly than any other cancer. Men who had a history of prostate cancer in their family, especially a close relative such as father or brother, were at an increased risk. The absolute number of new cancer cases was increasing rapidly, due to growth in size of the population and increase in the proportion of elderly persons as a result of improved life expectancy following control of communicable diseases (Murthy and Mathew, 2004). Moreover, the proper treatment of malignant conditions is much costly and also not available properly at all places. Due to lack of necessary infrastructure and low literacy rates, the incidence is high in countries like India (Murthy and Mathew, 2004). Therefore, the early diagnosis and prevention of cases are of paramount importance to reduce the incidence of the malignant conditions in the society. Active surveillance is useful for suspect an early stage, slow-growing prostate cancer and also prevention for the risks of surgery, radiation therapy, or hormonal therapy. This prevalent cancer scenario can be altered in a positive direction by regular screening and by training the prevention measures of life style modification in a wide scale through proper way.
It can be concluded that in this population the cancer of prostate forms a largest group for men. Many factors, including genetics, environmental and dietary factors are involved in the development of prostate cancer. In India the majority of cancer is diagnosed in the advanced stage and hence morbidity remains high. Beside this cancer mortality rates are under-reported due to poor recording of the cause of death. Incorporating screening for cancers into peripheral health infrastructure has a significant effect on reducing mortality from these diseases. The present investigation gave a deep sight in this regard on the incidental risk of prostate cancer in eastern India.
The author is presently working as Assistant Professor in Barasat College, Kolkata 700126, India and thankful to the administration of the college for giving the permission to complete the research work. Author is grateful to the Secretary and Assistant Secretary (Admin.) of Barasat Cancer Research and Welfare Centre for the financial support to do the study and to Dr. S. Roy, Mr. T. K. Karan and Mr. S. Sarkar of this health centre for their help to collect data and other technical supports.