Familial and second esophageal cancers: a nation-wide epidemiologic study from Sweden

A few case-control studies have been published on familial risks in esophageal cancer. Reliable data on familial risks are needed for prevention and clinical decisions. We used the nation-wide Swedish Family-Cancer Database on 10.1 million individuals and close to 6000 esophageal cancers to calculate standardized incidence ratios (SIRs) and 95% confidence intervals (CIs) for esophageal cancer in 0-66-year-old offspring by cancers in family members. Additionally, SIRs for second esophageal cancers were analyzed. The SIR for esophageal cancer was 3.91 (95% CI 1.55-7.35) when a parent presented with esophageal cancer and 4.91 (95% CI 1.77-9.62) when a parent presented with squamous cell carcinoma. The sibling risk for esophageal cancer was increased but was based on 1 pair only. The population-attributable proportion of familial esophageal cancer was 0.70%. Risks for second esophageal cancers were increased after upper aerodigestive tract, esophageal, stomach, larynx, and lung cancers. The data on second cancers suggest that environmental factors are important for esophageal cancer and probably contribute to the familial clustering. However, the high familial risk of 3.91 is unlikely without the involvement of heritable factors. The population-attributable proportion of familial esophageal cancer is small.     

Familial carcinoid tumors and subsequent cancers: a nation-wide epidemiologic study from Sweden.

Carcinoids are rare neuroendocrine tumors, mainly located in the bowel, stomach and lung. Familial risks in carcinoid tumours are not well known apart from multiple endocrine neoplasia 1 (MEN1). We used the nation-wide Swedish Family-Cancer Database on 10.1 million individuals for assessment. Carcinoid tumors were retrieved from the Cancer Registry covering the years 1958-1998. The offspring generation, aged 0-66 years, accumulated 190 million person-years at risk. The age-adjusted incidence rates were 0.76 for men and 1.29/100,000 for women. Standardized incidence ratios (SIRs) were calculated for offspring when their parents had a carcinoid or any other cancer. When parents presented with carcinoids, SIRs for offspring were 4.35 (n = 8, 95% CI 1.86-7.89) for small intestinal and 4.65 (n = 4, 95% CI 1.21-10.32) for colon carcinoids. If both offspring and parents presented with small intestinal carcinoids, the SIR was 12.31 (n = 4, 95% CI 3.20-27.34). Offspring carcinoids were also increased if parents presented with bladder and endocrine gland tumors, the latter association probably partially due to MEN1. Risks for second cancers were increased, particularly at sites where familial risks were found, including carcinoids in the small intestine.     

Familial and second primary pancreatic cancers: a nationwide epidemiologic study from Sweden

Familial risk of pancreatic cancer has been mainly assessed through case-control studies based on reported but not medically verified cancers in family members. We used the nationwide Swedish Family-Cancer Database on 10.2 million individuals and 21,000 pancreatic cancers to calculate standardized incidence ratios (SIRs) and 95% confidence intervals (CIs) for pancreatic cancer in 0- to 66-year-old offspring of parents with pancreatic or other specified tumors. Additionally, SIRs for second primary pancreatic cancers were analyzed after any first neoplasm. SIRs for pancreatic cancer (1.68, 95% CI 1.16-2.35) and pancreatic adenocarcinoma (1.73, 95% CI 1.13-2.54) were increased when a parent presented with pancreatic cancer. The risk was not dependent on diagnostic age of offspring or parents. Pancreatic cancer was associated with parental lung, rectal or endometrial cancer and with melanoma. SIRs for pancreatic cancer were 10.01 and 7.96 among offspring who were diagnosed before age 50 years when parents were diagnosed with squamous cell and adenocarcinoma of the lung, respectively, before age 60 years. The population-attributable proportion of familial pancreatic cancer was 1.1%. Risks for second pancreatic cancers were increased in men and women after small intestinal, colon and bladder cancer. The degree of familial clustering for pancreatic cancer and its population-attributable proportion were lower than the data cited in the literature. Clustering of pancreatic cancer with sites presenting in hereditary nonpolyposis colorectal cancer was noted. The strong association of pancreatic and lung cancers is puzzling, and it remains unclear to what extent this represents familial sharing of smoking habits.     

Familial and second gastric carcinomas: a nationwide epidemiologic study from Sweden

BACKGROUND: Familial risks in gastric carcinoma have been assessed mainly through case-control studies based on reported but not medically verified carcinomas in family members. Reliable data on familial risks are needed for prevention and clinical decisions. METHODS: The authors used the nationwide Swedish Family-Cancer Database on 10.2 million individuals and more than 34,000 gastric carcinomas to calculate standardized incidence ratios (SIRs) and 95% confidence intervals (CIs) for gastric carcinoma in offspring, from birth to 66 years old, by carcinomas in family members. In addition, SIRs for second gastric carcinomas were analyzed. RESULTS: Standardized incidence ratios for gastric carcinoma were 1.31 (95% CI, 0.97-1.70) and 1.47 (95% CI, 1.08-1.92) when a parent presented with gastric carcinoma or gastric adenocarcinoma, respectively. The risk was 1.59 (95% CI, 1.10-2.16) in offspring whose diagnosis was at ages older than 50 years. Offspring risk from parental corpus carcinoma was of borderline significance whereas that from cardia carcinoma was below unity. The sibling risk for gastric carcinoma was 3.16 (95% CI, 1.35-5.72) and 5.75 (95% CI, 2.07-11.26) when diagnosed before age 50. The population attributable proportion of familial gastric carcinoma was 0.45%. Risks for second gastric carcinomas were increased in men and women after esophageal and skin carcinomas, and after non-Hodgkin lymphoma. CONCLUSIONS: The data suggest that environmental factors, perhaps Helicobacter pylori infections are the main reason for familial clustering of gastric carcinoma. The population attributable proportion of familial gastric carcinoma is much lower than that cited in the literature. The patterns of multiple carcinomas suggest that immunologic factors modulate susceptibility to gastric carcinoma.     

Familial multiple primary lung cancers: a population-based analysis from Sweden

Multiple primary cancers arise because of inherited or acquired deficiencies, and their causes may depend on the first primary cancer, or they may be entirely independent. We used a nation-wide family dataset to search for evidence for a genetic predisposition to lung cancer. The Swedish Family-Cancer Database includes all Swedes born in 1932 and later with their parents, totalling over 10.2 million individuals. Cancer cases were retrieved from the Swedish Cancer Registry up to year 2000. Standardized incidence ratios (SIR) and 95% confidence limits (CI) were calculated for first and second primary lung cancers by a family history. The incidence of second primary lung cancer was nine times higher among cases with familial lung cancer compare to that of first primary lung cancer. The proportion of multiple primary lung cancer patients with family history for lung cancer was 4.7% (9/190) for men and 6.5% (5/77) for women. Lung cancer patients with a family history of lung cancer were at a significantly increased risk for subsequent primary lung cancer among both men (SIR=9.89, 95%CI 4.48-18.66) and women (SIR=17.86, 95%CI 5.63-42.00). The corresponding SIRs in patients without a family history were 2.04 (95%CI 1.75-2.36) and 5.10 (95%CI 3.99-6.43) for men and women, respectively. The present study suggests that the development from the first primary lung cancer to the second primary lung cancer may be more strongly affected by genetic factor than the first primary lung cancer.     

Familial breast carcinoma risks by morphology: a nationwide epidemiologic study from Sweden

BACKGROUND: Familial risks in patients with breast carcinoma have not been assessed by morphologic types of medically verified cancers. Reliable data on familial risks would help to establish prevention programs and guide clinical decisions. METHODS: We used the nationwide Swedish Family-Cancer Database to calculate standardized incidence ratios (SIRs) and 95% confidence intervals (CIs) for invasive and in situ breast carcinomas in women with mothers and sisters. This database has information on 10.2 million individuals and on more than 13,000 morphology-specific breast carcinomas. RESULTS: SIRs for all invasive breast carcinomas were 1.82 (95% CI 1.71-1.93) for breast carcinoma in the mother and 1.89 (1.70-2.01) for breast carcinoma in a sister. The respective risks were 1.81 and 1.85 for a mother and sisters with ductal breast carcinoma. The SIRs were equally for lobular, tubuloductal, comedo, and mucinous breast carcinomas. However, the SIRs for lobular carcinoma were lower than those for the ductal type, whereas the opposite trend was noted for the comedo and mucinous type; none of the differences were significant. The risks for all morphologic types were highest when both a mother and a sister were affected, SIR 3.19 (2.36-4.22). The risks for in situ breast carcinomas were 2.09 (1.78-2.44) for an affected mother, 2.24 (1.88-2.85) for an affected sister, and 5.23 (2.59-9.39) when both a mother and a sister were affected. CONCLUSIONS: The data suggest that the familial risk of breast carcinoma is independent of the morphologic type. The higher risks in in situ cancer may be due to medical surveillance. The risks were identical from a mother or sister proband, suggesting that recessive effects are unlikely as a heritable cause of breast carcinoma.     

Familial risk for histology-specific bone cancers: an updated study in Sweden

We used the nation-wide Swedish Family-Cancer Database to examine the familial risks of histology-specific bone cancers in offspring by parental or sibling probands. Adjusted standardised incidence ratios (SIRs) were used to measure the risk. Among the 1327 offspring bone cancers, only two parent-offspring pairs and one sibling pair were noted with concordant bone cancer but the SIRs were not significant. Significant associations were observed in specific histological types or specific age groups, some of which may be chance findings arising from multiple comparisons. However, the risk of early-onset (< 25 years) osteosarcoma in offspring was significantly increased when mothers presented with breast cancer (1.7) and melanoma (2.9), suggesting that Li-Fraumeni syndrome could partly explain this familial aggregation. Other associations, such as childhood osteosarcoma with parental liver cancer, Ewing's sarcoma with kidney cancer and giant cell sarcoma with maternal breast cancer, were novel findings and may be related to other familial diseases.     

Lactose intolerance and risk of lung,breast and ovarian cancers: aetiological clues from a population-based study in Sweden

Background:

Individuals with lactose intolerance are recommended to avoid milk or dairy products, which may affect the development of cancer.

Methods:

We identified individuals with lactose intolerance from several Swedish Registers linked to the Swedish Cancer Registry to calculate standardised incidence ratios (SIRs) for cancers in the breast, lung, and ovary.

Results:

A total of 22 788 individuals with lactose intolerance were identified, and their risks of lung (SIR=0.55), breast (SIR=0.79), and ovarian (SIR=0.61) cancers were significantly decreased. Cancer incidences in the siblings and parents of individuals with lactose intolerance were similar to those in the general population.

Conclusions:

In this large cohort study, people with lactose intolerance, characterised by low consumption of milk and other dairy products, had decreased risks of lung, breast, and ovarian cancers, but the decreased risks were not found in their family members, suggesting that the protective effects against these cancers may be related to their specific dietary pattern.     

Incidence trends and risk factors of carcinoid tumors: a nationwide epidemiologic study from Sweden

BACKGROUND: Carcinoids are rare indolent neuroendocrine tumors, mainly located in bowel, stomach, and lung. Their etiology is virtually unknown although a family history is a minor cause. METHODS: Site specific incidence trends and several risk factors of carcinoid tumors were studied based on the nationwide Swedish Family-Cancer Database of 10.2 million individuals and their more than 1 million tumors. Data on a total of 5184 carcinoid tumors were retrieved from the Cancer Registry covering years 1958-1998. RESULTS: The overall age-adjusted incidence rates were 2.0 for men and 2.4/100,000 for women in 1983-1998. Appendix was the main site for women whereas small intestine was the main site for men. The incidence of all carcinoids, including those at the main sites increased during the follow-up period but appeared to plateau in the middle of the 1980s. Appendiceal carcinoids showed an unusually early onset with a maximum incidence at age 15-19 years for women and 20-29 years for men. Among women, parity was not related to the age specific incidence of carcinoid tumors. A Poisson regression analysis showed that family history of carcinoids in first-degree relatives (relative risk, 3.6), well educated social background (relative risk for professionals, 2.8), and birth in large cities were risk factors. CONCLUSIONS: The data suggest that the increase in carcinoid tumors may be largely ascribed to the application of advanced medical viewing techniques that detect asymptomatic tumors. However, the difference in incidence between men and women in appendiceal tumor may be real and independent of parity.     

Familial risk for gastric carcinoma: an updated study from Sweden

Reliable data on familial risks are important for clinical counselling and cancer genetics. However, the estimates of familial risk of gastric cancer vary widely. We examined the risk of familial gastric cancer using the updated Swedish Family-Cancer Database with 5358 patients among offspring and 36,486 patients among parents. There were 133 families with one parent and one offspring diagnosed with gastric cancer, and 20 families with two affected offspring. Familial standardised incidence ratios (SIRs) were 1.63 and 2.93 when parents and siblings presented with gastric cancer, respectively. The high sibling risk was owing to cancer in the corpus (SIR 7.28). The SIR for cardia cancer was 1.54 when parents were diagnosed with any gastric cancer. Cardia cancer associated with oesophageal cancer, particularly with oesophageal adenocarcinoma. Among specific histologies, signet ring cancer showed an increase. A few associations were noted for discordant sites, including the urinary bladder and the endometrium. H. pylori infection, although not measured in the present study, is probably an important risk factor for the high sibling risk of corpus cancer. Familial clustering of cardia cancer is independent of H. pylori infection, and may have a genetic basis. The familial association of cardia cancer with oesophageal adenocarcinoma may provide aetiological clues.     

Familial colorectal adenocarcinoma and hereditary nonpolyposis colorectal cancer: a nationwide epidemiological study from Sweden

Although estimates are available of the proportion of hereditary nonpolyposis colorectal cancer (HNPCC) among all colorectal cancer (CRC), its proportion among familial CRC is unclear. We estimated these proportions epidemiologically from the nationwide Swedish Family-Cancer Database on 9.6 million individuals. Colorectal adenocarcinomas were retrieved from the Cancer Registry covering years 1958-1996. Standardized incidence ratios (SIRs) were calculated for offspring (aged less than 62 years) when their parent had colorectal adenocarcinoma. In 9.82% of all families, an offspring and a parent were affected, giving a population attributable proportion of 4.91% and a familial SIR of 2.00. When offspring and parents shared the anatomic site, the SIR was 2.32 for proximal and 2.00 for distal CRC. When offspring were diagnosed before age 40 years and parents before age 50 years, the SIR was 25.72 for familial proximal CRC. In older age groups familial risks did not differ between proximal and distal CRC. Familial risks were increased also for endometrial, small intestinal and gastric cancers, manifestations in HNPCC. Depending on which assumptions were made, HNPCC was calculated to account for 20 to 50% of familial CRC, corresponding to 1 or 2.5% of all CRC among 0-61-year-old individuals.     

Attributable risks for familial breast cancer by proband status and morphology: a nationwide epidemiologic study from Sweden

Population attributable factions (PAFs) show the proportion of the disease that could be prevented if the cause could be removed. The PAF for familial breast cancer has not been precisely determined. We used the nationwide Swedish Family-Cancer Database on 10.2 million individuals and 190,000 mothers' and 26,000 daughters' breast cancers to calculate familial standardized incidence ratios (SIRs), proportion of cases with a family history and familial PAFs for all invasive and in situ and morphology-specific breast cancers in daughters who were 0-66 years old. The data were calculated by mother only, sister only or both as probands. More than 5,500 familial breast cancers were recorded. The familial SIRs for all invasive breast cancer were 1.79 by breast cancer in the mother only, 2.03 by breast cancer in a sister only and 2.82 by breast cancer in both a mother and sister. The familial PAFs were 3.61, 3.01 and 0.43%, respectively, giving a total PAF of 7.05%. Age-specific risks were shown for the mother and sister history of breast cancer. The PAF values decreased by age when the daughter had a mother history of breast cancer but not when she had a sister history. PAFs did not depend on the morphologic type of breast cancer. The data show that the familial PAF of breast cancer among a 0-66-year-old population of daughters was 7% and independent of the morphologic type. If contribution from the paternal side was allowed for, the PAF would be 11%.     

Familial testicular cancer and second primary cancers in testicular cancer patients by histological type

The Swedish Family-Cancer Database was used to assess familial cancer risks in first-degree relatives and the risks of second primary cancers in testicular cancer patients by the histological type of their testicular cancers. Standardised incidence ratios (SIRs) were employed to estimate cancer risks. Among 4650 patients, 1.3% were familial testicular cancer. Seminomas showed a 10 years later median age of onset than teratomas (30 versus 40 years). The familial risks of testicular cancer were 3.8 for fathers, 8.3 for brothers and 3.9 for sons; they were similar for the two histologies. The fraternal risks were elevated 2- to 2.8-fold for pure histologies compared with the mixed histologies. Significantly increased risks for subsequent cancers were observed in the stomach, pancreas, testis, kidney, bladder, thyroid and connective and lymphatic tissues in the patients. Our data support the contention that genetic predisposition is one of the major contributors to familial and multiple testicular cancers.     

A comparative epidemiologic study on geographic distributions of cancers of the lung and the large intestine in Japan

To examine what kinds of factors could have caused the geographic variation observed in lung cancer morbidity in Japan, a correlation study was performed comparing various regional traits. The same study was also conducted on large intestinal cancer, aiming to distinguish the possible urban factors associated with both cancers. Lung cancer was highly correlated with industrialization-related factors such as localization of manufacturing industries, automobile traffic and air pollution, whereas colon cancer was correlated with the population density of workers in the tertiary industries such as services, trade and government. A multiple regression analysis could not detect any single factor with an exceptionally strong influence on either cancer. The present findings suggest that the hazardous environmental condition of urban areas has, to some extent, contributed to the recent increase of lung cancer cases in this country.     

Familial aggregation of astrocytoma in northern Sweden: an epidemiological cohort study

This population-based cohort study investigated the occurrence of familial astrocytoma among first-degree relatives of patients with astrocytoma diagnosed between 1985 and 1993 in the northern region of Sweden. The 432 cases received a questionnaire. They were asked to provide names and cancer diagnoses of first-degree relatives. Of the 297 answering, a cohort was constructed of their 1,890 first-degree relatives (FDR). A significantly increased risk [standardized incidence ratio, SIR = 2.12, 95% confidence interval (CI) = 1.18-3.49] was shown for developing primary brain tumors (PBT). In 4.7% (14/297) of the families, a PBT was found. Interestingly, the increased risk was for astrocytoma only (SIR = 3.12, 95% CI 1.42-5.92), and not for other PBT (SIR 0.90, 95% CI 0.18-2.64). When the cohort was divided according to the median age of proband, most of the increased risk was restricted to the younger cohort (SIR = 4.71, 95% CI 1.52-10.99). Surprisingly, a significantly decreased risk for breast cancer and colon cancer was shown. The finding that the increased risk is restricted to astrocytoma only is a novel one. This study implies that familial aggregation of astrocytoma exists; the familial clustering occurs in a small fraction of astrocytoma, and might be explained by inherited factors.     

Risk of infection-related cancers after the loss of a child: a follow-up study in Sweden

It is unknown whether severe emotional stress due to loss of a child influences the risk of cancers susceptible to immune modulation such as infection-related cancers. We conducted a historic cohort study in 1990 to 2004 on the basis of the Swedish Multi-Generation Register including 4,687,073 parents. Death of a child was identified through the Causes of Death Register. Poisson regression was used to derive the relative risks (RR) and 95% confidence intervals (CI) of infection-related cancers, comparing the incidence rates of parents who lost a child with those who never lost a child. A total of 101,306 parents (2%) had lost a child during follow-up, among whom 1,608 subsequently developed infection-related cancers. After adjustment for age, sex, calendar year, educational level, and civil status, the overall RR of 14 cancers studied was 1.07 (95% CI: 1.02-1.12). Parents who lost a child were particularly at a higher risk for cancers potentially associated with human papilloma virus (HPV) infection such as cervical cancer (RR: 1.46; 95% CI: 1.17-1.80). Higher RRs for most cancers were obtained within 5 years after child loss and excess risk for liver and stomach cancers was confined to that period. No association was observed for lymphoma and nonmelanoma skin cancer at any time point after child loss. Although potential confounding by unmeasured factors cannot be ruled out, our findings lend support to the hypothesis that severe life stressors, such as child loss, may raise the risk for several, chiefly HPV-related, cancers.     

Familial breast and ovarian cancers

About 60% of familial breast and ovarian cancers in Japan involve germline mutations of the BRCA1 or BRCA2 (BRCA1/2) genes. These genes contribute to genetic stability and DNA repair and act as tumor suppressor genes. Mutation analysis of the BRCA1/2 genes has improved our understanding of both common mutation patterns in Japanese patients and the clinicopathological features of BRCA1/2-related cancers. BRCA1-related breast cancers are characterized by poor prognosis, a low rate of estrogen receptor positivity, and histological predominance of solid-tubular carcinoma. BRCA1-related ovarian cancers are associated with a high frequency of serous adenocarcinoma and a good outcome. Further large-scale studies are needed to delineate genotype-phenotype relations and penetrance in BRCA1/2-related breast and ovarian cancers in Japan. The development of systems for clinical genetics in Japan, including genetic counseling, has led to the increased use of genetic testing for the clinical management of BRCA1/2-related cancers. Three options are available for carriers of BRCA1/2 mutations: intensive surveillance, chemoprevention, and prophylactic surgery. Studies done in other countries indicate that prophylactic surgery effectively prevents the development of breast and ovarian cancers in carriers of BRCA1/2 mutations. However, prophylactic mastectomy remains controversial in Japan, and now systematic intensive surveillance is generally performed for the prevention of breast cancer in women at high risk. Early detection of ovarian cancer remains challenging, resulting in increased acceptance of the need for prophylactic oophorectomy in women at risk. This review summarizes experimental and clinical findings about familial breast and ovarian cancers, including data on Japanese patients.