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Prognostic significance of primary tumor location in breast cancer: An Analysis of the National Cancer Database (NCDB)
Background: The prognostic implication of tumor location in breast cancer remains unclear. Previous studies suggested that inner and lower quadrant-located tumors were associated with decreased survival.
Methods: The NCDB was quired to identify AJCC clinical stage I-III first female breast cancer patients with unilateral disease who underwent breast-conserving surgery from 2010 to 2016. Three mutually exclusive groups were created based on tumor location, which included outer (upper and lower outer quadrants), central, and inner (upper and lower inner quadrants) zones of the breast. Clinical and demographic variables were obtained. Unadjusted survival differences were examined with Kaplan- Meier method. Multivariate Cox regression model was employed to examine the association between zone group and survival.
Results: 125,800 patients were identified including 83,558 (66.4%), 6,764 (5.4%), and 35,449 (28.2%) patients within the outer, central, and inner zones. There was evidence of a difference in age and tumor size based on site (P<0.001). It was also found that there was an association between tumor zone and each of the following (P<0.05): race and ethnicity, Charlson-Deyo score, insurance, income, education, facility type, laterality, histology, utilization of chemotherapy, ER status, PR status, and HER2 status. There was no relationship between site and unadjusted survival (P=0.905). After adjusting for all else, a 5.7% decreased the risk of death was found upon the comparison of the outer vs. inner zone of the breast (95% CI: 0.4%-11.8%; P=0.037). In general, older African American Medicaid patients with increased Charlson-Deyo scores and hormone receptor-negative breast cancers from lower-income areas had decreased survival.
Conclusion: Outer zone breast cancer has a more favorable survival advantage when compared with inner zone cancers. A finding that warrants re-evaluation of the management approach to inner zone breast cancer.
Background: The prognostic implication of tumor location in breast cancer remains unclear. Previous studies suggested that inner and lower quadrant-located tumors were associated with decreased survival.
Methods: The NCDB was quired to identify AJCC clinical stage I-III first female breast cancer patients with unilateral disease who underwent breast-conserving surgery from 2010 to 2016. Three mutually exclusive groups were created based on tumor location, which included outer (upper and lower outer quadrants), central, and inner (upper and lower inner quadrants) zones of the breast. Clinical and demographic variables were obtained. Unadjusted survival differences were examined with Kaplan- Meier method. Multivariate Cox regression model was employed to examine the association between zone group and survival.
Results: 125,800 patients were identified including 83,558 (66.4%), 6,764 (5.4%), and 35,449 (28.2%) patients within the outer, central, and inner zones. There was evidence of a difference in age and tumor size based on site (P<0.001). It was also found that there was an association between tumor zone and each of the following (P<0.05): race and ethnicity, Charlson-Deyo score, insurance, income, education, facility type, laterality, histology, utilization of chemotherapy, ER status, PR status, and HER2 status. There was no relationship between site and unadjusted survival (P=0.905). After adjusting for all else, a 5.7% decreased the risk of death was found upon the comparison of the outer vs. inner zone of the breast (95% CI: 0.4%-11.8%; P=0.037). In general, older African American Medicaid patients with increased Charlson-Deyo scores and hormone receptor-negative breast cancers from lower-income areas had decreased survival.
Conclusion: Outer zone breast cancer has a more favorable survival advantage when compared with inner zone cancers. A finding that warrants re-evaluation of the management approach to inner zone breast cancer.
Background: The prognostic implication of tumor location in breast cancer remains unclear. Previous studies suggested that inner and lower quadrant-located tumors were associated with decreased survival.
Methods: The NCDB was quired to identify AJCC clinical stage I-III first female breast cancer patients with unilateral disease who underwent breast-conserving surgery from 2010 to 2016. Three mutually exclusive groups were created based on tumor location, which included outer (upper and lower outer quadrants), central, and inner (upper and lower inner quadrants) zones of the breast. Clinical and demographic variables were obtained. Unadjusted survival differences were examined with Kaplan- Meier method. Multivariate Cox regression model was employed to examine the association between zone group and survival.
Results: 125,800 patients were identified including 83,558 (66.4%), 6,764 (5.4%), and 35,449 (28.2%) patients within the outer, central, and inner zones. There was evidence of a difference in age and tumor size based on site (P<0.001). It was also found that there was an association between tumor zone and each of the following (P<0.05): race and ethnicity, Charlson-Deyo score, insurance, income, education, facility type, laterality, histology, utilization of chemotherapy, ER status, PR status, and HER2 status. There was no relationship between site and unadjusted survival (P=0.905). After adjusting for all else, a 5.7% decreased the risk of death was found upon the comparison of the outer vs. inner zone of the breast (95% CI: 0.4%-11.8%; P=0.037). In general, older African American Medicaid patients with increased Charlson-Deyo scores and hormone receptor-negative breast cancers from lower-income areas had decreased survival.
Conclusion: Outer zone breast cancer has a more favorable survival advantage when compared with inner zone cancers. A finding that warrants re-evaluation of the management approach to inner zone breast cancer.
Primary Cardiac Sarcoma: An Analysis of the National Cancer Database (NCDB)
Introduction: Primary Cardiac Sarcomas (PCS) are exceptionally rare malignancies, representing approximately 25% of all malignant primary cardiac tumors. Due to the rarity of these neoplasms, literature on the characteristics, optimal management, and survival outcomes in these patients is limited.
Methods: The National Cancer Database (NCDB) for soft tissue tumors was utilized to identify 826 adult patients diagnosed with tumors localized to the heart or pericardium from 2004 to 2016. Demographic information was obtained and Kaplan-Meier analysis was used to analyze overall survival of PCS. Bivariate analysis was performed with Cox proportional hazards regression models to obtain hazard ratios and assess the association of patient characteristics and treatment methods with survival.
Results: The majority of PCS patients were male (51.5%) and white (79.4%), with a mean age at diagnosis of 53 years. 41.2% were blood vessel tumors and 27.7% were sarcomas. Leiomyosarcoma and epithelial neoplasms each represented 5.2% of tumors, followed by synovial sarcomas (4.2%) and rhabdomyosarcomas (2.8%). The majority of patients were diagnosed with metastatic disease (43.2%) and received treatment (85.2%), most often with surgical resection (58.1%) or chemotherapy (57.2%).
Median overall survival was 10.9 months (95% CI: 9.6 – 12.1 months), with a cumulative survival at 1-year, 5-years, and 10-years of 27%, 10%, and 4%, respectively. Factors associated with signi cantly increased mortality (P<0.05), include increased age (HR 1.017), increased Charleson-Deyo comorbidity score (HR 1.284), and elevated stage and grade at diagnosis. Compared to blood vessel tumors, leiomyosarcoma (HR 0.696), fibroblastic (HR 0.579), osseous (HR 0.537), and fibrohystocytic (HR 0.485) histologies were associated with improved survival (P<0.05). Factors associated with signi cantly improved survival (P<0.05) included treatment by surgical resection (HR 0.500), radiation (HR 0.808), and chemotherapy (HR 0.738).
Conclusion: This is the largest study of PCS to date, and the first to analyze the NCDB. The majority of these neoplasms are blood vessel tumors and are often diagnosed at advanced stage and grade. Prognosis is poor, and all treatment modalities are associated with improved survival. Understanding of patient characteristics and overall survival is important in enhancing patient outcomes for this rare diagnosis.
Introduction: Primary Cardiac Sarcomas (PCS) are exceptionally rare malignancies, representing approximately 25% of all malignant primary cardiac tumors. Due to the rarity of these neoplasms, literature on the characteristics, optimal management, and survival outcomes in these patients is limited.
Methods: The National Cancer Database (NCDB) for soft tissue tumors was utilized to identify 826 adult patients diagnosed with tumors localized to the heart or pericardium from 2004 to 2016. Demographic information was obtained and Kaplan-Meier analysis was used to analyze overall survival of PCS. Bivariate analysis was performed with Cox proportional hazards regression models to obtain hazard ratios and assess the association of patient characteristics and treatment methods with survival.
Results: The majority of PCS patients were male (51.5%) and white (79.4%), with a mean age at diagnosis of 53 years. 41.2% were blood vessel tumors and 27.7% were sarcomas. Leiomyosarcoma and epithelial neoplasms each represented 5.2% of tumors, followed by synovial sarcomas (4.2%) and rhabdomyosarcomas (2.8%). The majority of patients were diagnosed with metastatic disease (43.2%) and received treatment (85.2%), most often with surgical resection (58.1%) or chemotherapy (57.2%).
Median overall survival was 10.9 months (95% CI: 9.6 – 12.1 months), with a cumulative survival at 1-year, 5-years, and 10-years of 27%, 10%, and 4%, respectively. Factors associated with signi cantly increased mortality (P<0.05), include increased age (HR 1.017), increased Charleson-Deyo comorbidity score (HR 1.284), and elevated stage and grade at diagnosis. Compared to blood vessel tumors, leiomyosarcoma (HR 0.696), fibroblastic (HR 0.579), osseous (HR 0.537), and fibrohystocytic (HR 0.485) histologies were associated with improved survival (P<0.05). Factors associated with signi cantly improved survival (P<0.05) included treatment by surgical resection (HR 0.500), radiation (HR 0.808), and chemotherapy (HR 0.738).
Conclusion: This is the largest study of PCS to date, and the first to analyze the NCDB. The majority of these neoplasms are blood vessel tumors and are often diagnosed at advanced stage and grade. Prognosis is poor, and all treatment modalities are associated with improved survival. Understanding of patient characteristics and overall survival is important in enhancing patient outcomes for this rare diagnosis.
Introduction: Primary Cardiac Sarcomas (PCS) are exceptionally rare malignancies, representing approximately 25% of all malignant primary cardiac tumors. Due to the rarity of these neoplasms, literature on the characteristics, optimal management, and survival outcomes in these patients is limited.
Methods: The National Cancer Database (NCDB) for soft tissue tumors was utilized to identify 826 adult patients diagnosed with tumors localized to the heart or pericardium from 2004 to 2016. Demographic information was obtained and Kaplan-Meier analysis was used to analyze overall survival of PCS. Bivariate analysis was performed with Cox proportional hazards regression models to obtain hazard ratios and assess the association of patient characteristics and treatment methods with survival.
Results: The majority of PCS patients were male (51.5%) and white (79.4%), with a mean age at diagnosis of 53 years. 41.2% were blood vessel tumors and 27.7% were sarcomas. Leiomyosarcoma and epithelial neoplasms each represented 5.2% of tumors, followed by synovial sarcomas (4.2%) and rhabdomyosarcomas (2.8%). The majority of patients were diagnosed with metastatic disease (43.2%) and received treatment (85.2%), most often with surgical resection (58.1%) or chemotherapy (57.2%).
Median overall survival was 10.9 months (95% CI: 9.6 – 12.1 months), with a cumulative survival at 1-year, 5-years, and 10-years of 27%, 10%, and 4%, respectively. Factors associated with signi cantly increased mortality (P<0.05), include increased age (HR 1.017), increased Charleson-Deyo comorbidity score (HR 1.284), and elevated stage and grade at diagnosis. Compared to blood vessel tumors, leiomyosarcoma (HR 0.696), fibroblastic (HR 0.579), osseous (HR 0.537), and fibrohystocytic (HR 0.485) histologies were associated with improved survival (P<0.05). Factors associated with signi cantly improved survival (P<0.05) included treatment by surgical resection (HR 0.500), radiation (HR 0.808), and chemotherapy (HR 0.738).
Conclusion: This is the largest study of PCS to date, and the first to analyze the NCDB. The majority of these neoplasms are blood vessel tumors and are often diagnosed at advanced stage and grade. Prognosis is poor, and all treatment modalities are associated with improved survival. Understanding of patient characteristics and overall survival is important in enhancing patient outcomes for this rare diagnosis.