Published Date : 2021-10-02
Published Date : 2021-10-02
Updated On : 2022-05-06
Pages : 158
Thelansis’s “Hypophosphatasia Market Outlook, Epidemiology, Competitive Landscape, and Market Forecast Report – 2021 To 2032" covers disease overview, epidemiology, drug utilization, prescription share analysis, competitive landscape, clinical practice, regulatory landscape, patient share, market uptake, market forecast, and key market insights under the potential Hypophosphatasia treatment modalities options for eight major markets (USA, Germany, France, Italy, Spain, UK, Japan, and China).
Hypophosphatasia (HPP) is the inborn error of metabolism caused by a loss-of-function mutation(s) in the gene that encodes the tissue-nonspecific isozyme of alkaline phosphatase (TNAP). The disease has been classified according to patient age when the first signs and symptoms manifest, i.e., perinatal, infantile, childhood, adult HPP. Other types include odonto HPP and perinatal benign. Babies with the perinatal/immature forms of HPP often die with severe rickets and respiratory insufficiency and sometimes hypercalcemia and vitamin B6-responsive seizures. The primary biochemical defect in HPP is a deficiency of TNAP activity that leads to elevated circulating levels of substrates, in particular inorganic pyrophosphate (PPi ), a potent calcification inhibitor. The clinical severity of HPP varies greatly. The disease can be classified according to patient age when the first signs and symptoms manifest: perinatal, infantile, childhood, and adult HPP. Additional clinical forms include odonto-HPP, where there are only dental manifestations, and prenatal benign-HPP.
North America- the United States and Canada
Europe- EU5 (Germany, France, Italy, Spain, and the United Kingdom)
Other countries- Japan & China
This section of the study covers country-specific current clinical practice, the standard of care, and significant limitations around addressing the unmet needs. Retrospective analysis and bench-marking of clinical study outcomes are presented in terms of Pre-treatment & post-treatment clinical and demographic patient characteristics. Essentially, this section will cover the evolution of the current competitive landscape and its impact on the future treatment paradigm.
KOLs across 8 MM markets from the center of Excellence/ Public/ Private hospitals participated in the study. Insights around current treatment landscape, epidemiology, clinical characteristics, future treatment paradigm, and Unmet needs
- Data Inputs with sourcing
- Market Event and Product Event
- Country-specific Forecast Model
- Market uptake and patient share uptake
- Attribute Analysis
- Analog Analysis
- Disease burden and pricing scenario
- Summary and Insights
Optimization of cash flow/ revenue flow concerning all fixed and variable investments throughout the product development process. The rate of return on an investment is a critical indicator to ensure the profitability and break-even of the project.
The competitive landscape includes country-specific approved as well as pipeline therapies. Any asset/product-specific designation or review such as Orphan drug designation, Fast track, Priority Review, Breakthrough Therapy Designation, Rare Pediatric Disease Designation, and Accelerated Approval are tracked and supplemented with analyst commentary.
Detailed clinical trial data analysis and critical product positioning include trial design, primary outcomes, secondary outcomes, dosing and schedules, inclusion and exclusion criteria, recruitment status and essentially covers the reported adverse events. Majorly the trial analysis helps determine the potential of the critical assets and their probable filing and launch date.
This report presents the most important clinical unmet needs in the treatment, according to Thelansis research and analysis. Other essential unmet needs identified through our study include decreased cost burden on patients, improved administration convenience, and improved patient compliance.
| S. no | Asset | Company | Stage |
| 1 | asfotase alfa | Alexion Pharmaceuticals | Phase 2 |
KOLs across 8 MM markets from the center of Excellence/ Public/ Private hospitals participated in the study. Insights around current treatment landscape, epidemiology, clinical characteristics, future treatment paradigm, and Unmet needs.
| COUNTRY | No. Of KOLs |
| USA | 17 |
| GERMANY | 4 |
| UK | 5 |
| SPAIN | 4 |
| FRANCE | 4 |
| ITALY | 4 |
| JAPAN | 5 |
| CHINA | 5 |
Data Inputs with sourcing, Market Event, Product Event, Country specific Forecast Model, Market uptake and patient share uptake, Attribute Analysis, Analog Analysis, Disease burden, and pricing scenario, Summary, and Insights.
1. Hypophosphatasia – Key Findings Summary |
| 1.1. Clinical findings |
| 1.1.1. Disease overview |
| 1.1.2. Therapeutic practices |
| 1.1.3. Future outlook |
| 1.2. Commercial findings |
| 1.2.1. Hypophosphatasia market scenario 2021 |
| 1.2.2. Hypophosphatasia market scenario 2025 |
| 1.2.3. Hypophosphatasia market scenario 2032 |
2. Hypophosphatasia Overview |
| 2.1. Disease Introduction |
| 2.2. Pathophysiology |
| 2.3. Signs and Symptoms |
| 2.4. Risk Factors |
| 2.5. Etiology |
| 2.6. Classification |
| 2.7. Pathogenesis |
| 2.8. Diagnosis |
| 2.9. Complications |
| 2.10. Treatment Algorithm |
| 2.10.1. Treatment in US (guidelines) |
| 2.10.2. Treatment in EU-5 (guidelines) |
| 2.10.3. Treatment in Japan (guidelines) |
| 2.10.4. Treatment in China (guidelines) |
| 2.11. Treatment Goals for Hypophosphatasia |
| 2.12. Referral Patterns |
| 2.12.1. Referral Scenario in US |
| 2.12.2. Referral Scenario in EU-5 |
| 2.12.3. Referral Scenario in Japan |
| 2.12.4. Referral Scenario in China |
| 2.13. Hypophosphatasia Prognosis |
| 2.14. Healthcare burden |
| 2.14.1. Healthcare burden in US |
| 2.14.2. Healthcare burden in EU-5 |
| 2.14.3. Healthcare burden in Japan |
| 2.14.4. Healthcare burden in China |
| 2.15. Unmet Needs in Hypophosphatasia management |
| 2.16. Market Opportunity for Hypophosphatasia |
| 2.17. KOL Comments on current and upcoming/expected treatment practices in Hypophosphatasia |
3. Epidemiology |
| 3.1. Epidemiology Overview |
| 3.2. Epidemiology by Geography |
| 3.2.1. Hypophosphatasia Epidemiology in US (2021-2032) |
| 3.2.1.1. Incidence of Hypophosphatasia |
| 3.2.1.2. Diagnosed cases |
| 3.2.1.3. Treatable Patient Pool |
| 3.2.1.4. Epidemiology Trends |
| 3.2.2. Hypophosphatasia Epidemiology in EU-5 (2021-2032) |
| 3.2.2.1. Incidence of Hypophosphatasia |
| 3.2.2.2. Diagnosed cases |
| 3.2.2.3. Treatable Patient Pool |
| 3.2.2.4. Epidemiology Trends |
| 3.2.3. Hypophosphatasia Epidemiology in Japan (2021-2032) |
| 3.2.3.1. Incidence of Hypophosphatasia |
| 3.2.3.2. Diagnosed cases |
| 3.2.3.3. Treatable Patient Pool |
| 3.2.3.4. Epidemiology Trends |
| 3.2.4. Hypophosphatasia Epidemiology in China (2021-2032) |
| 3.2.4.1. Incidence of Hypophosphatasia |
| 3.2.4.2. Diagnosed cases |
| 3.2.4.3. Treatable Patient Pool |
| 3.2.4.4. Epidemiology Trends |
| 3.3. Epidemiology Trends (World-wide) |
4. Market Outlook |
| 4.1. US Hypophosphatasia Market Forecast 2021-2032 |
| 4.1.1. Market Progression (Futuristic) |
| 4.1.2. Market Trends and Expectations |
| 4.1.2.1. Worst case scenario |
| 4.1.2.2. Base Case Scenario |
| 4.1.2.3. Best Case Scenario |
| 4.1.3. Drivers and Barriers |
| 4.2. UK Hypophosphatasia Market Forecast 2021-2032 |
| 4.2.1. Market Progression (Futuristic) |
| 4.2.2. Market Trends and Expectations |
| 4.2.2.1. Worst case scenario |
| 4.2.2.2. Base Case Scenario |
| 4.2.2.3. Best Case Scenario |
| 4.2.3. Drivers and Barriers |
| 4.3. France Hypophosphatasia Market Forecast 2021-2032 |
| 4.3.1. Market Progression (Futuristic) |
| 4.3.2. Market Trends and Expectations |
| 4.3.2.1. Worst case scenario |
| 4.3.2.2. Base Case Scenario |
| 4.3.2.3. Best Case Scenario |
| 4.3.3. Drivers and Barriers |
| 4.4. Germany Hypophosphatasia Market Forecast 2021-2032 |
| 4.4.1. Market Progression (Futuristic) |
| 4.4.2. Market Trends and Expectations |
| 4.4.2.1. Worst case scenario |
| 4.4.2.2. Base Case Scenario |
| 4.4.2.3. Best Case Scenario |
| 4.4.3. Drivers and Barriers |
| 4.5. Italy Hypophosphatasia Market Forecast 2021-2032 |
| 4.5.1. Market Progression (Futuristic) |
| 4.5.2. Market Trends and Expectations |
| 4.5.2.1. Worst case scenario |
| 4.5.2.2. Base Case Scenario |
| 4.5.2.3. Best Case Scenario |
| 4.5.3. Drivers and Barriers |
| 4.6. Spain Hypophosphatasia Market Forecast 2021-2032 |
| 4.6.1. Market Progression (Futuristic) |
| 4.6.2. Market Trends and Expectations |
| 4.6.2.1. Worst case scenario |
| 4.6.2.2. Base Case Scenario |
| 4.6.2.3. Best Case Scenario |
| 4.6.3. Drivers and Barriers |
| 4.7. Japan Hypophosphatasia Market Forecast 2021-2032 |
| 4.7.1. Market Progression (Futuristic) |
| 4.7.2. Market Trends and Expectations |
| 4.7.2.1. Worst case scenario |
| 4.7.2.2. Base Case Scenario |
| 4.7.2.3. Best Case Scenario |
| 4.7.3. Drivers and Barriers |
| 4.8. China Hypophosphatasia Market Forecast 2021-2032 |
| 4.8.1. Market Progression (Futuristic) |
| 4.8.2. Market Trends and Expectations |
| 4.8.2.1. Worst case scenario |
| 4.8.2.2. Base Case Scenario |
| 4.8.2.3. Best Case Scenario |
| 4.8.3. Drivers and Barriers |
| 4.9. Key Expected Milestones (world-wide) Impacting the Market |
5. Competitive Landscape |
| 5.1. Pipeline Therapies Overview |
| 5.1.1. Phase III Therapies |
| 5.1.1.1. Current Status |
| 5.1.1.2. Trial details, results |
| 5.1.1.3. Approval Timeline |
| 5.1.1.4. Likelihood of approval |
| 5.1.1.5. Expected Product Positioning |
| 5.1.1.2. All other Phase III Therapies ….. |
| 5.1.1.3. Attribute Analysis of Phase III molecules |
| 5.1.2. Phase II and Phase I/II Therapies |
| 5.1.2.1. Current Status |
| 5.1.2.2. Trial details, results |
| 5.1.2.3. Approval Timelines |
| 5.1.3. List of active Pre-clinical Therapies |
| 5.1.3.1. Status in Hypophosphatasia |
| 5.1.3.2. Company positioning |
| 5.1.3.2. All other pre-clinical therapies |
| 5.1.4. List of Inactive/discontinued assets |
| 5.1.4.1. Business impact of discontinuations on current pipeline |
| 5.1.5. Potential winners from Hypophosphatasia Pipeline |
| 5.1.5.1. Potential Blockbusters across the pipeline |
6. Regulatory/Approval Scenario |
| 6.1. Regulatory/Approval Framework in US |
| 6.1.1. Policy Framework |
| 6.1.2. Payer Expectations |
| 6.2. Regulatory/Approval Framework in UK |
| 6.2.1. Policy Framework |
| 6.2.2. Payer Expectations |
| 6.3. Regulatory/Approval Framework in France |
| 6.3.1. Policy Framework |
| 6.3.2. Payer Expectations |
| 6.4. Regulatory/Approval Framework in Germany |
| 6.4.1. Policy Framework |
| 6.4.2. Payer Expectations |
| 6.5. Regulatory/Approval Framework in Italy |
| 6.5.1. Policy Framework |
| 6.5.2. Payer Expectations |
| 6.6. Regulatory/Approval Framework in Spain |
| 6.6.1. Policy Framework |
| 6.6.2. Payer Expectations |
| 6.7. Regulatory/Approval Framework in Japan |
| 6.7.1. Policy Framework |
| 6.7.2. Payer Expectations |
| 6.8. Regulatory/Approval Framework in China |
| 6.8.1. Policy Framework |
| 6.8.2. Payer Expectations |
7. Clinical Trial Assessment – Current and Future Paradigm |
| 7.1. Distribution of Primary Endpoints across trials |
| 7.2. Distribution of Secondary Endpoints across trials |
| 7.3. Evolution and acceptance of surrogate endpoints |
| 7.4. Key Investigator initiated trials |
| 7.5. Attrition analysis |
| 7.5.1. Suspended/Discontinued Assets |
| 7.5.2. Failed Trials, Reasons and Business Impact |
| 7.5.3. Terminated Trials, Reasons and Business Impact |
| 7.5.4. Withdrawn Trials, Reasons and Business Impact |
| 7.6. Trial enrollment scenario and challenges |
| 7.7. Clinical Trial Guidance (across geographies) |
8. Thelansis Commentary |
| 8.1. Key Unmet needs in Hypophosphatasia |
| 8.2. Possible Best-case Clinical Trial Strategies |
| 8.3. Possible Best Case Targeted Product Profile (TPP) |
| 8.4. Possible Best-case Market positioning strategies |
| 8.5. Possible Best-case Market Access Strategies |
| 8.6. Possible Best-case LCM Strategies |
| 8.7. Overall View on Hypophosphatasia Market in Dollar Value |
9. Report Methodology |
| 9.1. Secondary research |
| 9.2. Primary research |
| 9.3. Data collation |
| 9.4. Insight Generation |
10. About Thelansis |
| 10.1. Our Capabilities |
| 10.2. Our Services |
| 10.3. Our Contacts |
| 10.4. Disclaimer |
Head – Business Development and Partnering
Mr. Pankaj Negi has joined Thelansis as Practice Head; Business Development and Partnering, since Jan 2020. A dynamic professional with 12+ years of diverse experience across Pharmaceuticals/ Healthcare/ Life sciences with specialized in sales & marketing and Business Development.
Mr. Pankaj is holding a Master’s degree in “Pharma Management” from the Rajiv Gandhi University of Health Science, Bangalore, India and has expertise in Content Marketing, Content Management systems, Customer Relationship Management, online marketing, advertising, promotion, and Search Engine Optimization. Creating and implementing client-centered, successful campaigns, aimed at improving brand awareness and presence.
Vice President – Delivery, Scientific CI
Mukesh Kumar has joined us as Vice President – Delivery & Innovations, Scientific CI Practice, since August 2019. Prior to joining us, Dr. Mukesh holding a Postdoctoral Fellow with a demonstrated history of working in hard-core research for more than 15 years on both small molecule and biologics within the oncology and neurology segment.
Skilled in Recombinant DNA, Phage Display Technology, Antibodies, ImmunoOncology (K-RAS, Check-Point, Oncolytic), and Immunotherapeutic (RNA andProtein/huMab-based) products, Cancer-stem Cells, Chemoresistance, Real-TimePolymerase Chain Reaction (qPCR), and SDS-PAGE. Strong research professional with a Ph.D. focused on Recombinant Antibody-mediated tumor targeting. Dr.Mukesh has several citations on Synergistic increase in efficacy of a combination of 2-deoxy-D-glucose and cisplatin in normoxia and hypoxia: switch from autophagy to apoptosis, Membrane, Fusion Mediated Targeted Cytosolic DrugDelivery Through scFv Engineered Sendai Viral Envelopes, and Drug combination targeting hypoxia-induced chemoresistance and stemness in glioma cells.
Director – Practice Head, Competitive Intelligence, Market Access, and Pricing
Mr. Peeyush Potdar is working at Thelansis as Practice Head; Competitive Intelligence, Market Access, and Pricing Analytics, since Dec 2017. With 12+ years of rich experience in providing business consulting and research support across competitive intelligence, BD&L activities, KOL management, business research, and analytics services, he has been involved in the development of syndicated therapy area specialized reports in Orphan & ultra-orphan indications and conducting market intelligence assignments on different verticals such as Pharmaceuticals, Medical Devices and Health Insurance.
Mr. Peeyush is holding an MBA degree in “Pharma Management” from the National Institute of Pharmaceutical Education & Research (NIPER), Mohali, India and has expertise in scientific research as well as in commercialization and lifecycle management for innovative and mature assets. He has a good competency in building AI/ ML-based analytics platforms for tracking global conferences, social media analytics, and for conducting patient outcomes research.
Director – Global Relationship and Partnering US
Ms. Martina is working with us as Director – Global Relationship and Partnering US, since October 2019. Prior to joining us, Ms. Martina holding a Master’s Degree in Public Health from Boston University School of Public Health with more than 8 years of experience in B2B and B2C sales. Highly motivated and accomplished sales and marketing professional with a proven history of success in creating the road map and driving business development globally.
Part of US Leadership team and heading Business Development for Thelansis Knowledge Partner for both US and EU Region. Business Development opportunity identification, Engaging with the client and providing them with innovative business solutions.
Director – Global Relationship and Partnering EU
