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Global Metastatic Cancer Drug Market, Dosage, Price & Clinical Pipeline Outlook 2024

March 2018 | 330 pages | ID: G14917E276BEN
Kuick Research

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“Global Metastatic Cancer Drug Market, Dosage, Price & Clinical Pipeline Outlook 2024” Report Highlights:
  • Drug Patent, Availability, Price & Dosage Analysis
  • Market Analysis of Metastatic Cancer
  • Management Approaches for Metastatic Cancer by Type
  • Global Cancer Metastases Clinical Pipeline Overview: 66 Drugs
  • Marketed Cancer Metastases Drugs Clinical Insight: 14 Drugs
  • Future Perspective of Metastatic Cancer Market
Cancer is a complex disease which results in uncontrolled cell growth in any region or organ of the body. Cancer is segmented into different stages depending upon the spread of tumor cells within the body. Primary stages of cancer involve the uncontrolled growth of cancer cells within a confined region or organ of a body. In further stages, cancer either returns to other organs after being treated in one organ or cancer cells metastasizes or moves from one organ to other. Such conditions are termed as metastatic cancers. For instance, re-occurrence of Breast cancer or metastasis of Breast Cancer to lungs is not called Lung cancer but is known and treated as stage-IV breast cancer.

In 2017, 600920 deaths occurred due to metastatic cancers in US alone. In developing countries, the death rates due to metastatic cancers are even higher due to lack of early stage diagnosis of cancer. Earlier, lesser therapies were available for increasing the period of progression free survival of patients with metastatic cancers and the metastatic cancer market was not clearly differentiated from overall cancer therapy market.

However, a clear segment of Metastatic Cancer Therapy Market has emerged in last few years with the arrival of products like Provenge which is vaccine specifically indicated for metastatic Prostate cancer. Additionally, several commercially available immunotherapeutics were also included in this segment of the market such as Avastin, Herceptin, and Denosumab along with targeted drugs like Afatinib, Gefitinib, and Erlotinib etc. for metastatic breast and lung cancer respectively. Metastatic cancer therapy market is further segmented into each type of metastatic cancer such as lung cancer, breast cancer, prostate cancer, brain tumor and several others which are the most common types of cancers globally indicating a large target patient base of this segment of the market.

High medical needs of patients with metastatic cancers have fuelled global metastatic cancer therapy market at an impressive average 8 CAGR calculated on the basis of the market growth for each indication. Currently the global metastatic cancer therapy market is well flourished with more than 10 unique products including advance cancer therapies like targeted therapy, cancer vaccines, immunotherapies and some modern versions of chemotherapies like Jevtana. Additionally, more than 60 products are currently in the later phases of clinical pipeline with almost 60% in phase-III and 37% in phase-I & II of the clinical trial.

The global metastatic cancer therapy market is growing significantly with increasing sales of some major drugs like an Eli Lilly product Alimta with average sales of US$ 2.5 Billion per year; Prolia by Amgen having US$ 1.9 Billion sales in just 9 months of 2017; Products of Roche Avastin and Herceptin are the top selling drugs of this segment having sales of US$ 5.2 Billion & US$ 5.4 Billion respectively in the year 2017.

Involvement of several large scale pharmaceutical countries clearly suggests that global metastatic cancer therapy market is a highly recognized segment of the cancer therapy market which has attracted the private and public sectors for huge investments and funding resulting in high market size of the segment. Additionally, successive collaborations between large scale and small scale biotech firms, academia and pharmaceutical companies have resulted into entrance of a wide range of unique products in metastatic cancer therapy market.

The global metastatic cancer therapy market can be segmented by regions into dominant areas like North America, Japan and South Korea with wide availability of a range of unique products in the market. On the other hand, highly populated regions like China and India have an opportunistic market for metastatic cancer therapies as the early stage cancer diagnostic market has recently emerged, thus there is a presence of large population living with later stages of cancer. Moreover, India is already developing vaccines and immunotherapies for metastatic cancer to decrease the mortality rates in the country which will further boost the market by products.

KuicK Research has analyzed the current and future global metastatic cancer therapy market by studying data related to sales of the products present in this market, prevalence and availability based target-patients in different regions of the world to provide an accurate forecast of the market. The report also includes price, dosage and efficiency analysis of all the products which aids in suggesting the future consumer acceptance and major contributors of the market.
1. CANCER METASTASIS: NEW PERSPECTIVES OF OLD PROBLEM

1.1 Overview to Cancer
  1.1.1 Process of Metastatic Cancer
  1.1.2 Risk Factors Involved for the Metastasis of Cancer
1.2 Genes Involved in Metastasis of Cancer

2. METASTATIC LUNG CANCER

2.1 Introduction
2.2 Management Approaches for Metastatic Lung Cancer
2.3 Advancements in the Treatment of Metastatic Lung Cancer

3. METASTATIC BONE CANCER

3.1 Introduction
3.2 Management Approaches of Metastatic Bone Cancer

4. METASTATIC BREAST CANCER

4.1 Overview
4.2 Management Methods for Metastatic Breast Cancer
4.3 Ongoing Advancements in Metastatic Breast Cancer Treatment

5. METASTATIC LIVER CANCER

5.1 Introduction
5.2 Management Approaches of Metastatic Liver Cancer

6. METASTATIC BRAIN CANCER

6.1 Outline
6.2 Management Methods for Metastatic Brain Tumor
6.3 Developments in Metastatic Brain Tumors

7. METASTATIC PROSTATE CANCER

7.1 Introduction
7.2 Management of Metastatic Prostate Cancer
7.3 Recent Advances in Metastatic Prostate Cancer Treatment

8. PROCESS OF METASTASIS IN OTHER DIFFERENT TYPES OF CANCERS

8.1 Ovarian Cancer
8.2 Thyroid Cancer
8.3 Pancreatic Cancer

9. PATENT, AVAILABILITY, PRICE & DOSAGE ANALYSIS OF METASTATIC LUNG CANCER THERAPEUTICS

9.1 Targeted Drugs
  9.1.1 Erlotinib (Tarceva)
  9.1.2 Gefitinib (Iressa)
  9.1.3 Afatinib (Gilotrif)
9.2 Chemotherapy Drugs
  9.2.1 Cisplatin
  9.2.2 Topotecan (Hycamtin)
  9.2.3 Pemetrexed (Alimta)

10. PATENT, AVAILABILITY, PRICE & DOSAGE ANALYSIS OF METASTATIC BONE CANCER THERAPEUTICS

10.1 Denosumab
10.2 Radium
10.3 Zoledronic acid

11. PATENT, AVAILABILITY, PRICE & DOSAGE ANALYSIS OF METASTATIC BREAST CANCER THERAPEUTICS

11.1 Chemotherapy Drugs
  11.1.1 Capecitabine
  11.1.2 Eribulin (Halaven)
  11.1.3 Ixabepilone (Ixempra)
11.2 Targeted Therapy Drugs
  11.2.1 Avastin (Bevacizumab)
  11.2.2 Herceptin

12. PATENT, AVAILABILITY, PRICE & DOSAGE ANALYSIS OF METASTATIC LIVER CANCER THERAPEUTICS

12.1 Sorafenib (Nexavar)
12.2 Melphalan (Alkeran)

13. PATENT, AVAILABILITY, PRICE & DOSAGE ANALYSIS OF METASTATIC PROSTATE CANCER THERAPEUTICS

13.1 Taxotere (Docetaxel)
13.2 Jevtana (Cabazitaxel)
13.3 Provenge (Sipuleucel-T)

14. MARKET ANALYSIS OF METASTATIC CANCER

14.1 Current Market Growth of Metastatic Cancer by its Types
14.2 Global Sales of Metastatic Cancers Drugs

15. MARKET DYNAMICS OF METASTATIC CANCER

15.1 Favorable Parameters
15.2 Challenges

16. FUTURE PERSPECTIVE OF METASTATIC CANCER MARKET

17. GLOBAL CANCER METASTASES CLINICAL PIPELINE OVERVIEW

18. GLOBAL CANCER METASTASES CLINICAL PIPELINE BY COMPANY, INDICATION & PHASE

18.1 Research
18.2 Preclinical
18.3 Clinical
18.4 Phase-0
18.5 Phase-I
18.6 Phase-I/II
18.7 Phase-II
18.8 Phase-III
18.9 Preregistration

19. MARKETED CANCER METASTASES DRUGS CLINICAL INSIGHT

19.1 Denosumab (PRALIA, Prolia, Ranmark & Xgeva)
19.2 Radium-223 Chloride (Alpharadin & Xofigo)
19.3 Zoledronic Acid (Aclasta, Reclast & Zometa)
19.4 Pamidronic Acid (Aminomux, Aredia & Panorin)
19.5 Clodronic Acid (Ascredar, Bonefos, Bonephos, Clasteon, Clastoban, Climaclod, Clodeosten, Clodron, Clodron beta, Clody, Difosfonal, Dolkin, Hemocalcin, Lodronat, Loron, Lytos, Mebonat, Moticlod, Nikclod, Ossiten, Ostac, Osteonorm, Osteostab & Sindronat)
19.6 Ibandronic Acid (Bondronat, Boniva & Bonviva)
19.7 Thiotepa (Tepadina & Thioplex)
19.8 Miltefosine (Impavido, Miltefosin & Miltex)
19.9 Irinotecan-Eluting Beads (DEBIRI & PARAGON Bead)
19.10 Melphalan Drug Delivery System (Delcath Hepatic CHEMOSAT Delivery System for Melphalan & Melblez Kit)
19.11 Ethiodised Oil (Lipiodol)
19.12 Zoledronic Acid - Sagent Pharmaceuticals
19.13 Tc 99m Besilesomab (Scintimun)
19.14 Mopidamol (Rapenton)

20. COMPETITIVE LANDSCAPE

20.1 Allergan
20.2 Amgen
20.3 Biocompatibles International
20.4 Boehringer Ingelheim Pharma
20.5 Celsion Corporation
20.6 DexTech Medical
20.7 Immune Pharmaceuticals
20.8 GlaxoSmithKline
20.9 Hospira
20.10 Insmed
20.11 Novartis
20.12 Pfizer
20.13 Roche

LIST OF FIGURES

Figure 1-1: Reasons for the Development of Cancer Cases (%)
Figure 1-2: Process Involved in the Metastasis of Cancer
Figure 1-3: Classes of Genes Participating in Metastatic Process in Cancer
Figure 2-1: Diagnostic Methods for Metastatic Lung Cancer
Figure 3-1: Diagnostic Approaches for Metastatic Bone Cancer
Figure 4-1: Metastatic Breast Cancer Diagnostic Methods
Figure 5-1: Metastatic Liver Cancer Diagnostic Methods
Figure 5-2: Treatment Approaches for Metastatic Liver Cancer
Figure 6-1: Diagnostic Approaches to Brain Tumor
Figure 6-2: Treatment Methods for Metastatic Brain Tumor
Figure 7-1: Diagnostic Approaches for Metastatic Prostate Cancer
Figure 7-2: Treatment Methods for Metastatic Prostate Cancer
Figure 9-1: Tarceva – Patent Approval & Expiration Year for Advance Stage Lung Cancer
Figure 9-2: Tarceva – Available Concentrations (mg), 2018
Figure 9-3: Tarceva – Dosage Analysis & Dose Modifications (mg/Day), 2018
Figure 9-4: Tarceva – Increased Dosage by Condition (mg/Day), 2018
Figure 9-5: Tarceva – Price Analysis by Concentration (US$), 2018
Figure 9-6: Tarceva – Therapy Cost Analysis (US$/Patient), 2018
Figure 9-7: Gefitinib – Drug Patent Approval Year & Expiration Year for Lung Cancer
Figure 9-8: Gefitinib – Clinical Efficacy by Patients Undergoing Treatment (%), 2018
Figure 9-9: Gefitinib – Dosage Analysis (mg), 2018
Figure 9-10: Gefitinib – Available Concentrations (mg), 2018
Figure 9-11: Gefitinib – Therapy Cost Analysis (US$/Patient), 2018
Figure 9-12: Afatinib – Patent Approval & Expiration Year for the Treatment of Lung Cancer
Figure 9-13: Afatinib - Available Concentrations (mg), 2018
Figure 9-14: Afatinib – Therapy Cost Analysis (US$), 2018
Figure 9-15 Cisplatin – Available Concentrations (ml), 2018
Figure 9-16: Cisplatin – Price Analysis by Concentration (US$), 2018
Figure 9-17: Topotecan - Patent Approval & Expiration Year
Figure 9-18: Topotecan – Available Concentration by Form (mg), 2018
Figure 9-19: Topotecan – Dosage Analysis by Route of Administration (mg/m2/Dose), 2018
Figure 9-20: Topotecan – Treatment Cycle Analysis (Number of Days), 2018
Figure 9-21: Topotecan – Dosage Analysis by Route of Administration (mg/Cycle), 2018
Figure 9-22: Topotecan – Capsule Price Analysis by Concentration (US$/Unit), 2018
Figure 9-23: Topotecan – Price Analysis by Drug Form (US$/Packet), 2018
Figure 9-24: Alimta Patent Approval & Expiration Year for Advanced Lung Cancer Treatment
Figure 9-25: Alimta - Available Concentration (mg), 2018
Figure 9-26: Alimta – Dosage Analysis (mg/Day), 2018
Figure 9-27: Alimta – Price Analysis by Concentration (US$), 2018
Figure 10-1: Patent Approval & Expiry Year of Denosumab Drug
Figure 10-2: Denosumab - Available Concentration & Dosage Analysis by Brand (mg/Day), 2018
Figure 10-3: Denosumab Comparative Cost Analysis – Xgeva v/s Prolia (US$/Unit)
Figure 10-4: Xofigo Patent Approval & Expiry Year
Figure 10-5: Xofigo – Therapy Cost Analysis (US$), 2018
Figure 10-6: Patent Approval Year & Expiry Year
Figure 10-7: Zometa – Available Concentrations (mg/ml), 2018
Figure 10-8: Zometa - Dosage & Treatment Cycle Duration Analysis (mg/Cycle), 2018
Figure 10-9: Zometa – Price Analysis (US$/Vial), 2018
Figure 11-1: Capecitabine - Available Concentrations (mg), 2018
Figure 11-2: Capecitabine – Dosage Analysis (mg/m2/Day), 2018
Figure 11-3: Capecitabine – Treatment Cycle Duration Analysis (Number of Weeks), 2018
Figure 11-4: Capecitabine & Xeloda - Comparative Cost Analysis by Concentration (US$/Packet), 2018
Figure 11-5: Eribulin Drug Patent Approval Year & Expiration Year for Metastatic Breast Cancer
Figure 11-6: Eribulin – Availability & Dosage Analysis (mg), 2018
Figure 11-7: Eribulin – Price Analysis (US$), 2018
Figure 11-8: Eribulin – Clinical Efficacy Based on Clinical Trial Results (%), 2018
Figure 11-9: Ixabepilone Patent Approval & Expiry Year for Breast Cancer Treatment
Figure 11-10: Ixempra - Available Concentrations (MG), 2018
Figure 11-11: Ixempra – Dosage Analysis (mg/m2/Day), 2018
Figure 11-12: Ixempra – Price Analysis by Concentration (US$), 2018
Figure 11-13: Avastin Patent Approval & Expiration Year
Figure 11-14: Avastin – Available Concentrations (ml), 2018
Figure 11-15: Avastin – Average Dosage Analysis (mg/kg), 2018
Figure 11-16: Avastin – Price Analysis (US$), 2018
Figure 11-17: Avastin – Clinical Efficacy Based on Clinical Trial Results (%), 2018
Figure 11-18: Herceptin - Available Concentrations (mg), 2018
Figure 11-19: Herceptin – Dosage Analysis (mg/kg), 2018
Figure 11-20: Herceptin – Price Analysis by Concentration (US$), 2018
Figure 12-1: Nexavar - Patent Approval & Expiry Year
Figure 12-2: Nexavar – Availability & Dosage Analysis (mg), 2018
Figure 12-3: Nexavar - Price Analysis (US$), 2018
Figure 12-4: Nexavar – Therapy Cost Analysis (US$/Patient), 2018
Figure 12-5: Alkeran - Drug Patent Approval & Expiration Year
Figure 12-6: Alkeran – Available Concentrations by Drug Form (mg), 2018
Figure 12-7: Alkeran – Treatment Cycle Analysis (By Number), 2018
Figure 12-8: Alkeran – Price Analysis by Drug Form (US$), 2018
Figure 13-1: Docetaxel - Available Concentrations (mg/ml), 2018
Figure 13-2: Docetaxel – Dosage Analysis (mg/m2/Dose), 2018
Figure 13-3: Docetaxel – Price Analysis (US$/Unit), 2018
Figure 13-4: Jevtana - Patent Approval & Expiry Year for Metastatic Prostate Cancer Treatment
Figure 13-5: Jevtana – Available Concentration & Dosage Analysis (mg), 2018
Figure 13-6: Jevtana – Price Analysis (US$), 2018
Figure 13-7: Patent Approval Years of Provenge Drug in US & Europe
Figure 13-8: Provenge – Number of Autologous CD54+ Activated Cells (Million)
Figure 13-9: Provenge – Dosage Administration (Minutes)
Figure 13-10: Provenge - Average Duration of Therapy
Figure 13-11: Provenge - Cost of Intravenous Solution & per Unit Cost, US$
Figure 13-12: Provenge - Therapy Cost Analysis (US$/Infusion), 2018
Figure 13-13: Provenge – Average Cost (US$/Patient), 2018
Figure 13-14: Provenge – Therapy Cost Analysis (US$/Treatment Course), 2018
Figure 13-15: Overall Survival Rate among the Patients Using Provenge Drug (%)
Figure 14-1: Global – Metastatic Cancer Therapy Market Forecast (US$ Billion), 2017-2027
Figure 14-2: Global – Breast Cancer Therapeutics Forecast (US$ Billion), 2016-2026
Figure 14-3: Global - Prostate Cancer Therapeutics Market Forecast (US$ Billion), 2016-2027
Figure 14-4: Global – Tarceva Sales (US$ Million), 2015 – 2017
Figure 14-5: Global – Iressa Sales Analysis (US$ Million), 2015 - 2017
Figure 14-6: Global - Hycamtin Sales Analysis (US$ Million), 2015 & 2016
Figure 14-7: Global - Alimta Sales Analysis (US$ Million), 2015 – 2017
Figure 14-8: Global - Prolia Sales Analysis (US$ Million), 2015 – 2017
Figure 14-9: Global - Xofigo Sales Analysis (US$ Million), 2015 & 2017
Figure 14-10: Global - Eribulin Sales Analysis (US$ Million), 2015 & 2016
Figure 14-11: Global - Avastin Sales Analysis (US$ Billion), 2015 – 2017
Figure 14-12: Global – Herceptin Sales Analysis (US$ Billion), 2015 – 2017
Figure 14-13: Global - Nexavar Sales Analysis (US$ Million), 2015 – 2017
Figure 14-14: Global - Jevtana Sales Analysis (US$ Million), 2015 – 2017
Figure 14-15: Global - Provenge Sales Analysis (US$ Million), 2015 & 2016
Figure 15-1: Favorable Parameters to Metastatic Cancer Market Growth
Figure 15-2: Challenges for the Development of Metastatic Cancer Treatment
Figure 17-1: Global Cancer Metastases Pipeline by Phase (%), 2018 till 2024
Figure 17-2: Global Cancer Metastases Pipeline by Phase (Number), 2018 till 2024
Figure 17-3: Global Cancer Metastases Pipeline by Phase (%), 2018 till 2024
Figure 17-4: Global Cancer Metastases Pipeline by Phase (Number), 2018 till 2024

LIST OF TABLES

Table 3-1: Role of Tumor Secreted Factors in Establishment of Osteolytic & Osteoblastic Metastasis
Table 4-1: Organ Specific Breast Cancer Metastasis Progression & Virulence
Table 6-1: Modern Challenges & Solutions in Management of Brain Metastasis
Table 9-1: Patients Benefited by Using Afatinib Drug for Metastatic Lung Cancer
Table 9-2: Formulation & Preparation of Topotecan Drug, mg
Table 11-1: Clinical Efficacy of Using Eribulin for Metastatic Breast Cancer Treatment
Table 11-2: Clinical Efficacy of Using Ixempra for Metastatic Breast Cancer Treatment
Table 11-3: Clinical Efficacy Result of Avastin Drug with Paclitaxel drug
Table 11-4: Clinical Efficacy for the use of Herceptin Combined with Paclitaxel or Docetaxel


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