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EpiCast Report: Immune Thrombocytopenia (ITP) - Epidemiology Forecast to 2025

EpiCast Report: Immune Thrombocytopenia (ITP) - Epidemiology Forecast to 2025

Summary

Immune thrombocytopenia (ITP) is an autoimmune syndrome involving the antibody- and cell-mediated destruction of platelets and the suppression of platelet production; this increases an affected individual’s susceptibility to bleeding. More specifically, the destruction and suppression of platelets are due to B cell (and sometimes CD8+ T cell) autoimmune reactions directed against circulating platelets and megakaryocytes. An ITP diagnosis is made when the platelet count is between 100 and 150 x 109/L. About 80% of all ITP cases are considered to be idiopathic, also known as primary ITP. The remaining 20% of ITP cases occur as a component of another clinically evident disorder, such as hepatitis C or systemic lupus erythematosus, or drug exposure; these cases are categorized as secondary ITP.

GlobalData epidemiologists selected nationally representative population-based studies, peer-reviewed journals, and registries (for example: GPRD, JIDIC) that used Read codes which are cross-referenced with ICD-9 and ICD-10 (D69.3) codes to diagnose ITP. ITP was defined as having platelet levels between 100-150 x 109/L.

In the 7MM, the diagnosed prevalent cases of primary and secondary ITP will increase from 359,208 cases in 2015 to 384,780 cases in 2025 at an annual growth rate (AGR) of 0.71%. The 5EU will have the highest number of diagnosed prevalent cases throughout the forecast period with 179,350 cases in 2015 and 191,229 cases in 2025, while Japan will have the lowest number of diagnosed prevalent cases with 24,468 in 2015 and 24,479 in 2025.

In the 7MM, the diagnosed incident cases of primary and secondary ITP will increase from 33,136 cases in 2015 to 35,364 cases in 2025, at an AGR of 0.67%.

Scope

  • The Immune Thrombocytopenia (ITP) EpiCast Report provides an overview of the risk factors and global trends of NSCLC in the 7MM (US, France, Germany, Italy, Spain, UK, and Japan). It includes a 10-year epidemiological forecast for the diagnosed prevalent and diagnosed incident cases of ITP segmented by type (primary and secondary), sex, and age.
  • The ITP epidemiology report is written and developed by Masters- and PhD-level epidemiologists.
  • The EpiCast Report is in-depth, high quality, transparent and market-driven, providing expert analysis of disease trends in the 7MM.
Reasons to buy

The ITP EpiCast report will allow you to -
  • Develop business strategies by understanding the trends shaping and driving the global ITP market.
  • Quantify patient populations in the global ITP market to improve product design, pricing, and launch plans.


1 Table of Contents
1.1 List of Tables
1.2 List of Figures
2 Epidemiology
2.1 Disease Background
2.2 Risk Factors and Comorbidities
2.3 Global Trends
2.3.1 US
2.3.2 5EU
2.3.3 Japan
2.4 Forecast Methodology
2.4.1 Sources Used Tables
2.4.2 Forecast Assumptions and Methods
2.4.3 Sources Not Used
2.5 Epidemiological Forecast for ITP (2015-2025)
2.5.1 Diagnosed Prevalent Cases of ITP
2.5.2 Age-Specific Diagnosed Prevalent Cases of ITP
2.5.3 Sex-Specific Diagnosed Prevalent Cases of ITP
2.5.4 Age-Standardized Diagnosed Prevalence of ITP
2.5.5 Diagnosed Incident Cases of ITP
2.5.6 Age-Specific Diagnosed Incident Cases of ITP
2.5.7 Sex-Specific Diagnosed Incident Cases of ITP
2.5.8 Age-Standardized Diagnosed Incidence of ITP
2.6 Discussion
2.6.1 Epidemiological Forecast Insight
2.6.2 Limitations of the Analysis
2.6.3 Strengths of the Analysis
3 Appendix
3.1 Bibliography
3.2 Physicians and Specialists Included in this Study
3.3 About the Authors
3.3.1 Epidemiologists
3.3.2 Reviewers
3.3.3 Global Director of Therapy Analysis and Epidemiology
3.3.4 Global Head of Healthcare
3.4 About GlobalData
3.5 About EpiCast
3.6 Disclaimer
1.1 List of Tables
Table 1: Risk Factors and Comorbidities for ITP
Table 2: 7MM, Sources for Diagnosed Prevalence of Primary ITP
Table 3: 7MM, Sources for Diagnosed Prevalence of Secondary ITP
Table 4: 7MM, Sources for Diagnosed Incidence of Primary ITP
Table 5: 7MM, Sources for Diagnosed Incidence of Secondary ITP
Table 6: 7MM, Sources Not Used in the Epidemiological Analysis of ITP
Table 7: 7MM, Diagnosed Prevalent Cases of Primary ITP, All Ages, Men and Women, Select Years, 2015-2025
Table 8: 6MM, Diagnosed Prevalent Cases of Secondary ITP, All Ages, Men and Women, Select Years, 2015-2025
Table 9: 7MM, Age-Specific Diagnosed Prevalent Cases of Primary ITP, Men and Women, N (Row %), 2015
Table 10: 6MM, Age-Specific Diagnosed Prevalent Cases of Secondary ITP, Men and Women, N (Row %), 2015
Table 11: 7MM, Sex-Specific Diagnosed Prevalent Cases of Primary ITP, All Ages, N (Row %), 2015
Table 12: 6MM, Sex-Specific Diagnosed Prevalent Cases of Secondary ITP, All Ages, N, 2015
Table 13: 7MM, Diagnosed Incident Cases of Primary ITP, All Ages, Men and Women, Select Years, 2015-2025
Table 14: 6MM, Diagnosed Incident Cases of Secondary ITP, All Ages, Men and Women, Select Years, 2015-2025
Table 15: 7MM, Age-Specific Diagnosed Incident Cases of Primary ITP, Men and Women, N (Row %), 2015
Table 16: 6MM, Age-Specific Diagnosed Incident Cases of Secondary ITP, Men and Women, N (Row %), 2015
Table 17: 7MM, Sex-Specific Diagnosed Incident Cases of Primary ITP, All Ages, N (Row %), 2015
Table 18: 6MM, Sex-Specific Diagnosed Incident Cases of Secondary ITP, All Ages, N (Row %), 2015
1.2 List of Figures
Figure 1: Diagnosed Prevalence Rate for ITP in the 7MM for All Ages, Men and Women, Cases per 100,000 Population, 2015
Figure 2: Diagnosed Incidence Rate for ITP in the 7MM for All Ages, Men and Women, Cases per 100,000 Population, 2015
Figure 3: Case Flow Map
Figure 4: 7MM, Diagnosed Prevalent Cases of Primary ITP Cases, All Ages, Men and Women, N, Select Years, 2015-2025
Figure 5: 6MM, Diagnosed Prevalent Cases of Secondary ITP Cases, All Ages, Men and Women, N,
Figure 6: 7MM, Age-Specific Diagnosed Prevalent Cases of Primary ITP, Men and Women, N, 2015
Figure 7: 6MM, Age-Specific Diagnosed Prevalent Cases of Secondary ITP, Men and Women, N, 2015
Figure 8: 7MM, Sex-Specific Diagnosed Prevalent Cases of Primary ITP, All Ages, N, 2015
Figure 9: 6MM, Sex-Specific Diagnosed Prevalent Cases of Secondary ITP, All Ages, N, 2015
Figure 10: 7MM, Age-Standardized Diagnosed Prevalence of Primary ITP, All Ages, Cases per 100,000 population, 2015
Figure 11: 6MM, Age-Standardized Diagnosed Prevalence of Secondary ITP, All Ages, Cases per 100,000 population, 2015
Figure 12: 7MM, Diagnosed Incident Cases of Primary ITP, All Ages, Men and Women, N, Select Years, 2015-2025
Figure 13: 6MM, Diagnosed Incident Cases of Secondary ITP, All Ages, Men and Women, N, Select Years, 2015-2025
Figure 14: 7MM, Age-Specific Diagnosed Incident Cases of Primary ITP, Men and Women, N, 2015
Figure 15: 6MM, Age-Specific Diagnosed Incident Cases of Secondary ITP, Men and Women, N, 2015
Figure 16: 7MM, Sex-Specific Diagnosed Incident Cases of Primary ITP, All Ages, N, 2015
Figure 17: shows the sex-specific diagnosed incident cases of secondary ITP in the 6MM.
Figure 18: 7MM, Age-Standardized Diagnosed Incidence of Primary ITP, All Ages, Cases per 100,000 Population, 2015
Figure 19: 6MM, Age-Standardized Diagnosed Incidence of Secondary ITP, All Ages, Cases per 100,000 Population, 2015

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