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Hormone Receptor (HR)-positive/ Human Epidermal Receptor 2 (HER2)-negative Breast Cancer- Market Insights, Epidemiology and Market Forecast–2028
SKU ID : DEL-14679810 | Publishing Date : 01-Sep-2019 | No. of pages : 360
Detailed TOC of Hormone Receptor (HR)-positive/ Human Epidermal Receptor 2 (HER2)-negative Breast Cancer- Market Insights, Epidemiology and Market Forecast–2028
1. Key Insights2. Hormone Receptor (HR)-positive/ Human Epidermal Receptor 2 (HER2)-negative Breast Cancer Market Overview at a Glance
2.1. Total Market Share (%) Distribution of HR-positive/HER2-negative in 2017
2.2. Total Market Share (%) Distribution of HR-positive/HER2-negative in 2028
3. Disease Background and Overview: Hormone Receptor (HR)-positive/ Human Epidermal Receptor 2 (HER2)-negative Breast Cancer
3.1. Introduction
3.2. Types of Breast Cancer
3.2.1. Subtypes of Breast Cancer
3.2.2. Molecular Subtypes of Breast Cancer
3.3. Estrogen Receptor (ER)-Positive Breast Cancer
3.3.1. Estrogen Receptor
3.3.2. Estrogen Receptor 1 Mutations
3.4. Metabolic Pathway of Estrogen Receptor (ER)-Positive Breast Cancer
3.4.1. Role of Estrogen Receptor Alpha (ERα) in Regulating Breast Cancer Metabolism
3.5. Symptoms of HR-Positive Breast Cancer
3.6. Risk Factors of Estrogen Receptor (ER)-Positive Breast Cancer
3.7. Diagnosis of Estrogen Receptor (ER)-Positive Breast Cancer
3.8. Diagnostic Guidelines for Estrogen-Receptor (ER) Positive Breast Cancer
3.8.1. American Society of Clinical Oncology (ASCO)
4. Epidemiology and Patient Population
4.1. Key Findings
4.2. Population and Forecast Parameters
4.3. Total Incidence of Breast Cancer in the 7MM
4.4. Diagnosed Incidence of HR+/HER2- post-menopausal early stage Breast Cancer in the 7MM
4.5. Diagnosed Incidence of HR+/HER2- post-menopausal advanced and metastatic stage Breast Cancer in the 7MM
4.6. Total Diagnosed Incidence of HR+/HER2- post-menopausal Breast Cancer in the 7MM
5. Country Wise-Epidemiology of Hormone Receptor (HR) Positive Breast Cancer
5.1. United States
5.1.1. Assumptions and Rationale
5.1.2. Total Incidence of Breast Cancer in the United States
5.1.3. Incidence of Breast Cancer Cases by Menopausal Status in the United States
5.1.4. Stage-Specific Incidence of Breast Cancer in Post-Menopausal Women in the United States
5.1.5. Stage Specific Diagnosed Incidence of Breast Cancer in Post-Menopausal Women in the United States
5.1.6. Diagnosed Incidence of Early Stage Breast Cancer in Post menopause by Molecular Subtype in the United States
5.1.7. Diagnosed Incidence of Locally Advanced and Metastatic Breast Cancer in Post menopause by Molecular Subtype in the United States
5.2. EU5 Countries
5.3. Germany
5.3.1. Assumptions and Rationale
5.3.2. Total Incidence of Breast Cancer in Germany
5.3.3. Incidence of Breast Cancer Cases by Menopausal Status in Germany
5.3.4. Stage Specific Incidence of Breast Cancer in Post-Menopausal Women in Germany
5.3.5. Stage Specific Diagnosed Incidence of Breast Cancer in Post-Menopausal Women in Germany
5.3.6. Diagnosed Incidence of Early Stage Breast Cancer in Post menopause by Molecular Subtype in Germany
5.3.7. Diagnosed Incidence of Locally Advanced and Metastatic Breast Cancer in Post menopause by Molecular Subtype in Germany
5.4. France
5.4.1. Assumptions and Rationale
5.4.2. Total Incidence of Breast Cancer in France
5.4.3. Incidence of Breast Cancer Cases by Menopausal Status in France
5.4.4. Stage Specific Incidence of Breast Cancer in Post-Menopausal Women in France
5.4.5. Stage Specific Diagnosed Incidence of Breast Cancer in Post-Menopausal Women in France
5.4.6. Diagnosed Incidence of Early Stage Breast Cancer in Post menopause by Molecular Subtype in France
5.4.7. Diagnosed Incidence of Locally Advanced and Metastatic Breast Cancer in Post menopause by Molecular Subtype in France
5.5. Italy
5.5.1. Assumptions and Rationale
5.5.2. Total Incidence of Breast Cancer in Italy
5.5.3. Incidence of Breast Cancer Cases by Menopausal Status in Italy
5.5.4. Stage Specific Incidence of Breast Cancer in Post-Menopausal Women in Italy
5.5.5. Stage Specific Diagnosed Incidence of Breast Cancer in Post-Menopausal Women in Italy
5.5.6. Diagnosed Incidence of Early Stage Breast Cancer in Post menopause by Molecular Subtype in Italy
5.5.7. Diagnosed Incidence of Locally Advanced and Metastatic Breast Cancer in Post menopause by Molecular Subtype in Italy
5.6. Spain
5.6.1. Assumptions and Rationale
5.6.2. Total Incidence of Breast Cancer in Spain
5.6.3. Incidence of Breast Cancer by Menopausal Status in Spain
5.6.4. Stage Specific Incidence of Breast Cancer in Post-Menopausal Women in Spain
5.6.5. Stage Specific Diagnosed Incidence of Breast Cancer in Post-Menopausal Women in Spain
5.6.6. Diagnosed Incidence of Early Stage Breast Cancer in Post menopause Cases by Molecular Subtype in Spain
5.6.7. Diagnosed Incidence of Locally Advanced and Metastatic Breast Cancer in Post menopause Cases by Molecular Subtype in Spain
5.7. The United Kingdom
5.7.1. Assumptions and Rationale
5.7.2. Total Incidence of Breast Cancer in the United Kingdom
5.7.3. Incidence of Breast Cancer Cases by Menopausal Status in the United Kingdom
5.7.4. Stage Specific Incidence of Breast Cancer in Post-Menopausal Women in the United Kingdom (2017–2028)
5.7.5. Stage Specific Diagnosed Incidence of Breast Cancer in Post-Menopausal Women in the United Kingdom
5.7.6. Diagnosed Incidence of Early Stage Breast Cancer in Post menopause by Molecular Subtype in the United Kingdom
5.7.7. Diagnosed Incidence of Locally Advanced and Metastatic Breast Cancer in Post menopause by Molecular Subtype in the United Kingdom
5.8. Japan
5.8.1. Assumptions and Rationale
5.8.2. Total Incidence of Breast Cancer in Japan
5.8.3. Incidence of Breast Cancer Cases by Menopausal Status in Japan
5.8.4. Stage Specific Incidence of Breast Cancer in Post-Menopausal Women in Japan (2017–2028)
5.8.5. Stage Specific Diagnosed Incidence of Breast Cancer in Post-Menopausal Women in the Japan
5.8.6. Diagnosed Incidence of Early Stage Breast Cancer in Post menopause by Molecular Subtype in Japan
5.8.7. Diagnosed Incidence of Locally Advanced and Metastatic Breast Cancer in Post menopause by Molecular Subtype in Japan
6. Treatment of Estrogen-Receptor (ER)-Positive Breast Cancer
6.1. Treatment Algorithm of Estrogen Receptor (ER)-Positive Breast Cancer
6.2. Treatment Guidelines for Estrogen-Receptor (ER) Positive Breast Cancer
6.2.1. American Society of Clinical Oncology (ASCO) Clinical Practice Guideline: Adjuvant Endocrine Therapy for Women with Hormone-receptor-positive Breast Cancer
6.2.2. Italian Association of Medical Oncology (AIOM): Adjuvant Endocrine Therapy in Premenopausal Patients with Hormone-receptor-positive Early Breast Cancer
6.2.3. The Japanese Breast Cancer Society: Clinical Practice Guideline for systemic treatment of breast cancer
7. Marketed Products
7.1. Ibrance (Palbociclib): Pfizer
7.1.1. Product Description
7.1.2. Regulatory Milestones
7.1.3. Clinical Development
7.1.4. Safety and efficacy
7.1.5. Product Profile
7.2. PIQRAY (Alpelisib; BYL719): Novartis
7.2.1. Product Description
7.2.2. Regulatory Milestones
7.2.3. Clinical Development
7.2.4. Safety and Efficacy
7.2.5. Product Profile
7.3. Lynparza (olaparib): AstraZeneca Pharmaceuticals
7.3.1. Product Description
7.3.2. Regulatory Milestones
7.3.3. Clinical Development
7.3.4. Safety and efficacy
7.3.5. Product Profile
7.4. Verzenio (Abemaciclib): Eli Lilly
7.4.1. Product Description
7.4.2. Regulatory Milestones
7.4.3. Clinical Development
7.4.4. Safety and efficacy
7.4.5. Product Profile
7.5. Kisqali (Ribociclib; LEE011): Novartis Pharmaceuticals
7.5.1. Description
7.5.2. Regulatory Milestones
7.5.3. Clinical Development
7.5.4. Safety and efficacy
7.5.5. Product Profile
7.6. Afinitor (Everolimus): Novartis
7.6.1. Product Description
7.6.2. Regulatory Milestones
7.6.3. Clinical Development
7.6.4. Safety and efficacy
7.6.5. Product Profile
7.7. Faslodex (Fulvestrant) Injection: AstraZeneca
7.7.1. Description
7.7.2. Regulatory Milestones
7.7.3. Clinical Development
7.7.4. Safety and efficacy
7.7.5. Product Profile
7.8. Arimidex (Anastrozole): AstraZeneca
7.8.1. Description
7.8.2. Regulatory Milestones
7.8.3. Clinical Development
7.8.4. Safety and efficacy
7.8.5. Product Profile
7.9. Aromasin (Exemestane): Pharmacia and Upjohn Company
7.9.1. Product Description
7.9.2. Regulatory Milestones
7.9.3. Clinical Development
7.9.4. Safety and Efficacy
7.9.5. Product Profile
7.10. Femara (Letrozole): Novartis Pharmaceuticals
7.10.1. Product Description
7.10.2. Regulatory Milestones
7.10.3. Clinical Development
7.10.4. Safety and efficacy
7.10.5. Product Profile
8. Unmet Needs
9. Emerging Drugs
9.1. Key Cross Competition
9.2. SHR6390: Jiangsu HengRui Medicine Co.
9.2.1. Product Description
9.2.2. Clinical Development
9.2.3. Safety and Efficacy
9.2.4. Product Profile
9.3. TESETAXEL: Odonate Therapeutics
9.3.1. Product Description
9.3.2. Other Development Activities
9.3.3. Clinical Development
9.3.4. Safety and Efficacy
9.3.5. Product Profile
9.4. RAD1901: Radius Pharmaceuticals
9.4.1. Product Description
9.4.2. Other Development Activities
9.4.3. Clinical Development
9.4.4. Safety and Efficacy
9.4.5. Product Profile
9.5. IMMU-132 (Sacituzumab Govitecan): Immunomedics
9.5.1. Product Description
9.5.2. Other Development Activities
9.5.3. Clinical Development
9.5.4. Product Profile
9.6. Ipatasertib (RG7440): Roche Group
9.6.1. Product Description
9.6.2. Other Development Activities
9.6.3. Clinical Development
9.6.4. Product Profile
9.7. Venclexta: Roche Group
9.7.1. Product Description
9.7.2. Other Development Activities
9.7.3. Clinical Development
9.7.4. Safety and Efficacy
9.7.5. Product Profile
9.8. Entinostat: Syndax Pharmaceuticals
9.8.1. Product Description
9.8.2. Other Developmental Activities
9.8.3. Clinical Development
9.8.4. Safety and Efficacy
9.8.5. Product Profile
9.9. Pembrolizumab (MK-3475): Merck Sharp and Dohme
9.9.1. Product Description
9.9.2. Other development Activities
9.9.3. Clinical Development
9.9.4. Product Profile
9.10. Eribulin Mesylate: Merck Sharp & Dohme Corp.
9.10.1. Product Description
9.10.2. Other development Activities
9.10.3. Clinical Development
9.10.4. Safety and Efficacy
9.10.5. Product Profile
9.11. MM-121: Merrimack Pharmaceuticals
9.11.1. Product Description
9.11.2. Other Development Activities
9.11.3. Clinical Development
9.11.4. Safety and Efficacy
9.11.5. Product Profile
9.12. GSK525762 (Molibresib): GlaxoSmithKline
9.12.1. Product Description
9.12.2. Other Development Activities
9.12.3. Clinical Development
9.12.4. Safety and Efficacy
9.12.5. Product Profile
9.13. SAPANISERTIB (TAK-228): Millennium Pharmaceuticals
9.13.1. Product Description
9.13.2. Other Development Activities
9.13.3. Clinical Development
9.13.4. Safety and Efficacy
9.13.5. Product Profile
9.14. Radium-223 dichloride: Bayer
9.14.1. Product Description
9.14.2. Other Development Activities
9.14.3. Clinical Development
9.14.4. Safety and Efficacy
9.14.5. Product Profile
9.15. EGL-5385-C-1701(fulvestrant): Eagle Pharmaceuticals
9.15.1. Product Description
9.15.2. Other Development Activities
9.15.3. Clinical Development
9.15.4. Product Profile
10. HR+/HER2- Post Menopause Breast Cancer: The 7 Major Market Analysis
10.1. Key Findings
10.2. Total Market Size of HR+/HER2-Post-menopausal Breast Cancer in the 7MM
10.3. Market Size of Current Therapies for HR-positive/HER2-negative Breast Cancer in the 7MM
10.4. Market Size of Emerging Therapies for HR-positive/HER2-negative Breast Cancer in the 7MM
10.5. First Line HR+/HER2- post-menopausal advanced & metastatic Breast Cancer Market Size: The 7MM
10.6. Second Line HR+/HER2- post-menopausal advanced & metastatic Breast Cancer Market Size: The 7MM
11. The United States Market Analysis
11.1. The United States Market Outlook
11.2. United States Market Size
11.2.1. Total Market Size of HR+/HER2-Post-menopausal Breast Cancer in the United States
11.2.2. Market Size of Current Therapies for HR-positive/HER2-negative Breast Cancer in the United States
11.2.3. Market Size of Emerging Therapies for HR-positive/HER2-negative Breast Cancer in the United States
11.2.4. First Line HR+/HER2- post-menopausal advanced & metastatic Breast Cancer Market Size: The United States
11.2.5. Second Line HR+/HER2- post-menopausal advanced & metastatic Breast Cancer Market Size: The United States
12. EU-5 Market Analysis
12.1. EU-5 Market Outlook
12.2. Germany Market Size
12.2.1. Total Market Size of HR+/HER2-Post-menopausal Breast Cancer in Germany
12.2.2. Market Size of Current Therapies for HR-positive/HER2-negative Breast Cancer in Germany
12.2.3. Market Size of Emerging Therapies for HR-positive/HER2-negative Breast Cancer in Germany
12.2.4. First Line HR+/HER2- post-menopausal advanced & metastatic Breast Cancer Market Size: Germany
12.2.5. Second Line HR+/HER2- post-menopausal advanced & metastatic Breast Cancer Market Size: Germany
12.3. France Market Size
12.3.1. Total Market Size of HR+/HER2-Post-menopausal Breast Cancer in France
12.3.2. Market Size of Current Therapies for HR-positive/HER2-negative Breast Cancer in France
12.3.3. Market Size of Emerging Therapies for HR-positive/HER2-negative Breast Cancer in France
12.3.4. First Line HR+/HER2- post-menopausal advanced & metastatic Breast Cancer Market Size: France
12.3.5. Second Line HR+/HER2- post-menopausal advanced & metastatic Breast Cancer Market Size: France
12.4. Italy Market Size
12.4.1. Total Market Size of HR+/HER2-Post-menopausal Breast Cancer in Italy
12.4.2. Market Size of Current Therapies for HR-positive/HER2-negative Breast Cancer in Italy
12.4.3. Market Size of Emerging Therapies for HR-positive/HER2-negative Breast Cancer in Italy
12.4.4. First Line HR+/HER2- post-menopausal advanced & metastatic Breast Cancer Market Size: Italy
12.4.5. Second Line HR+/HER2- post-menopausal advanced & metastatic Breast Cancer Market Size: Italy
12.5. Spain Market Size
12.5.1. Total Market Size of HR+/HER2-Post-menopausal Breast Cancer in Spain
12.5.2. Market Size of Current Therapies for HR-positive/HER2-negative Breast Cancer in Spain
12.5.3. Market Size of Emerging Therapies for HR-positive/HER2-negative Breast Cancer in Spain
12.5.4. First Line HR+/HER2- post-menopausal advanced & metastatic Breast Cancer Market Size: Spain
12.5.5. Second Line HR+/HER2- post-menopausal advanced & metastatic Breast Cancer Market Size: Spain
12.6. The United Kingdom Market Size
12.6.1. Total Market Size of HR+/HER2-Post-menopausal Breast Cancer in the United Kingdom
12.6.2. Market Size of Current Therapies for HR-positive/HER2-negative Breast Cancer in the United Kingdom
12.6.3. Market Size of Emerging Therapies for HR-positive/HER2-negative Breast Cancer in the United Kingdom
12.6.4. First Line HR+/HER2- post-menopausal advanced & metastatic Breast Cancer Market Size: The United Kingdom
12.6.5. Second Line HR+/HER2- post-menopausal advanced & metastatic Breast Cancer Market Size: The United Kingdom
13. Japan Market Outlook
13.1. Japan Market Size
13.1.1. Total Market Size of HR+/HER2-Post-menopausal Breast Cancer in Japan
13.1.2. Market Size of Current Therapies for HR-positive/HER2-negative Breast Cancer in Japan
13.1.3. Market Size of Emerging Therapies for HR-positive/HER2-negative Breast Cancer in Japan
13.1.4. First Line HR+/HER2- post-menopausal advanced & metastatic Breast Cancer Market Size: Japan
13.1.5. Second Line HR+/HER2- post-menopausal advanced & metastatic Breast Cancer Market Size: Japan
14. Market Drivers
15. Market Barriers
16. Appendix
16.1. Report Methodology
17. DelveInsight Capabilities
18. Disclaimer
19. About DelveInsight
List of Figures, Tables and Charts Available in Hormone Receptor (HR)-positive/ Human Epidermal Receptor 2 (HER2)-negative Breast Cancer- Market Insights, Epidemiology and Market Forecast–2028
Table 1: Total Incidence of Breast Cancer in the 7MM (2017–2028)Table 2: Diagnosed Incidence of HR+/HER2- post-menopausal early stage Breast Cancer in the 7MM (2017–2028)
Table 3: Diagnosed Incidence of HR+/HER2- post-menopausal advanced and metastatic stage Breast Cancer in the 7MM
Table 4: Total Diagnosed Incidence of HR+/HER2- post-menopausal Breast Cancer in the 7MM
Table 5: Total Incidence of Breast Cancer in the United States (2017–2028)
Table 6: Incidence of Breast Cancer by Menopausal Status in the United States (2017–2028)
Table 7: Stage Specific Incidence of Breast Cancer in Post-Menopausal Women in the United States (2017–2028)
Table 8: Stage Specific Diagnosed Incidence of Breast Cancer in Post-Menopausal Women in the United States (2017–2028)
Table 9: Diagnosed Incidence of Early Stage Breast Cancer in Post menopause by Molecular Subtype in the United States (2017–2028)
Table 10: Diagnosed Incidence of Locally Advanced and Metastatic Breast Cancer in Post menopause by Molecular Subtype in the United States (2017–2028)
Table 11: Incidence of Breast Cancer in Germany (2017–2028)
Table 12: Incidence of Breast Cancer by Menopausal Status in Germany (2017–2028)
Table 13: Stage Specific Incidence of Breast Cancer in Post-Menopausal Women in Germany (2017–2028)
Table 14: Stage Specific Diagnosed Incidence of Breast Cancer in Post-Menopausal Women in Germany (2017–2028)
Table 15: Diagnosed Incidence of Early Stage Breast Cancer in Post menopause by Molecular Subtype Cases in Germany (2017–2028)
Table 16: Diagnosed Incidence of Locally Advanced and Metastatic Breast Cancer in Post menopause by Molecular Subtype Cases in Germany (2017–2028)
Table 17: Total Incidence of Breast Cancer in France (2017–2028)
Table 18: Incidence of Breast Cancer by Menopausal Status in France (2017–2028)
Table 19: Stage Specific Incidence of Breast Cancer in Post-Menopausal Women in France (2017–2028)
Table 20: Stage Specific Diagnosed Incidence of Breast Cancer in Post-Menopausal Women in France (2017–2028)
Table 21: Diagnosed Incidence of Early Stage Breast Cancer in Post menopause by Molecular Subtype in France (2017–2028)
Table 22: Diagnosed Incidence of Locally Advanced and Metastatic Breast Cancer in Post menopause by Molecular Subtype in France (2017–2028)
Table 23: Total Incidence of Breast Cancer in Italy (2017–2028)
Table 24: Incidence of Breast Cancer by Menopausal Status in Italy (2017–2028)
Table 25: Stage Specific Incidence of Breast Cancer in Post-Menopausal Women in Italy (2017–2028)
Table 26: Stage Specific Diagnosed Incidence of Breast Cancer in Post-Menopausal Women in Italy (2017–2028)
Table 27: Diagnosed Incidence of Early Stage Breast Cancer in Post menopause by Molecular Subtype in Italy (2017–2028)
Table 28: Diagnosed Incidence of Locally Advanced and Metastatic Breast Cancer in Post menopause by Molecular Subtype in Italy (2017–2028)
Table 29: Total Incidence of Breast Cancer in Spain (2017–2028)
Table 30: Incidence of Breast Cancer by Menopausal Status in Spain (2017–2028)
Table 31: Stage Specific Incidence of Breast Cancer in Post-Menopausal Women in Spain (2017–2028)
Table 32: Stage Specific Diagnosed Incidence of Breast Cancer in Post-Menopausal Women in Spain (2017–2028)
Table 33: Diagnosed Incidence of Early Stage Breast Cancer in Post-Menopausal by Molecular Subtype in Spain (2017–2028)
Table 34: Diagnosed Incidence of Locally Advanced and Metastatic Breast Cancer in Post-Menopausal by Molecular Subtype in Spain (2017–2028)
Table 35: Total Incidence of Breast Cancer in the United Kingdom (2017–2028)
Table 36: Incidence of Breast Cancer by Menopausal Status in the United Kingdom (2017–2028)
Table 37: Stage Specific Incidence of Breast Cancer in Post-Menopausal Women in the UK (2017–2028)
Table 38: Stage Specific Diagnosed Incidence of Breast Cancer in Post-Menopausal Women in the UK (2017–2028)
Table 39: Diagnosed Incidence of Early Stage Breast Cancer in Post-Menopausal by Molecular Subtype in the United Kingdom (2017–2028)
Table 40: Diagnosed Incidence of Locally Advanced and Metastatic Breast Cancer in Post-Menopausal by Molecular Subtype in the United Kingdom (2017–2028)
Table 41: Total Incidence of Breast Cancer in Japan (2017–2028)
Table 42: Incidence of Breast Cancer by Menopausal Status in Japan (2017–2028)
Table 43: Stage Specific Incidence of Breast Cancer in Post-Menopausal Women in Japan (2017–2028)
Table 44: Stage Specific Diagnosed Incidence of Breast Cancer in Post-Menopausal Women in the Japan (2017–2028)
Table 45: Diagnosed Incidence of Early Stage Breast Cancer in Post-Menopausal by Molecular Subtype in Japan (2017–2028)
Table 46: Diagnosed Incidence of Locally Advanced and Metastatic Breast Cancer in Post-Menopausal by Molecular Subtype in Japan (2017–2028)
Table 47: Classification of Aromatase Inhibitors
Table 48: Summary of All Recommendations (Original Recommendations and Focused Update Recommendations)
Table 49: Ibrance, Clinical Trial Description, 2019
Table 50: PIQRAY, Clinical Trial Description, 2019
Table 51: Olaparib, Clinical Trial Description, 2019
Table 52: Verzenio, Clinical Trial Description, 2019
Table 53: KISQALI, Clinical Trial Description, 2019
Table 54: Faslodex, Clinical Trial Description, 2019
Table 55: Arimidex, Clinical Trial Description, 2019
Table 56: SHR6390, Clinical Trial Description, 2019
Table 57:, Tesetaxel, Clinical Trial Description, 2019
Table 58: Elacestrant (RAD1901), Clinical Trial Description, 2019
Table 59: IMMU-132, Clinical Trial Description, 2019
Table 60: Ipatasertib, Clinical Trial Description, 2019
Table 61: Venetoclax, Clinical Trial Description, 2019
Table 62: Entinostat, Clinical Trial Description, 2019
Table 63: Pembrolizumab, Clinical Trial Description, 2019
Table 64: Eribulin Mesylate, Clinical Trial Description, 2019
Table 65: Seribantumab, Clinical Trial Description, 2019
Table 66: GSK525762 (Molibresib), Clinical Trial Description, 2019
Table 67: TAK-228 (INK128, MLN0128), Clinical Trial Description, 2019
Table 68: Radium 223 dichloride (BAY88-8223), Clinical Trial Description, 2019
Table 69: EGL-5385-C-1701(fulvestrant): Clinical Trial Description, 2019
Table 70: Total Market Size of HR+/HER2-Post-menopausal Breast Cancer in the 7MM, USD Millions (2017–2028)
Table 71: 7MM Market Size of HR+/HER2-Post-menopausal Breast Cancer by Current Therapies, in USD Million (2017–2028)
Table 72:7MM Market Size of HR+/HER2-Post-menopausal Breast Cancer by Emerging Therapies, in USD Million (2017–2028)
Table 73: First Line HR+/HER2- post-menopausal advanced & metastatic Breast Cancer Market Size: The 7MM, in USD Million (2017–2028)
Table 74: Second Line HR+/HER2- post-menopausal advanced & metastatic Breast Cancer Market Size: The 7MM, in USD Million (2017–2028)
Table 75: Novel drugs recently approved for treating HR-positive/ HER2-negative Breast Cancer
Table 76: Expected Launch Date of Emerging Drugs in the United States
Table 77: Total Market Size of HR+/HER2-Post-menopausal Breast Cancer in the United States, USD Millions (2017–2028)
Table 78: United States Market Size of HR+/HER2-Post-menopausal Breast Cancer by Current Therapies, in USD Million (2017–2028)
Table 79:United States Market Size of HR+/HER2-Post-menopausal Breast Cancer by Emerging Therapies, in USD Million (2017–2028)
Table 80: First Line HR+/HER2- post-menopausal advanced & metastatic Breast Cancer Market Size: The United States, in USD Million (2017–2028)
Table 81: Second Line HR+/HER2- post-menopausal advanced & metastatic Breast Cancer Market Size: The United States, in USD Million (2017–2028)
Table 82: Expected Launch Date of Emerging Drugs in EU-5 Countries
Table 83: Total Market Size of HR+/HER2-Post-menopausal Breast Cancer in the United States, USD Millions (2017–2028)
Table 84: Germany Market Size of HR+/HER2-Post-menopausal Breast Cancer by Current Therapies, in USD Million (2017–2028)
Table 85:Germany Market Size of HR+/HER2-Post-menopausal Breast Cancer by Emerging Therapies, in USD Million (2017–2028)
Table 86: First Line HR+/HER2- post-menopausal advanced & metastatic Breast Cancer Market Size: Germany, in USD Million (2017–2028)
Table 87: Second Line HR+/HER2- post-menopausal advanced & metastatic Breast Cancer Market Size: Germany, in USD Million (2017–2028)
Table 88: Total Market Size of HR+/HER2-Post-menopausal Breast Cancer in France, USD Millions (2017–2028)
Table 89: France Market Size of HR+/HER2-Post-menopausal Breast Cancer by Current Therapies, in USD Million (2017–2028)
Table 90: First Line HR+/HER2- post-menopausal advanced & metastatic Breast Cancer Market Size: France, in USD Million (2017–2028)
Table 91: Second Line HR+/HER2- post-menopausal advanced & metastatic Breast Cancer Market Size: France, in USD Million (2017–2028)
Table 92: Total Market Size of HR+/HER2-Post-menopausal Breast Cancer in Italy, USD Millions (2017–2028)
Table 93: Italy Market Size of HR+/HER2-Post-menopausal Breast Cancer by Current Therapies, in USD Million (2017–2028)
Table 94:Italy Market Size of HR+/HER2-Post-menopausal Breast Cancer by Emerging Therapies, in USD Million (2017–2028)
Table 95: First Line HR+/HER2- post-menopausal advanced & metastatic Breast Cancer Market Size: Italy, in USD Million (2017–2028)
Table 96: Second Line HR+/HER2- post-menopausal advanced & metastatic Breast Cancer Market Size: Italy, in USD Million (2017–2028)
Table 97: Total Market Size of HR+/HER2-Post-menopausal Breast Cancer in Spain, USD Millions (2017–2028)
Table 98: Spain Market Size of HR+/HER2-Post-menopausal Breast Cancer by Current Therapies, in USD Million (2017–2028)
Table 99:Spain Market Size of HR+/HER2-Post-menopausal Breast Cancer by Emerging Therapies, in USD Million (2017–2028)
Table 100: First Line HR+/HER2- post-menopausal advanced & metastatic Breast Cancer Market Size: Spain, in USD Million (2017–2028)
Table 101: Second Line HR+/HER2- post-menopausal advanced & metastatic Breast Cancer Market Size: Spain, in USD Million (2017–2028)
Table 102: Total Market Size of HR+/HER2-Post-menopausal Breast Cancer in the United Kingdom, USD Millions (2017–2028)
Table 103: The United Kingdom Market Size of HR+/HER2-Post-menopausal Breast Cancer by Current Therapies, in USD Million (2017–2028)
Table 104:The United Kingdom Market Size of HR+/HER2-Post-menopausal Breast Cancer by Emerging Therapies, in USD Million (2017–2028)
Table 105: First Line HR+/HER2- post-menopausal advanced & metastatic Breast Cancer Market Size: The United Kingdom, in USD Million (2017–2028)
Table 106: Second Line HR+/HER2- post-menopausal advanced & metastatic Breast Cancer Market Size: The United Kingdom, in USD Million (2017–2028)
Table 107: Expected Launch Date of Emerging Drugs in Japan
Table 108: Total Market Size of HR+/HER2-Post-menopausal Breast Cancer in Japan, USD Millions (2017–2028)
Table 109: Japan Market Size of HR+/HER2-Post-menopausal Breast Cancer by Current Therapies, in USD Million (2017–2028)
Table 110:Japan Market Size of HR+/HER2-Post-menopausal Breast Cancer by Emerging Therapies, in USD Million (2017–2028)
Table 111: First Line HR+/HER2- post-menopausal advanced & metastatic Breast Cancer Market Size: Japan, in USD Million (2017–2028)
Table 112: Second Line HR+/HER2- post-menopausal advanced & metastatic Breast Cancer Market Size: Japan, in USD Million (2017–2028)
Figure 1: Molecular Subtypes of Breast Cancer
Figure 2: Working of Estrogen Receptor
Figure 3: Schematic Structure of the Estrogen Receptor (ER) Depicting Six Domains.
Figure 4: ER pathway and mechanisms of resistance. Estrogen-bound estrogen receptor (ER), in association with a variety of coactivators and co-repressors, exerts its classical genomic action as a transcription factor through the estrogen response element (ERE) of target genes.
Figure 5: Metabolism of Estrogen Receptor-Positive Breast Cancer
Figure 6: Lifestyle-related Breast Cancer Risk Factors
Figure 7: Diagnosis of ER-Positive Breast Cancer
Figure 8: Assays for Measuring Estrogen and Progesterone Receptor
Figure 9: Essential Elements Required for Accurate Testing of ERa And PGr Status In Breast Cancer by Immunohistochemistry.
Figure 10: Total Incidence of Breast Cancer in the 7MM (2017–2028)
Figure 11:Diagnosed Incidence of HR+/HER2- post-menopausal early stage Breast Cancer in the 7MM (2017–2028)
Figure 12: Diagnosed Incidence of HR+/HER2- post-menopausal advanced and metastatic stage Breast Cancer in the 7MM
Figure 13: Total Diagnosed Incidence of HR+/HER2- post-menopausal Breast Cancer in the 7MM
Figure 14: Total Incidence of Breast Cancer in the United States (2017–2028)
Figure 15: Incidence of Breast Cancer Cases by Menopausal Status in the United States (2017–2028)
Figure 16: Stage Specific Incidence of Breast Cancer in Post-Menopausal Women in the United States (2017–2028)
Figure 17: Stage Specific Diagnosed Incidence of Breast Cancer in Post-Menopausal Women in the United States (2017–2028)
Figure 18: Diagnosed Incidence of Early Stage Breast Cancer in Post-Menopausal by Molecular Subtype in the United States (2017–2028)
Figure 19: Diagnosed Incidence of Locally Advanced and Metastatic Breast Cancer in Post-Menopausal by Molecular Subtype in the United States (2017–2028)
Figure 20: Total Incidence of Breast Cancer in Germany (2017–2028)
Figure 21: Incidence of Breast Cancer Cases by Menopausal Status in Germany (2017–2028)
Figure 22: Stage Specific Incidence of Breast Cancer in Post-Menopausal Women in Germany (2017–2028)
Figure 23: Stage Specific Diagnosed Incidence of Breast Cancer in Post-Menopausal Women in Germany (2017–2028)
Figure 24: Diagnosed Incidence of Early Stage Breast Cancer in Post-Menopausal by Molecular Subtype Cases in Germany (2017–2028)
Figure 25: Diagnosed Incidence of Locally Advanced and Metastatic Breast Cancer in Post-Menopausal by Molecular Subtype Cases in Germany (2017–2028)
Figure 26: Total Incidence of Breast Cancer in France (2017–2028)
Figure 27: Incidence of Breast Cancer Cases by Menopausal Status in France (2017–2028)
Figure 28: Stage Specific Incidence of Breast Cancer in Post-Menopausal Women in France (2017–2028)
Figure 29: Stage Specific Diagnosed Incidence of Breast Cancer in Post-Menopausal Women in France (2017–2028)
Figure 30: Diagnosed Incidence of early Stage Breast Cancer in Post-Menopausal by Molecular Subtype in France (2017–2028)
Figure 31: Diagnosed Incidence of Locally Advanced and Metastatic Breast Cancer in Post-Menopausal by Molecular Subtype in France (2017–2028)
Figure 32: Total Incidence of Breast Cancer in Italy (2017–2028)
Figure 33: Incidence of Breast Cancer Cases by Menopausal Status in Italy (2017–2028)
Figure 34: Stage Specific Incidence of Breast Cancer in Post-Menopausal Women in Italy (2017–2028)
Figure 35: Stage Specific Diagnosed Incidence of Breast Cancer in Post-Menopausal Women in Italy (2017–2028)
Figure 36: Diagnosed Incidence of Early Stage Breast Cancer in Post-Menopausal by Molecular Subtype in Italy (2017–2028)
Figure 37: Diagnosed Incidence of Locally Advanced and Metastatic Breast Cancer in Post-Menopausal by Molecular Subtype in Italy (2017–2028)
Figure 38: Total Incidence of Breast Cancer in Spain (2017–2028)
Figure 39: Incidence of Breast Cancer by Menopausal Status in Spain (2017–2028)
Figure 40: Stage Specific Incidence of Breast Cancer in Post-Menopausal Women in Spain (2017–2028)
Figure 41: Stage Specific Diagnosed Incidence of Breast Cancer in Post-Menopausal Women in Spain (2017–2028)
Figure 42: Diagnosed Incidence of Early Stage Breast Cancer in Post-Menopausal Cases by Molecular Subtype in Spain (2017–2028)
Figure 43: Diagnosed Incidence of Locally Advanced and Metastatic Breast Cancer in Post-Menopausal Cases by Molecular Subtype in Spain (2017–2028)
Figure 44: Total Incidence of Breast Cancer in the United Kingdom (2017–2028)
Figure 45: Incidence of Breast Cancer Cases by Menopausal Status in the United Kingdom (2017–2028)
Figure 46: Stage Specific Incidence of Breast Cancer in Post-Menopausal Women in the UK (2017–2028)
Figure 47: Stage Specific Diagnosed Incidence of Breast Cancer in Post-Menopausal Women in the UK (2017–2028)
Figure 48: Diagnosed Incidence of Early Stage Breast Cancer in Post-Menopausal by Molecular Subtype in the United Kingdom (2017–2028)
Figure 49: Diagnosed Incidence of Locally Advanced and Metastatic Breast Cancer in Post-Menopausal by Molecular Subtype in the United Kingdom (2017–2028)
Figure 50: Total Incidence of Breast Cancer in Japan (2017–2028)
Figure 51: Incidence of Breast Cancer Cases by Menopausal Status in Japan (2017–2028)
Figure 52: Stage Specific Incidence of Breast Cancer in Post-Menopausal Women in Japan2017–2028)
Figure 53: Stage Specific Diagnosed Incidence of Breast Cancer in Post-Menopausal Women in the Japan (2017–2028)
Figure 54: Diagnosed Incidence of Early Stage Breast Cancer in Post-Menopausal by Molecular Subtype in Japan (2017–2028)
Figure 55: Diagnosed Incidence of Locally Advanced and Metastatic Breast Cancer in Post-Menopausal by Molecular Subtype in Japan (2017–2028)
Figure 56: Endocrine Therapy for Breast Cancer
Figure 57: Mechanisms of action of different hormone therapy agents like SERMs, SERDs, AIs, and LHRH analogs. Hormones have shown in this picture: Follicle-Stimulating Hormone (FSH) and Luteinizing Hormone (LH).
Figure 58: Picture showing a few molecules and molecular pathways that are involved in the induction of hormone therapy resistance in Estrogen Receptor-Positive Breast Cancer Cells.
Figure 59: Treatment Algorithm for Patients With Hormone Receptor–Positive, HER2 (Human Epidermal Growth Factor Receptor 2)–Negative Metastatic Breast Cancer.
Figure 60: Treatment Algorithm for Endocrine Therapy for Hormone-receptor-positive Metastatic Breast Cancer
Figure 61: Unmet Needs
Figure 62: Total Market Size of HR+/HER2-Post-menopausal Breast Cancer in the 7MM, USD Millions (2017–2028)
Figure 63: 7MM Market Size of HR+/HER2-Post-menopausal Breast Cancer by Current Therapies, in USD Million (2017–2028)
Figure 64: 7MM Market Size of HR+/HER2-Post-menopausal Breast Cancer by Emerging Therapies, in USD Million (2017–2028)
Figure 65: First Line HR+/HER2- post-menopausal advanced & metastatic Breast Cancer Market Size: The 7MM, in USD Million (2017–2028)
Figure 66: Second Line HR+/HER2- post-menopausal advanced & metastatic Breast Cancer Market Size: The 7MM, in USD Million (2017–2028)
Figure 67: Total Market Size of HR+/HER2-Post-menopausal Breast Cancer in the United States, USD Millions (2017–2028)
Figure 68: United States Market Size of HR+/HER2-Post-menopausal Breast Cancer by Current Therapies, in USD Million (2017–2028)
Figure 69: United States Market Size of HR+/HER2-Post-menopausal Breast Cancer by Emerging Therapies, in USD Million (2017–2028)
Figure 70: First Line HR+/HER2- post-menopausal advanced & metastatic Breast Cancer Market Size: The United States, in USD Million (2017–2028)
Figure 71: Second Line HR+/HER2- post-menopausal advanced & metastatic Breast Cancer Market Size: The United States, in USD Million (2017–2028)
Figure 72: Total Market Size of HR+/HER2-Post-menopausal Breast Cancer in Germany, USD Millions (2017–2028)
Figure 73: Germany Market Size of HR+/HER2-Post-menopausal Breast Cancer by Current Therapies, in USD Million (2017–2028)
Figure 74: Germany Market Size of HR+/HER2-Post-menopausal Breast Cancer by Emerging Therapies, in USD Million (2017–2028)
Figure 75: First Line HR+/HER2- post-menopausal advanced & metastatic Breast Cancer Market Size: Germany, in USD Million (2017–2028)
Figure 76: Second Line HR+/HER2- post-menopausal advanced & metastatic Breast Cancer Market Size: Germany, in USD Million (2017–2028)
Figure 77: Total Market Size of HR+/HER2-Post-menopausal Breast Cancer in France, USD Millions (2017–2028)
Figure 78: France Market Size of HR+/HER2-Post-menopausal Breast Cancer by Current Therapies, in USD Million (2017–2028)
Figure 79: France Market Size of HR+/HER2-Post-menopausal Breast Cancer by Emerging Therapies, in USD Million (2017–2028)
Figure 80: First Line HR+/HER2- post-menopausal advanced & metastatic Breast Cancer Market Size: France, in USD Million (2017–2028)
Figure 81: Second Line HR+/HER2- post-menopausal advanced & metastatic Breast Cancer Market Size: France, in USD Million (2017–2028)
Figure 82: Total Market Size of HR+/HER2-Post-menopausal Breast Cancer in Italy, USD Millions (2017–2028)
Figure 83: Italy Market Size of HR+/HER2-Post-menopausal Breast Cancer by Current Therapies, in USD Million (2017–2028)
Figure 84: Italy Market Size of HR+/HER2-Post-menopausal Breast Cancer by Emerging Therapies, in USD Million (2017–2028)
Figure 85: First Line HR+/HER2- post-menopausal advanced & metastatic Breast Cancer Market Size: Italy, in USD Million (2017–2028)
Figure 86: Second Line HR+/HER2- post-menopausal advanced & metastatic Breast Cancer Market Size: Italy, in USD Million (2017–2028)
Figure 87: Total Market Size of HR+/HER2-Post-menopausal Breast Cancer in Spain, USD Millions (2017–2028)
Figure 88: Spain Market Size of HR+/HER2-Post-menopausal Breast Cancer by Current Therapies, in USD Million (2017–2028)
Figure 89: Spain Market Size of HR+/HER2-Post-menopausal Breast Cancer by Emerging Therapies, in USD Million (2017–2028)
Figure 90: First Line HR+/HER2- post-menopausal advanced & metastatic Breast Cancer Market Size: Spain, in USD Million (2017–2028)
Figure 91: Second Line HR+/HER2- post-menopausal advanced & metastatic Breast Cancer Market Size: Spain, in USD Million (2017–2028)
Figure 92: Total Market Size of HR+/HER2-Post-menopausal Breast Cancer in the United Kingdom, USD Millions (2017–2028)
Figure 93: The United Kingdom Market Size of HR+/HER2-Post-menopausal Breast Cancer by Current Therapies, in USD Million (2017–2028)
Figure 94: The United Kingdom Market Size of HR+/HER2-Post-menopausal Breast Cancer by Emerging Therapies, in USD Million (2017–2028)
Figure 95: First Line HR+/HER2- post-menopausal advanced & metastatic Breast Cancer Market Size: The United Kingdom, in USD Million (2017–2028)
Figure 96: Second Line HR+/HER2- post-menopausal advanced & metastatic Breast Cancer Market Size: The United Kingdom, in USD Million (2017–2028)
Figure 97: Total Market Size of HR+/HER2-Post-menopausal Breast Cancer in Japan, USD Millions (2017–2028)
Figure 98: Japan Market Size of HR+/HER2-Post-menopausal Breast Cancer by Current Therapies, in USD Million (2017–2028)
Figure 99: Japan Market Size of HR+/HER2-Post-menopausal Breast Cancer by Emerging Therapies, in USD Million (2017–2028)
Figure 100: First Line HR+/HER2- post-menopausal advanced & metastatic Breast Cancer Market Size: Japan, in USD Million (2017–2028)
Figure 101: Second Line HR+/HER2- post-menopausal advanced & metastatic Breast Cancer Market Size: Japan, in USD Million (2017–2028)
Figure 102: Market Drivers
Figure 103: Market Barriers
Keyplayers in Hormone Receptor (HR)-positive/ Human Epidermal Receptor 2 (HER2)-negative Breast Cancer- Market Insights, Epidemiology and Market Forecast–2028
• Pfizer• Novartis
• AstraZeneca Pharmaceuticals
• Eli Lilly
• Novartis Pharmaceuticals
• Novartis
• AstraZeneca
• AstraZeneca
• Pharmacia and Upjohn Company
• Novartis Pharmaceuticals
• Jiangsu HengRui Medicine Co.
• Odonate Therapeutics
• Radius Pharmaceuticals
• Immunomedics
• Roche Group
• Roche Group
• Syndax Pharmaceuticals
• Merck Sharp and Dohme
• Merck Sharp & Dohme Corp.
• Merrimack Pharmaceuticals
• GlaxoSmithKline
• Millennium Pharmaceuticals
• Bayer
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