Dissemination and Implementation Research in Health

book published in 2012

Data from Association and Prediction Utilizing Craniocaudal and Mediolateral Oblique View Digital Mammography and Long-Term Breast Cancer Risk

Data from Association and prediction utilizing craniocaudal and mediolateral oblique view digital mammography and long-term breast cancer risk

Data from Association and prediction utilizing craniocaudal and mediolateral oblique view digital mammography and long-term breast cancer risk

Data from Automated Breast Density Assessment for Full-Field Digital Mammography and Digital Breast Tomosynthesis

Data from Deriving a Mammogram-Based Risk Score from Screening Digital Breast Tomosynthesis for 5-Year Breast Cancer Risk Prediction

Data from Racialized Economic Segregation, Treatment, and Outcomes in Women with Triple-Negative Breast Cancer

Data from Sleep Behaviors, Genetic Predispositions, and Risk of Esophageal Cancer

Data from Sleep Behaviors, Genetic Predispositions, and Risk of Esophageal Cancer

Data from Where Should the Cancer Control Interventions Target: A Geospatial Hotspot Analysis for Major Cancer Mortality 2018 to 2022 in the United States

Development and validation of a 5-year risk model using mammogram risk scores generated from screening digital breast tomosynthesis

Figure S1 from Where Should the Cancer Control Interventions Target: A Geospatial Hotspot Analysis for Major Cancer Mortality 2018 to 2022 in the United States

Figure S10 from Where Should the Cancer Control Interventions Target: A Geospatial Hotspot Analysis for Major Cancer Mortality 2018 to 2022 in the United States

Figure S11 from Where Should the Cancer Control Interventions Target: A Geospatial Hotspot Analysis for Major Cancer Mortality 2018 to 2022 in the United States

Figure S12 from Where Should the Cancer Control Interventions Target: A Geospatial Hotspot Analysis for Major Cancer Mortality 2018 to 2022 in the United States

Figure S13 from Where Should the Cancer Control Interventions Target: A Geospatial Hotspot Analysis for Major Cancer Mortality 2018 to 2022 in the United States

Figure S18 from Where Should the Cancer Control Interventions Target: A Geospatial Hotspot Analysis for Major Cancer Mortality 2018 to 2022 in the United States

Figure S19 from Where Should the Cancer Control Interventions Target: A Geospatial Hotspot Analysis for Major Cancer Mortality 2018 to 2022 in the United States

Figure S2 from Where Should the Cancer Control Interventions Target: A Geospatial Hotspot Analysis for Major Cancer Mortality 2018 to 2022 in the United States

Figure S21 from Where Should the Cancer Control Interventions Target: A Geospatial Hotspot Analysis for Major Cancer Mortality 2018 to 2022 in the United States

Figure S3 from Where Should the Cancer Control Interventions Target: A Geospatial Hotspot Analysis for Major Cancer Mortality 2018 to 2022 in the United States

Figure S4 from Where Should the Cancer Control Interventions Target: A Geospatial Hotspot Analysis for Major Cancer Mortality 2018 to 2022 in the United States

Figure S5 from Where Should the Cancer Control Interventions Target: A Geospatial Hotspot Analysis for Major Cancer Mortality 2018 to 2022 in the United States

Figure S6 from Where Should the Cancer Control Interventions Target: A Geospatial Hotspot Analysis for Major Cancer Mortality 2018 to 2022 in the United States

Figure S7 from Where Should the Cancer Control Interventions Target: A Geospatial Hotspot Analysis for Major Cancer Mortality 2018 to 2022 in the United States

Figure S8 from Where Should the Cancer Control Interventions Target: A Geospatial Hotspot Analysis for Major Cancer Mortality 2018 to 2022 in the United States

Figure S9 from Where Should the Cancer Control Interventions Target: A Geospatial Hotspot Analysis for Major Cancer Mortality 2018 to 2022 in the United States

Investigating the relationship between breast cancer risk factors and an AI-generated mammographic texture feature in the Nurses' Health Study II

Quantify the Contribution of Modifiable Risk Factors for Progression of MGUS to Multiple Myeloma

Supplementary Figure 1 from Sleep Behaviors, Genetic Predispositions, and Risk of Esophageal Cancer

Supplementary Figure 1 from Sleep Behaviors, Genetic Predispositions, and Risk of Esophageal Cancer

Supplementary Figure S1 from Association and Prediction Utilizing Craniocaudal and Mediolateral Oblique View Digital Mammography and Long-Term Breast Cancer Risk

Supplementary Figure S1 from Association and Prediction Utilizing Craniocaudal and Mediolateral Oblique View Digital Mammography and Long-Term Breast Cancer Risk

Supplementary Figure S1 from Association and Prediction Utilizing Craniocaudal and Mediolateral Oblique View Digital Mammography and Long-Term Breast Cancer Risk

Supplementary Figure S1 from Association and prediction utilizing craniocaudal and mediolateral oblique view digital mammography and long-term breast cancer risk

Supplementary Figure S1 from Association and prediction utilizing craniocaudal and mediolateral oblique view digital mammography and long-term breast cancer risk

Supplementary Figure S1 from Automated Breast Density Assessment for Full-Field Digital Mammography and Digital Breast Tomosynthesis

Supplementary Figure S1 from Deriving a Mammogram-Based Risk Score from Screening Digital Breast Tomosynthesis for 5-Year Breast Cancer Risk Prediction

Supplementary Figure S2 from Association and Prediction Utilizing Craniocaudal and Mediolateral Oblique View Digital Mammography and Long-Term Breast Cancer Risk

Supplementary Figure S2 from Association and Prediction Utilizing Craniocaudal and Mediolateral Oblique View Digital Mammography and Long-Term Breast Cancer Risk

Supplementary Figure S2 from Association and Prediction Utilizing Craniocaudal and Mediolateral Oblique View Digital Mammography and Long-Term Breast Cancer Risk

Supplementary Figure S2 from Association and Prediction Utilizing Craniocaudal and Mediolateral Oblique View Digital Mammography and Long-Term Breast Cancer Risk

Supplementary Figure S2 from Association and prediction utilizing craniocaudal and mediolateral oblique view digital mammography and long-term breast cancer risk

Supplementary Figure S2 from Association and prediction utilizing craniocaudal and mediolateral oblique view digital mammography and long-term breast cancer risk

Supplementary Figure S3 from Association and Prediction Utilizing Craniocaudal and Mediolateral Oblique View Digital Mammography and Long-Term Breast Cancer Risk

Supplementary Figure S3 from Association and Prediction Utilizing Craniocaudal and Mediolateral Oblique View Digital Mammography and Long-Term Breast Cancer Risk

Supplementary Figure S3 from Association and prediction utilizing craniocaudal and mediolateral oblique view digital mammography and long-term breast cancer risk

Supplementary Figure S3 from Association and prediction utilizing craniocaudal and mediolateral oblique view digital mammography and long-term breast cancer risk

Supplementary Figure S3 from Automated Breast Density Assessment for Full-Field Digital Mammography and Digital Breast Tomosynthesis

Supplementary Figure S4 from Association and Prediction Utilizing Craniocaudal and Mediolateral Oblique View Digital Mammography and Long-Term Breast Cancer Risk

Supplementary Figure S4 from Association and Prediction Utilizing Craniocaudal and Mediolateral Oblique View Digital Mammography and Long-Term Breast Cancer Risk

Supplementary Figure S4 from Association and prediction utilizing craniocaudal and mediolateral oblique view digital mammography and long-term breast cancer risk

Supplementary Figure S4 from Association and prediction utilizing craniocaudal and mediolateral oblique view digital mammography and long-term breast cancer risk

Supplementary Figure S5 from Association and Prediction Utilizing Craniocaudal and Mediolateral Oblique View Digital Mammography and Long-Term Breast Cancer Risk

Supplementary Figure S5 from Association and Prediction Utilizing Craniocaudal and Mediolateral Oblique View Digital Mammography and Long-Term Breast Cancer Risk

Supplementary Figure S5 from Association and prediction utilizing craniocaudal and mediolateral oblique view digital mammography and long-term breast cancer risk

Supplementary Figure S5 from Association and prediction utilizing craniocaudal and mediolateral oblique view digital mammography and long-term breast cancer risk

Supplementary Figure S6 from Association and Prediction Utilizing Craniocaudal and Mediolateral Oblique View Digital Mammography and Long-Term Breast Cancer Risk

Supplementary Figure S6 from Association and prediction utilizing craniocaudal and mediolateral oblique view digital mammography and long-term breast cancer risk

Supplementary Figure S6 from Association and prediction utilizing craniocaudal and mediolateral oblique view digital mammography and long-term breast cancer risk

Supplementary Figure S7 from Association and Prediction Utilizing Craniocaudal and Mediolateral Oblique View Digital Mammography and Long-Term Breast Cancer Risk

Supplementary Figure S7 from Association and Prediction Utilizing Craniocaudal and Mediolateral Oblique View Digital Mammography and Long-Term Breast Cancer Risk

Supplementary Figure S7 from Association and prediction utilizing craniocaudal and mediolateral oblique view digital mammography and long-term breast cancer risk

Supplementary Figure S7 from Association and prediction utilizing craniocaudal and mediolateral oblique view digital mammography and long-term breast cancer risk

Supplementary Table 1 from Sleep Behaviors, Genetic Predispositions, and Risk of Esophageal Cancer

Supplementary Table 1 from Sleep Behaviors, Genetic Predispositions, and Risk of Esophageal Cancer

Supplementary Table 2 from Sleep Behaviors, Genetic Predispositions, and Risk of Esophageal Cancer

Supplementary Table 2 from Sleep Behaviors, Genetic Predispositions, and Risk of Esophageal Cancer

Supplementary Table 3 from Sleep Behaviors, Genetic Predispositions, and Risk of Esophageal Cancer

Supplementary Table 3 from Sleep Behaviors, Genetic Predispositions, and Risk of Esophageal Cancer

Supplementary Table 4 from Sleep Behaviors, Genetic Predispositions, and Risk of Esophageal Cancer

Supplementary Table 4 from Sleep Behaviors, Genetic Predispositions, and Risk of Esophageal Cancer

Supplementary Table 5 from Sleep Behaviors, Genetic Predispositions, and Risk of Esophageal Cancer

Supplementary Table 5 from Sleep Behaviors, Genetic Predispositions, and Risk of Esophageal Cancer

Supplementary Table 6 from Sleep Behaviors, Genetic Predispositions, and Risk of Esophageal Cancer

Supplementary Table 8 from Sleep Behaviors, Genetic Predispositions, and Risk of Esophageal Cancer

Supplementary Table 9 from Sleep Behaviors, Genetic Predispositions, and Risk of Esophageal Cancer

Supplementary Table S1 from Association and Prediction Utilizing Craniocaudal and Mediolateral Oblique View Digital Mammography and Long-Term Breast Cancer Risk

Supplementary Table S1 from Deriving a Mammogram-Based Risk Score from Screening Digital Breast Tomosynthesis for 5-Year Breast Cancer Risk Prediction

Supplementary Table S2 from Association and Prediction Utilizing Craniocaudal and Mediolateral Oblique View Digital Mammography and Long-Term Breast Cancer Risk

Supplementary Table S2 from Association and prediction utilizing craniocaudal and mediolateral oblique view digital mammography and long-term breast cancer risk

Supplementary Table S2 from Association and prediction utilizing craniocaudal and mediolateral oblique view digital mammography and long-term breast cancer risk

Supplementary Table S2 from Deriving a Mammogram-Based Risk Score from Screening Digital Breast Tomosynthesis for 5-Year Breast Cancer Risk Prediction

Supplementary Table S3 from Association and Prediction Utilizing Craniocaudal and Mediolateral Oblique View Digital Mammography and Long-Term Breast Cancer Risk

Supplementary Table S3 from Association and Prediction Utilizing Craniocaudal and Mediolateral Oblique View Digital Mammography and Long-Term Breast Cancer Risk

Supplementary Table S4 from Association and Prediction Utilizing Craniocaudal and Mediolateral Oblique View Digital Mammography and Long-Term Breast Cancer Risk

Supplementary Table S4 from Association and prediction utilizing craniocaudal and mediolateral oblique view digital mammography and long-term breast cancer risk

Supplementary Table S4 from Association and prediction utilizing craniocaudal and mediolateral oblique view digital mammography and long-term breast cancer risk

Supplementary Table S5 from Association and Prediction Utilizing Craniocaudal and Mediolateral Oblique View Digital Mammography and Long-Term Breast Cancer Risk

Supplementary Table S5 from Association and Prediction Utilizing Craniocaudal and Mediolateral Oblique View Digital Mammography and Long-Term Breast Cancer Risk

Supplementary Table S5 from Association and prediction utilizing craniocaudal and mediolateral oblique view digital mammography and long-term breast cancer risk

Supplementary Table S6 from Association and Prediction Utilizing Craniocaudal and Mediolateral Oblique View Digital Mammography and Long-Term Breast Cancer Risk

Supplementary Table S6 from Association and prediction utilizing craniocaudal and mediolateral oblique view digital mammography and long-term breast cancer risk

Table S1 from Racialized Economic Segregation, Treatment, and Outcomes in Women with Triple-Negative Breast Cancer

Table S1 from Where Should the Cancer Control Interventions Target: A Geospatial Hotspot Analysis for Major Cancer Mortality 2018 to 2022 in the United States

Table S2 from Racialized Economic Segregation, Treatment, and Outcomes in Women with Triple-Negative Breast Cancer

Table S2 from Where Should the Cancer Control Interventions Target: A Geospatial Hotspot Analysis for Major Cancer Mortality 2018 to 2022 in the United States

Table S3 from Racialized Economic Segregation, Treatment, and Outcomes in Women with Triple-Negative Breast Cancer

Table S4 from Racialized Economic Segregation, Treatment, and Outcomes in Women with Triple-Negative Breast Cancer

Table S6 from Racialized Economic Segregation, Treatment, and Outcomes in Women with Triple-Negative Breast Cancer

Table S7 from Racialized Economic Segregation, Treatment, and Outcomes in Women with Triple-Negative Breast Cancer

Table S8 from Racialized Economic Segregation, Treatment, and Outcomes in Women with Triple-Negative Breast Cancer