Primary sarcomas represent the least common malignancies in bone, although osteosarcoma represents the most common nonhemoapoietic primary tumor of bone. Slightly higher incidences of males have been reported for osteosarcoma (53% male versus 47% female) and Ewing sarcoma, the second most common bone and soft tissue sarcoma of young patients (55% male versus 45% female); neither is statistically significant. However, in the more common malignant lesions in bone—metastatic disease and myeloma—various studies have noted differing incidences and/or differences in outcome between the sexes.
Survival among patients with cancers continues to improve, increasing the risk for metastases. Bone is a common site of metastasis for most malignancies, and metastatic carcinoma represents the most common malignancy in bone. These typically are harbingers for poor prognosis. In addition, related skeletal events (hypercalcemia, pathologic fracture, bone pain necessitating radiation therapy, surgical intervention, spinal cord compression) lead to significant morbidity and impact on patient function, as well as shorter median survival times. Carcinomas that occur in both men and women and have a propensity for skeletal metastasis, including lung, breast, and renal cell carcinoma, have reported differing incidences between men and women of risk, location, and outcome of bone metastasis. For example, men are almost twice as likely to develop acrometastasis,1 with more than half representing metastatic lung carcinoma, reflecting the higher incidence of lung cancer among men.2
Lung cancer is a leading cancer globally, and the leading cause of cancer-related deaths. Men are more likely to develop lung cancer; however, women tend to be younger and less likely to be smokers, than men with lung cancer are. It has also been noted that men are more likely to have squamous cell subtype of lung carcinoma.3 Sex-based differences have not been consistently identified in the risk of metastasis or skeletal-related events (SRE), including among patients initially presenting with extensive disease,4 perhaps reflecting the shorter life expectancy among these patients.3,5 In some studies of patients with bone metastasis, women have been noted to have longer average survival than men; however, sex does not consistently remain an independent predictor of survival after accounting for younger age at diagnosis, non-smoker status, and adenocarcinoma cell type, all factors associated with improved survival and more commonly noted among women.
Breast cancer is the most common cancer among women; only 1% of cases of breast cancer are diagnosed in men. Men tend to be older at the time of initial diagnosis. Approximately 5% of women will present with metastatic disease at the time of initial diagnosis, with another 4% developing bone metastasis during follow-up. In contrast, more than 40% of men present with stage III or IV disease.6 Presentation of men at later stages of disease may reflect the impact of screening programs and greater awareness of the disease in women. For both sexes, bone is the most common location of metastasis, with approximately half of women sustaining a skeletal-related event during the course of their disease. Similar data for SREs are not available for men. Bone metastases and SREs have significant impact on survival.7 Sex has been found to be an independent risk factor for prognosis, with women having better survival. However, this may reflect the more advanced stage at the time of initial diagnosis among men because, after controlling for stage, men have been reported to have similar rates of survival as women.8 In contrast, others have suggested that the tumor biology differs between the sexes because men have been noted to have worse survival than women among those with early stage or lymph-node–negative tumors and among those with estrogen-receptor–positive tumors.6 The relative impact on survival of different tumor biology and greater awareness and screening needs to be further elucidated.
Renal cell carcinoma represents approximately 4% of new cancer diagnoses each year in the United States.9 Approximately one-third of patients will present with metastatic disease, with another one-third developing metastases later. Bone is the second most common site of metastasis, after lung; between 20% and 35% of patients will have bone metastases during the course of their disease, with 85% eventually developing an SRE.10 Although there is a higher incidence of renal cell carcinoma among men (male:female, 1.5:1), the male:female ratio increases among those with metastases at other sites (2.0) and is even higher among those with bone metastases (2.4).10 However, sex has not been identified as an independent risk factor for survival,11 including among patients with bone metastases.9
Myeloma is the most common malignancy arising in bone. Changes in bone arising from myeloma can result in osteolytic lesions, osteopenia, bone pain, and hypercalcemia. The incidence of myeloma increases with age. Men are more often diagnosed with myeloma than are women, with this sex difference initially noted at the age of 40 years. The male:female ratio increases with each decade, and is highest among those 85 years of age and older. Myeloma is also more common among Blacks for both men and women. A possible impact of female hormones on the immune system and secondary impact on the incidence of myeloma has been suggested.12 Older studies noted that males with myeloma had an increased estrogen:androgen ratio and women with myeloma had a decreased estrogen:androgen ratio, compared to controls.13 More recent studies have attempted to investigate the impact of sex hormones on the development of myeloma by correlating reproductive history with subsequent myeloma risk; results of these studies has been inconsistent, with some suggesting that increased parity is associated with increased risk of developing myeloma.12
Anthropometric characteristics14 have also been investigated in incidence of myeloma. The impact of height was found to be correlated to myeloma risk in women but not in men,15 or to have no effect on risk for either sex.16 Body mass index was reported to be related to myeloma risk in men but not women.15 However, other studies have noted that a higher BMI is related to poorer prognosis among women but not men.16 Sex-based differences in the prevalence of genetic mutations in myeloma have also been reported; immunoglobulin heavy chain gene (IGH) translocations were found to be more common in women, and hyperdiploidy was more common in men. There were also differences in secondary genetic events with del(13q) and +1q being found more frequently in female myeloma patients.16 It has been suggested that mutations associated with poor prognosis may explain, in part, the lower overall survival noted among women with myeloma.
Men have a higher incidence of all types of musculoskeletal system tumors than women do. The difference is particularly noticeable in the incidence of myeloma, with both White and Black men being 30% to 40% more likely to have myeloma than White or Black Women. (Reference Table 9A.7 PDF [1] CSV [2])
In addition to higher incidence rates, men also are likely to be diagnosed with all types of musculoskeletal system tumors a few years younger than women. Myeloma, the most common of the musculoskeletal system cancers, is primarily a disease of the elderly, while soft tissue cancers in middle age, and cancers of bones and joints in children and young adults.
Men have a slightly lower 5-year survival rate for bone and joint cancers and soft-tissue cancers, both of which have a survival rate of 64% to 70%. Women have a slightly lower 5-year survival rate for myeloma, which has a rate of 42% to 44%. (Reference Table 9A.7 PDF [1] CSV [2])
Links:
[1] https://www.boneandjointburden.org/docs/T9A.7.pdf
[2] https://www.boneandjointburden.org/docs/T9A.7.csv