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Large Volume Wearable Injectors Market by Type of Device, Usability, Therapeutic Area, Key Geographical Regions: Industry Trends and Global Forecasts, 2021-2035

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    Report

  • 402 Pages
  • November 2021
  • Region: Global
  • Roots Analysis
  • ID: 5510469

Overview

Chronic diseases are considered to be the leading causes of deaths and disability. In fact, globally, such diseases are known to be responsible for two third of the overall deaths. Within the US, nearly 52% of the adult population is presently living with at least one chronic condition, while 27% of the US adults are suffering from multiple chronic conditions. Further, the financial burden associated with these diseases is currently estimated to be around USD 1 trillion in the US; this is anticipated to increase up to USD 6 trillion by 2050. In the past, the pharmaceutical industry has made significant efforts in integrating novel strategies and innovating patient-centric approaches to treat various chronic conditions. The current treatment options include oral and parenteral administration of the prescribed pharmacological interventions, physical therapies and use of digital therapeutic solutions. Among these, parenteral administration of drugs is the most common method, however, this approach lacks patient convenience because it involves frequent dosing and repeated hospital visits. In addition, it is associated with several other drawbacks and limitations, including dosing errors, risk of microbial contamination and needlestick injuries. These are known to be the primary factors affecting medication adherence and, thereby, have a significant impact on therapeutic outcomes. Over the last few years, the industry has seen the emergence of advanced drug delivery devices, such as wearable injectors, autoinjectors and pen injectors. These are the self-injection devices that have the capability of producing a sustained therapeutic effect, thereby improving patient adherence and efficacy of treatments. Such practices also allow reductions in costs and enable the optimal usage of healthcare resources. 


The approval of novel drugs, specifically biologics that have high viscosity and cannot be administered in lower volume, has further led to an increased demand for advanced drug delivery devices. As a result, medical device industry has come up with several large volume wearable injectors suitable for the delivery of such molecules. These innovative injection systems offer numerous dosing options (basal, bolus or continuous), integrated safety mechanisms, along with minimal or no risk of needlestick injuries. In addition, these injectors can be used for the subcutaneous drug delivery and have become a preferred choice for administration of drugs in home-care setting. Moreover, the popularity of these devices have encouraged various pharmaceutical companies and medical device developers to further enhance the features of large volume injectors with artificial intelligence algorithms, integrated mobile applications with smart health monitoring, reminders, connectivity to web-based portals for sharing medical data, visual/audible drug delivery confirmation notifications, automatic drug reconstitution, and error alerts. Given the ongoing innovation in this field, we are led to believe that adoption of such devices is likely to increase at a significant pace, thereby driving the market growth over the coming years.


Scope of the Report

The “Large Volume Wearable Injectors Market by Type of Device (Infusion Pumps and Patch Pumps), Usability (Disposable and Reusable), Therapeutic Area (Cardiovascular Disorders, Infectious Diseases, Neurological Disorders Oncological Disorders and Others), Key Geographical Regions (North America, Europe, Asia-Pacific, Latin America, and Middle East and North Africa): Industry Trends and Global Forecasts (6th Edition), 2021-2035” report features an extensive study of the current market landscape and the likely future evolution of these self-injection devices, over the next fifteen years. It specifically lays emphasis on the emergence of patient-centric, convenient, cost-effective and user-friendly wearable drug delivery solutions that are capable of administering large volumes of a drug subcutaneously, in the home-care setting. 


In addition to other elements, the report includes:

  • An overview of the current market landscape of large volume wearable injectors available for the delivery of insulin drugs, non-insulin drugs along with drug device combinations, providing information on their status of development and device specifications, such as type of device (patch pump/injector and infusion pump/injector), route of administration (subcutaneous and others), therapeutic area, type of technology, type of dose administered (basal, bolus and others), mode of injection (needle, needle/cannula and needle/catheter), volume/storage capacity of the device, actuation mechanism (electromechanical, rotary pump, cell/expanded battery, pressurized gas, osmotic pressure and others), usability (disposable and reusable), availability of prefilled drug reservoir, connectivity of device, drug compatibility and drug container. The report also features information on the availability of prefilled insulin cartridges, continuous glucose monitoring/blood glucose monitoring (CGM/BGM) systems, Automated Insulin Delivery (AID) feature, automatic insulin delivery (AID)/artificial pancreas and type of device control features (control within device/personal diabetes manager (PDM)/smartphone) in the insulin delivery devices. 
  • A detailed competitiveness analysis of various large volume wearable injectors based on several relevant parameters, such as supplier power (based on the experience of the developer and company size) and product specifications (type of device, type of dose, storage capacity of the device, usability, route of administration, connectivity and availability of a continuous glucose monitoring/blood glucose monitoring (CGM/BGM) systems (in case of insulin devices). 
  • Elaborate profiles of prominent companies developing large volume wearable injectors; each company profile features a brief overview of the company, its financial information (if available), information on its product portfolio, recent developments and an informed future outlook. Additionally, the report includes tabulated profiles of wearable drug device combination products.
  • An analysis of the partnerships (since 2015) that have been inked by the stakeholders in this domain, covering acquisitions, product development agreements, product integration agreements, technology integration agreements, distribution and supply agreements, commercialization agreements, clinical trial agreements, licensing agreements, manufacturing agreements, service agreements, and other relevant deals.
  • A detailed analysis of the acquisition targets, taking into consideration the historical trend of the activity of companies that have acquired other firms since 2000, offering a means for other industry stakeholders to identify potential acquisition targets.
  • An in-depth analysis of the patents that have been filed/granted for large volume wearable injectors over the last three decades. It highlights trends across the key parameters associated with the patents, including type of patent, issuing authority/patent offices involved, Cooperative Patent Classification (CPC) symbols, emerging areas (in terms of number of patents filed/granted), type of company, leading industry and non-industry players (on the basis of number of patents) and individual patent assignees (in terms of size of intellectual property portfolio).
  • A list of marketed drugs/therapies and pipeline candidates that are likely to be developed in combination with large volume wearable injectors in the near future, identified on the basis of an in-depth analysis of potential candidates, taking into consideration multiple parameters, such as status of development, dosage, dose concentration, route of administration, type of dose and drug sales (in case of marketed drugs).
  • A detailed analysis of completed, ongoing and planned clinical trials of various large volume wearable injector products based on several relevant parameters, such as trial registration year, trial phase, trial recruitment status, study design, type of sponsor/collaborator, most active players, key focus area, therapeutic area, geographical distribution by clinical trials, geographical distribution by enrolled patient population and clinical endpoints.
  • A detailed analysis of various investments (since 2014) made in the companies engaged in this domain through seed financing, venture capital financing, capital raised from IPOs, equity and subsequent offerings, grants and debt financing.
  • A case study on the role of contract manufacturing organizations in the overall manufacturing process/supply chain of wearable injectors, featuring details on the services provided by contract service providers for the manufacturing of various device components (primary containers), infusion sets, adhesives, closures and injection moldings. 
  • An elaborate discussion on the various guidelines established by major regulatory bodies for medical device approval across North America (the US, Canada and Mexico), Europe (the UK, France, Germany, Italy, Spain and rest of Europe), Asia-Pacific and rest of the world (Australia, Brazil, China, India, Israel, Japan, New Zealand, Singapore, South Africa, South Korea, Taiwan, and Thailand). The report also features an insightful multi-dimensional, heat map analysis, featuring a comparison of the contemporary regulatory and reimbursement scenarios in key geographies across the globe.

One of the key objectives of the report was to estimate the existing market size and potential future growth opportunities for large volume wearable injectors. Based on parameters, such as the number of commercialized devices, number of devices under development, price of the device and the annual adoption rate, we have provided an informed estimate on the likely evolution of the market over the period 2021-2035. The report also features sales forecasts for the overall large volume wearable injectors market with a detailed market segmentation on the [A] type of device (patch pump, injector and infusion pump and injector), [B] usability (reusable and disposable), [C] therapeutic area (cardiovascular disorders, infectious diseases, neurological disorders, oncological disorders and others) and [D] key geographies (North America, Europe, Asia Pacific, Latin America, and Middle East and North Africa). In order to account for future uncertainties and to add robustness to our model, we have provided three market forecast scenarios namely the conservative, base and optimistic scenarios, which represent different tracks of the industry’s evolution. 


The research, analysis and insights presented in this report are backed by a deep understanding of key insights gathered from both secondary and primary research. The opinions and insights presented in this study were influenced by discussions conducted with several stakeholders in this domain. 


The report features detailed transcripts of discussions held with the following individuals:

  • Mark Banister (CEO, Medipacs/RxActuator)
  • Michael Hooven (CEO, Enable Injections)
  • Jesper Roested (CEO, Subcuject)
  • Pieter Muntendam (former President and CEO, scPharmaceuticals)
  • Menachem Zucker (Vice President and Chief Scientist, Elcam Medical)
  • Graham Reynolds (former Vice President and General Manager, Biologics, West Pharmaceutical Services)
  • (Vice President, Ypsomed)
  • Eric Chappel (R & D Project Manager, Debiotech)
  • Mindy Katz (Vice President, Marketing and Alliance Management, Sorrel Medical)

All actual figures have been sourced and analyzed from publicly available information forums and primary research discussions. Financial figures mentioned in this report are in USD, unless otherwise specified.


Key Questions Answered

  • Who are the leading large volume wearable device developers?
  • Which are the popular types of wearable devices available in this market?
  • What are the key challenges faced by stakeholders engaged in the development of large volume wearable injectors?
  • What types of partnership models are commonly being adopted by stakeholders in this industry? 
  • Who are the key investors in this domain? 
  • How has the intellectual property landscape of wearable injectors evolved over the years? 
  • Which drug candidates are likely to be considered for administration via wearable injectors?
  • What factors are likely to influence the evolution of this market? 
  • Which geographies are the most active in conducting clinical trials on large volume drug device combinations?
  • How is the current and future market opportunity likely to be distributed across key market segments?

Table of Contents

1. PREFACE
1.1. Scope of the Report
1.2. Research Methodology
1.3. Key Questions Answered
1.4. Chapter Outlines


2. EXECUTIVE SUMMARY
3. INTRODUCTION
3.1. Chapter Overview
3.2. Overview of Drug Delivery Devices
3.3. Conventional Parenteral Drug Delivery Devices
3.3.1 Limitations of Conventional Parenteral Drug Delivery Devices
3.3.2 Needlestick Injuries
3.3.2.1. Incidence and Cost Burden
3.3.2.2. Prevention of Needlestick Injuries
3.3.2.3. Government Legislations for the Prevention of Needlestick Injuries
3.4. Emergence of Self-Administration Devices
3.4.1. Driving Factors
3.4.1.1. Rising Burden of Chronic Diseases
3.4.1.2. Healthcare Cost Savings
3.4.1.3. Need for Immediate Treatment in Emergency Situations
3.4.1.4. Growing Injectable Drugs Market
3.4.1.5. Need for Improving Medication Adherence
3.5. Available Self-Injection Devices
3.5.1. Prefilled Syringes
3.5.2. Pen-Injectors
3.5.3. Needle-Free Injectors
3.5.4. Autoinjectors
3.5.5. Large Volume Wearable Injectors
3.6. Regulatory Considerations
3.6.1. Medical Devices
3.6.2. Drug Device Combination Products
3.7. Future Perspectives


4. LARGE VOLUME WEARABLE INJECTORS FOR NON-INSULIN DRUGS: CURRENT MARKET LANDSCAPE
4.1. Chapter Overview
4.2. Large Volume Wearable Injectors: Overall Market Landscape
4.3. Large Volume Wearable Injectors for Non-Insulin Drugs: Market Landscape
4.3.1.1. Analysis by Status of Development
4.3.1.2. Analysis by Type of Device
4.3.1.3. Analysis by Route of Administration
4.3.1.4. Analysis by Therapeutic Area
4.3.1.5. Analysis by Type of Technology
4.3.1.6. Analysis by Type of Dose
4.3.1.7. Analysis by Mode of Injection
4.3.1.8. Analysis by Volume / Storage Capacity (in mL)
4.3.1.9. Analysis by Actuation Mechanism
4.3.1.10. Analysis by Usability
4.3.1.11. Analysis by Availability of Prefilled Drug Reservoir
4.3.1.12. Analysis by Availability of Connectivity
4.3.1.13. Analysis by Drug Compatibility
4.3.1.14. Analysis by Drug Container
4.4. Large Volume Wearable Injectors for Non-Insulin Drugs: Developer Landscape
4.4.1.1. Analysis by Year of Establishment
4.4.1.2. Analysis by Company Size
4.4.1.3. Analysis by Region of Headquarters
4.4.1.4. Analysis by Location of Headquarters
4.3.1.5. Leading Players: Analysis by Number of Products Manufactured


5. LARGE VOLUME DRUG DEVICE COMBINATIONS: CURRENT MARKET LANDSCAPE
5.1. Chapter Overview
5.2. Large Volume Drug Device Combinations: Market Landscape
5.2.1.1. Analysis by Status of Development
5.2.1.2. Analysis by Type of Device
5.2.1.3. Analysis by Route of Administration
5.2.1.4. Analysis by Therapeutic Area
5.2.1.5. Analysis by Drug Compatibility
5.2.1.6. Analysis by Drug Container
5.2.1.7. Analysis by Type of Dose
5.2.1.8. Analysis by Mode of Injection
5.2.1.9. Analysis by Mechanism of Action
5.2.1.10. Analysis by Type of Technology
5.2.1.11. Analysis by Volume / Storage Capacity (in mL)
5.2.1.12. Analysis by Usability
5.3 Large Volume Drug Device Combinations: Developer Landscape
5.3.1.1. Analysis by Year of Establishment
5.3.1.2. Analysis by Company Size
5.3.1.3. Analysis by Location of Headquarters
5.3.1.4. Leading Players: Analysis by Number of Products Manufactured


6. LARGE VOLUME WEARABLE INJECTORS FOR INSULIN DRUGS: CURRENT MARKET LANDSCAPE
6.1. Chapter Overview
6.2. Large Volume Wearable Injectors for Insulin Drugs: Market Landscape
6.2.1.1. Analysis by Status of Development
6.2.1.2. Analysis by Type of Device
6.2.1.3. Analysis by Volume / Storage Capacity (in mL)
6.2.1.4. Analysis by Usability
6.2.1.5. Analysis by Availability of Prefilled Drug Reservoir
6.2.1.6. Analysis by Type of Dose
6.2.1.7. Analysis by Combination Insulin
6.2.1.8. Analysis by Non-Interoperable Device
6.2.1.9. Analysis by Availability of Continuous Glucose Monitoring (CGM) / Blood Glucose Meters (BGM) System
6.2.1.10. Analysis by Availability of Automated Insulin Delivery (AID) Feature
6.2.1.11. Analysis by Availability of Automatic Insulin Delivery (AID) / Artificial Pancreas
6.2.1.12. Analysis by Availability of Connectivity
6.2.1.13. Analysis by Device Control Features
6.3. Large Volume Wearable Injectors for Insulin Drugs: Developer Landscape
6.3.1.1. Analysis by Year of Establishment
6.3.1.2. Analysis by Company Size
6.3.1.3. Analysis by Location of Headquarters
6.3.1.4. Leading Players: Analysis by Number of Products Manufactured


7. PRODUCT COMPETITIVENESS ANALYSIS
7.1. Chapter Overview
7.2. Methodology
7.3. Assumptions / Key Parameters
7.4. Product Competitiveness Analysis
7.4.1. Large Volume Wearable Injectors for Non-Insulin Drugs
7.4.2. Large Volume Drug Device Combinations
7.4.3. Large Volume Wearable Injectors for Insulin Drugs


8. LARGE VOLUME WEARABLE INJECTORS: COMPANY PROFILES
8.1. Chapter Overview
8.2. Large Volume Wearable Injectors for Non-Insulin Drugs: Key Players
8.2.1. Becton Dickinson
8.2.1.1. Company Snapshot
8.2.1.2. Financial Information
8.2.1.3. Product Portfolio
8.2.1.4. Recent Developments and Future Outlook
8.2.2. Bespak
8.2.2.1. Company Snapshot
8.2.2.2. Financial Information
8.2.2.3. Product Portfolio
8.2.2.4. Recent Developments and Future Outlook
8.2.3. Enable Injections
8.2.3.1. Company Snapshot
8.2.3.2. Product Portfolio
8.2.3.3. Recent Developments and Future Outlook
8.2.4. Insulet
8.2.4.1. Company Snapshot
8.2.4.2. Financial Information
8.2.4.3. Product Portfolio
8.2.4.4. Recent Developments and Future Outlook
8.2.5. Roche
8.2.5.1. Company Snapshot
8.2.5.2. Financial Information
8.2.5.3. Product Portfolio
8.2.5.4. Recent Developments and Future Outlook
8.2.6. Sensile Medical
8.2.6.1. Company Snapshot
8.2.6.2. Product Portfolio
8.2.6.3. Recent Developments and Future Outlook
8.2.7. Sonceboz
8.2.7.1. Company Snapshot
8.2.7.2. Product Portfolio
8.2.7.3. Recent Developments and Future Outlook
8.2.8. SteadyMed Therapeutics
8.2.8.1. Company Snapshot
8.2.8.2. Product Portfolio
8.2.8.3. Recent Developments and Future Outlook
8.2.9. Weibel CDS
8.2.9.1. Company Snapshot
8.2.9.2. Product Portfolio
8.2.9.3. Recent Developments and Future Outlook
8.2.10. West Pharmaceutical Services
8.2.10.1. Company Snapshot
8.2.10.2. Financial Information
8.2.10.3. Product Portfolio
8.2.10.4. Recent Developments and Future Outlook
8.3. Large Volume Wearable Injectors for Insulin Drugs: Key Players
8.3.1. CeQur
8.3.1.1. Company Snapshot
8.3.1.2. Product Portfolio
8.3.1.3. Recent Developments and Future Outlook
8.3.2. Debiotech
8.3.2.1. Company Snapshot
8.3.2.2. Product Portfolio
8.3.2.3. Recent Developments and Future Outlook
8.3.3. Eli Lilly
8.3.3.1. Company Snapshot
8.3.3.2. Financial Information
8.3.3.3. Product Portfolio
8.3.3.4. Recent Developments and Future Outlook
8.3.4. Medtronic
8.3.4.1. Company Snapshot
8.3.4.2. Financial Information
8.3.4.3. Product Portfolio
8.3.4.4. Recent Developments and Future Outlook
8.3.5. PharmaSens
8.3.5.1. Company Snapshot
8.3.5.2. Product Portfolio
8.3.5.3. Recent Developments and Future Outlook
8.3.6. SOOIL Development
8.3.6.1. Company Snapshot
8.3.6.2. Product Portfolio
8.3.6.3. Recent Developments and Future Outlook
8.3.7. Tandem Diabetes Care
8.3.7.1. Company Snapshot
8.3.7.2. Financial Information
8.3.7.3. Product Portfolio
8.3.7.4. Recent Developments and Future Outlook


9. DRUG-DEVICE COMBINATIONS: TABULATED PROFILES
9.1. Chapter Overview
9.2. 3M™ hMTS (Adalimumab)
9.3. D-mine® Pump (Apomorphine)
9.4. ND0701 (Apomorphine)
9.5. SMT-301 (Bupivacaine)
9.6. sc2Wear® Infusor (Ceftriaxone)
9.7. 3 mL Micropump (Furosemide)
9.8. FUROSCIX® On-body Infusor (Furosemide)
9.9. Herceptin® sc Injection (Herceptin)
9.10. SMT-201(Ketorolac)
9.11. ND0612 and ND0901 (Levodopa and Carbidopa)
9.12. The LUTREPULSE® System (Lutrepulse)
9.13. Neulasta OnPro™ On-body Injector (Neulasta)
9.14. Pushtronex® System (Repatha)
9.15. ULTOMRIS® (Ravulizumab)
9.16. Trevyent® (Treprostinil)


10. PARTNERSHIPS AND COLLABORATIONS
10.1. Chapter Overview
10.2. Partnership Models
10.3. List of Partnerships and Collaborations
10.3.1. Analysis by Year of Partnership
10.3.2. Analysis by Type of Partner
10.3.3. Analysis by Type of Partnership
10.3.4. Analysis by Type of Device
10.3.5. Analysis by Type of Technology
10.3.6. Analysis by Year of Partnership and Type of Partner
10.3.7. Most Active Players: Analysis by Number of Partnerships
10.3.8. Most Active Players: Analysis by Type of Partnership
10.3.9. Regional Analysis
10.3.10. Intercontinental and Intracontinental Agreements


11. KEY ACQUISITION TARGETS
11.1. Chapter Overview
11.2. Scope and Methodology
11.3. Scoring Criteria and Key Assumptions
11.4. Potential Acquisition Targets for Players Offering Non-Insulin Drug Delivery Players
11.5. Potential Acquisition Targets for Players Offering Insulin Drug Delivery Players
11.6. Concluding Remarks


12. PATENT ANALYSIS
12.1. Chapter Overview
12.2. Scope and Methodology
12.3. Large Volume Wearable Injectors: Patent Analysis
12.3.1. Analysis by Publication Year
12.3.2. Analysis by Issuing Authority / Patent Offices Involved
12.3.3. Analysis by CPC Symbols
12.3.4. Word Cloud Analysis: Emerging Focus Areas
12.3.5. Analysis by Type of Organization
12.3.6 Leading Industry Players: Analysis by Number of Patents
12.3.7. Leading Non-Industry Players: Analysis by Number of Patents
12.4. Large Volume Wearable Injectors: Benchmarking Patent Analysis
12.4.1. Analysis by Patent Age, 2001-2021
12.2. Large Volume Wearable Injectors: Patent Valuation Analysis


13. LARGE VOLUME WEARABLE INJECTORS: LIKELY DRUG CANDIDATES
13.1. Chapter Overview
13.2. Marketed Drugs
13.2.1. Most Likely Candidates for Delivery via Large Volume Wearable Injectors
13.2.2. Likely Candidates for Delivery via Large Volume Wearable Injectors
13.2.3. Less Likely Candidates for Delivery via Large Volume Wearable Injectors
13.2.4. Unlikely Candidates for Delivery via Large Volume Wearable Injectors
13.3. Clinical stage Drug Candidates
13.3.1. Biologics
13.3.1.1. Most Likely Candidates for Delivery via Large Volume Wearable Injectors
13.3.1.2. Likely Candidates for Delivery via Large Volume Wearable Injectors
13.3.1.3. Less Likely Candidates for Delivery via Large Volume Wearable Injectors
13.3.1.4. Unlikely Candidates for Delivery via Large Volume Wearable Injectors
13.4.2. Small Molecules
13.4.2.1. Most Likely Candidates for Delivery via Large Volume Wearable Injectors
13.4.2.2. Likely Candidates for Delivery via Large Volume Wearable Injectors
13.4.2.3. Less Likely Candidates for Delivery via Large Volume Wearable Injectors
13.4.2.4. Unlikely Candidates for Delivery via Large Volume Wearable Injectors


14. CLINICAL TRIAL ANALYSIS
14.1. Chapter Overview
14.2. Scope and Methodology
14.3. Large Volume Wearable Injectors: Clinical Trial Analysis
14.3.1. Analysis by Trial Registration Year
14.3.2. Analysis by Trial Phase
14.3.3. Analysis by Trial Recruitment Status
14.3.4. Analysis by Study Design
14.3.5. Analysis by Type of Sponsor / Collaborator
14.3.6. Most Active Players: Analysis by Number of Registered Trials
14.3.7. Word Cloud: Key Focus Areas
14.3.8. Analysis by Therapeutic Area
14.3.10. Geographical Analysis by Number of Clinical Trials
14.3.11. Geographical Analysis by Enrolled Patient Population
14.3.12. Analysis by Clinical Endpoints


15. FUNDING AND INVESTMENT ANALYSIS
15.1. Chapter Overview
15.2. Types of Funding
15.3. Large Volume Wearable Injectors: Recent Funding Instances
15.3.1. Analysis by Year of Investment
15.3.2. Analysis by Year and Amount Invested
15.3.3. Analysis by Type of Funding
15.3.4. Analysis by Year and Type of Funding
15.3.5. Analysis by Type of Funding and Amount Invested
15.3.6. Analysis by Type of Device and Amount Invested
15.3.7. Analysis by Target Disease Indication
15.3.8. Leading Players: Analysis by Number of Funding Instances
15.3.9. Leading Players: Analysis by Amount Invested
15.3.10. Most Active Investors: Analysis by Number of Instances
15.3.11. Analysis by Geography


16. CASE STUDY: ROLE OF CONTRACT MANUFACTURING ORGANIZATIONS IN DEVICE DEVELOPMENT SUPPLY CHAIN
16.1. Chapter Overview
16.2. Device Development Supply Chain
16.3. Role of Contract Manufacturing Organizations (CMOs) in Device Development
16.4. List of CMOs
16.4.1. Contract Manufacturers: Geographical Distribution and Services Offered
16.5 Medical Device: Product Design and Development


17. REGULATORY AND REIMBURSEMENT LANDSCAPE FOR MEDICAL DEVICES
17.1. Chapter Overview
17.2. General Regulatory and Reimbursement Guidelines for Medical Devices
17.3. Regulatory and Reimbursement Landscape in North America
17.3.1. The US Scenario
17.3.1.1. Regulatory Authority
17.3.1.2. Review / Approval Process
17.3.1.3. Reimbursement Landscape
17.3.1.3.1. Payer Mix
17.3.1.3.2. Reimbursement Process
17.3.2. The Canadian Scenario
17.3.2.1. Regulatory Authority
17.3.2.2. Review / Approval Process
17.3.2.3. Reimbursement Landscape
17.3.2.3.1. Payer Mix
17.3.2.3.2. Reimbursement Process
17.3.3. The Mexican Scenario
17.3.3.1. Regulatory Authority
17.3.3.2. Review / Approval Process
17.3.3.3. Reimbursement Landscape
17.3.3.3.1. Payer Mix
17.4. Regulatory and Reimbursement Landscape in Europe
17.4.1. Overall Scenario
17.4.1.1. Overall Regulatory Authority
17.4.1.2. Overall Review / Approval Process
17.4.2. The UK Scenario
17.4.2.1. Regulatory Authority
17.4.2.2. Review / Approval Process
17.4.2.3. Reimbursement Landscape
17.4.2.3.1. Payer Mix
17.4.2.3.2. Reimbursement Process
17.4.3. The French Scenario
17.4.3.1. Regulatory Authority
17.4.3.2. Review / Approval Process
17.4.3.3. Reimbursement Landscape
17.4.3.3.1. Payer Mix
17.4.3.3.2. Reimbursement Process
17.4.4. The German Scenario
17.4.4.1. Regulatory Authority
17.4.4.2. Review / Approval Process
17.4.4.3. Reimbursement Landscape
17.4.4.3.1. Payer Mix
17.4.4.3.2. Reimbursement Process
17.4.5. The Italian Scenario
17.4.5.1. Regulatory Authority
17.4.5.2. Review / Approval Process
17.4.5.3. Reimbursement Landscape
17.4.5.3.1. Payer Mix
17.4.5.3.2. Reimbursement Process
17.4.6. The Spanish Scenario
17.4.6.1. Regulatory Authority
17.4.6.2. Review / Approval Process
17.4.6.3. Reimbursement Landscape
17.4.6.3.1. Payer Mix
17.4.6.3.2. Reimbursement Process
17.5. Regulatory and Reimbursement Landscape in Asia-Pacific and Rest of the World
17.5.1. The Australian Scenario
17.5.1.1. Regulatory Authority
17.5.1.2. Review / Approval Process
17.5.1.3. Reimbursement Landscape
17.5.1.3.1. Payer Mix
17.5.1.3.2. Reimbursement Process
17.5.2. The Brazilian Scenario
17.5.2.1. Regulatory Authority
17.5.2.2. Review / Approval Process
17.5.2.3. Reimbursement Landscape
17.5.2.3.1. Payer Mix
17.5.2.3.2. Reimbursement Process
17.5.3. The Chinese Scenario
17.5.3.1. Regulatory Authority
17.5.3.2. Review / Approval Process
17.5.3.3. Reimbursement Landscape
17.5.3.3.1. Payer Mix
17.5.3.3.2. Reimbursement Process
17.5.4. The Indian Scenario
17.5.4.1. Regulatory Authority
17.5.4.2. Review / Approval Process
17.5.4.3. Reimbursement Landscape
17.5.4.3.1. Payer Mix
17.5.5. The Israeli Scenario
17.5.5.1. Regulatory Authority
17.5.5.2. Review / Approval Process
17.5.5.3. Reimbursement Landscape
17.5.5.3.1. Payer Mix
17.5.6. The Japanese Scenario
17.5.6.1. Regulatory Authority
17.5.6.2. Review / Approval Process
17.5.6.3. Reimbursement Landscape
17.5.6.3.1. Payer Mix
17.5.6.3.2. Reimbursement Process
17.5.7. The New Zealand Scenario
17.5.7.1. Regulatory Authority
17.5.7.2. Review / Approval Process
17.5.7.3. Reimbursement Landscape
17.5.7.3.1. Payer Mix
17.5.7.3.2. Reimbursement Process
17.5.8. The Singaporean Scenario
17.5.8.1. Regulatory Authority
17.5.8.2. Review / Approval Process
17.5.8.3. Reimbursement Landscape
17.5.8.3.1. Payer Mix
17.5.8.3.2. Reimbursement Process
17.5.9. The South Korea Scenario
17.5.9.1. Regulatory Authority
17.5.9.2. Review / Approval Process
17.5.9.3. Reimbursement Landscape
17.5.9.3.1. Payer Mix
17.5.9.3.2. Reimbursement Process
17.5.10. The South African Scenario
17.5.10.1. Regulatory Authority
17.5.10.2. Review / Approval Process
17.5.10.3. Reimbursement Landscape
17.5.11. The Taiwanese Scenario
17.5.11.1. Regulatory Authority
17.5.11.2. Review / Approval Process
17.5.11.3. Reimbursement Landscape
17.5.11.3.1. Payer Mix
17.5.11.3.2. Reimbursement Process
17.5.12. The Thailand Scenario
17.5.12.1. Regulatory Authority
17.5.12.2. Review / Approval Process
17.5.12.3. Reimbursement Landscape
17.6. Comparison of Regional Regulatory Environment
17.7. Concluding Remarks


18. MARKET SIZING AND OPPORTUNITY ANALYSIS
18.1. Chapter Overview
18.2. Forecast Methodology and Key Assumptions
18.3. Global Large Volume Wearable Injectors Market for Non-Insulin Drugs, 2021-2035 (By Value)
18.3.1. Global Large Volume Wearable Injectors Market for Non-Insulin Drugs: Distribution by Type of Device, 2021-2035 (By Value)
18.3.2 Global Large Volume Wearable Injectors Market for Non-Insulin Drugs: Distribution by Usability, 2021-2035 (By Value)
18.3.3 Global Large Volume Wearable Injectors Market for Non-Insulin Drugs: Distribution by Therapeutic Area, 2021-2035 (By Value)
18.4 Large Volume Wearable Injectors Market for Non-Insulin Drugs in North America, 2021-2035 (By Value)
18.4.1 Large Volume Wearable Injectors Market for Non-Insulin Drugs in North America: Distribution by Type of Device, 2021-2035 (By Value)
18.4.2 Large Volume Wearable Injectors Market for Non-Insulin Drugs in North America: Distribution by Usability, 2021-2035 (By Value)
18.4.3 Large Volume Wearable Injectors Market for Non-Insulin Drugs in North America: Distribution by Therapeutic Area, 2021-2035 (By Value)
18.5 Large Volume Wearable Injectors Market for Non-Insulin Drugs in Europe, 2021-2035 (By Value)
18.5.1 Large Volume Wearable Injectors Market for Non-Insulin Drugs in Europe: Distribution by Type of Device, 2021-2035 (By Value)
18.5.2 Large Volume Wearable Injectors Market for Non-Insulin Drugs in Europe: Distribution by Usability, 2021-2035 (By Value)
18.5.3 Large Volume Wearable Injectors Market for Non-Insulin Drugs in Europe: Distribution by Therapeutic Area, 2021-2035 (By Value)
18.6 Large Volume Wearable Injectors Market for Non-Insulin Drugs in Asia Pacific, 2021-2035 (By Value)
18.6.1 Large Volume Wearable Injectors Market for Non-Insulin Drugs in Asia Pacific: Distribution by Type of Device, 2021-2035 (By Value)
18.6.2 Large Volume Wearable Injectors Market for Non-Insulin Drugs in Asia Pacific: Distribution by Usability, 2021-2035 (By Value)
18.6.3 Large Volume Wearable Injectors Market for Non-Insulin Drugs in Asia Pacific: Distribution by Therapeutic Area, 2021-2035 (By Value)
18.7 Large Volume Wearable Injectors Market for Non-Insulin Drugs in Latin America, 2021-2035 (By Value)
18.7.1 Large Volume Wearable Injectors Market for Non-Insulin Drugs in Latin America: Distribution by Type of Device, 2021-2035 (By Value)
18.7.2 Large Volume Wearable Injectors Market for Non-Insulin Drugs in Latin America: Distribution by Usability, 2021-2035 (By Value)
18.7.3 Large Volume Wearable Injectors Market for Non-Insulin Drugs in Latin America: Distribution by Therapeutic Area, 2021-2035 (By Value)
18.8 Large Volume Wearable Injectors Market for Non-Insulin Drugs in Middle East and North Africa, 2021-2035 (By Value)
18.8.1 Large Volume Wearable Injectors Market for Non-Insulin Drugs in Middle East and North Africa: Distribution by Type of Device, 2021-2035 (By Value)
18.8.2 Large Volume Wearable Injectors Market for Non-Insulin Drugs in Middle East and North Africa: Distribution by Usability, 2021-2035 (By Value)
18.8.3 Large Volume Wearable Injectors Market for Non-Insulin Drugs in Middle East and North Africa: Distribution by Therapeutic Area, 2021-2035 (By Value)
18.9. Global Large Volume Wearable Injectors Market for Non-Insulin Drugs, 2021-2035 (By Volume)
18.9.1. Global Large Volume Wearable Injectors Market for Non-Insulin Drugs: Distribution by Type of Device, 2021-2035 (By Volume)
18.9.2 Global Large Volume Wearable Injectors Market for Non-Insulin Drugs: Distribution by Usability, 2021-2035 (By Volume)
18.9.3 Global Large Volume Wearable Injectors Market for Non-Insulin Drugs: Distribution by Therapeutic Area, 2021-2035 (By Volume)
18.1 Large Volume Wearable Injectors Market for Non-Insulin Drugs in North America, 2021-2035 (By Volume)
18.10.1 Large Volume Wearable Injectors Market for Non-Insulin Drugs in North America: Distribution by Type of Device, 2021-2035 (By Volume)
18.10.2 Large Volume Wearable Injectors Market for Non-Insulin Drugs in North America: Distribution by Usability, 2021-2035 (By Volume)
18.10.3 Large Volume Wearable Injectors Market for Non-Insulin Drugs in North America: Distribution by Therapeutic Area, 2021-2035 (By Volume)
18.11 Large Volume Wearable Injectors Market for Non-Insulin Drugs in Europe, 2021-2035 (By Volume)
18.11.1 Large Volume Wearable Injectors Market for Non-Insulin Drugs in Europe: Distribution by Type of Device, 2021-2035 (By Volume)
18.11.2 Large Volume Wearable Injectors Market for Non-Insulin Drugs in Europe: Distribution by Usability, 2021-2035 (By Volume)
18.11.3 Large Volume Wearable Injectors Market for Non-Insulin Drugs in Europe: Distribution by Therapeutic Area, 2021-2035 (By Volume)
18.12 Large Volume Wearable Injectors Market for Non-Insulin Drugs in Asia Pacific, 2021-2035 (By Value)
18.12.1 Large Volume Wearable Injectors Market for Non-Insulin Drugs in Asia Pacific: Distribution by Type of Device, 2021-2035 (By Value)
18.12.2 Large Volume Wearable Injectors Market for Non-Insulin Drugs in Asia Pacific: Distribution by Usability, 2021-2035 (By Value)
18.12.3 Large Volume Wearable Injectors Market for Non-Insulin Drugs in Asia Pacific: Distribution by Therapeutic Area, 2021-2035 (By Value)
18.13 Large Volume Wearable Injectors Market for Non-Insulin Drugs in Latin America, 2021-2035 (By Value)
18.13.1 Large Volume Wearable Injectors Market for Non-Insulin Drugs in Latin America: Distribution by Type of Device, 2021-2035 (By Value)
18.13.2 Large Volume Wearable Injectors Market for Non-Insulin Drugs in Latin America: Distribution by Usability, 2021-2035 (By Value)
18.13.3 Large Volume Wearable Injectors Market for Non-Insulin Drugs in Latin America: Distribution by Therapeutic Area, 2021-2035 (By Value)
18.14 Large Volume Wearable Injectors Market for Non-Insulin Drugs in Middle East and North Africa, 2021-2035 (By Value)
18.14.1 Large Volume Wearable Injectors Market for Non-Insulin Drugs in Middle East and North Africa: Distribution by Type of Device, 2021-2035 (By Value)
18.14.2 Large Volume Wearable Injectors Market for Non-Insulin Drugs in Middle East and North Africa: Distribution by Usability, 2021-2035 (By Value)
18.14.3 Large Volume Wearable Injectors Market for Non-Insulin Drugs in Middle East and North Africa: Distribution by Therapeutic Area, 2021-2035 (By Value)
18.15. Global Large Volume Wearable Injectors Market for Insulin, 2021-2035
18.15.1 Global Large Volume Wearable Injectors Market for Insulin: Distribution by Type of Device, 2021-2035
18.15.2 Global Large Volume Wearable Injectors Market for Insulin: Distribution by Usability, 2021-2035
18.16 Large Volume Wearable Injectors Market for Insulin in North America, 2021-2035
18.16.1 Large Volume Wearable Injectors Market for Insulin in North America: Distribution by Type of Device, 2021-2035
18.16.2 Large Volume Wearable Injectors Market for Insulin in North America: Distribution by Usability, 2021-2035
18.17 Large Volume Wearable Injectors Market for Insulin in Europe, 2021-2035
18.17.1 Large Volume Wearable Injectors Market for Insulin in Europe: Distribution by Type of Device, 2021-2035
18.17.2 Large Volume Wearable Injectors Market for Insulin in Europe: Distribution by Usability, 2021-2035
18.18 Large Volume Wearable Injectors Market for Insulin in Asia Pacific, 2021-2035
18.18.1 Large Volume Wearable Injectors Market for Insulin in Asia Pacific: Distribution by Type of Device, 2021-2035
18.18.2 Large Volume Wearable Injectors Market for Insulin in Asia Pacific: Distribution by Usability, 2021-2035
18.19 Large Volume Wearable Injectors Market for Insulin in Latin America, 2021-2035
18.19.1 Large Volume Wearable Injectors Market for Insulin in Latin America: Distribution by Type of Device, 2021-2035
18.19.2 Large Volume Wearable Injectors Market for Insulin in Latin America: Distribution by Usability, 2021-2035
18.2 Large Volume Wearable Injectors Market for Insulin in Middle East and North Africa, 2021-2035
18.20.1 Large Volume Wearable Injectors Market for Insulin in Middle East and North Africa: Distribution by Type of Device, 2021-2035
18.20.2 Large Volume Wearable Injectors Market for Insulin in Middle East and North Africa: Distribution by Usability, 2021-2035


19. SWOT ANALYSIS
19.1. Chapter Overview
19.2. SWOT Analysis
19.2.1. Strengths
19.2.2. Weaknesses
19.2.3. Opportunities
19.2.4. Threats
19.3. Large Volume Wearable Injectors: Future Growth Opportunities
19.3.1. Rising Focus on Self-Administration of Drugs
19.3.2. Possibility of Integration with Mobile Applications
19.3.3. Potential Life Cycle Management Tool
19.3.4. Potential Usability for Multiple Therapeutic Areas


20. EXECUTIVE INSIGHTS
20.1. Chapter Overview
20.2. Medipacs
20.2.1. Company Snapshot
20.2.2. Interview Transcript: Mark Banister, Chief Executive Officer
20.3. Enable Injections
20.3.1. Company Snapshot
20.3.2. Interview Transcript: Michael Hooven, Chief Executive Officer
20.4. Subcuject
20.4.1. Company Snapshot
20.4.2. Interview Transcript: Jesper Roested, Chief Executive Officer
20.5. scPharmaceuticals
20.5.1. Company Snapshot
20.5.2. Interview Transcript: Pieter Muntendam, former President and Chief Executive Officer
20.6. Elcam Medical
20.6.1. Company Snapshot
20.6.2. Interview Transcript: Menachem Zucker, Vice President and Chief Scientist
20.7. West Pharmaceutical Services
20.7.1. Company Snapshot
20.7.2. Interview Transcript: Graham Reynolds, Former Vice President and General Manager, Biologics
20.8. Ypsomed
20.8.1. Company Snapshot
20.8.2. Interview Transcript: Vice President
20.9. Debiotech
20.9.1. Company Snapshot
20.9.2. Interview Transcript: Eric Chappel, R&D Project Manager
20.10. Sorrel Medical
20.10.1. Company Snapshot
20.10.2. Interview Transcript: Mindy Katz, Vice President, Marketing and Alliance Management


21. CONCLUDING REMARKS22. APPENDIX 1: TABULATED DATA23. APPENDIX 2: LIST OF COMPANIES AND ORGANIZATIONS

Companies Mentioned

  • 3E Bioventures
  • 3M
  • 5AM Ventures
  • Abbott
  • AbbVie
  • AbGenomics
  • Ablynx
  • Acceleron Pharma
  • ADC Therapeutics
  • Adrenomed
  • Aduro BioTech
  • Advaxis
  • Aeglea BioTherapeutics
  • Aesica Pharmaceuticals
  • Aetna
  • Affibody
  • Affimed
  • Agenus
  • AgonOx
  • Akesobio Australia
  • Alder BioPharmaceuticals
  • Alector
  • Alexion Pharmaceuticals
  • Alkahest
  • Alkermes
  • Allakos
  • Allergan
  • Allozyne
  • Alnylam Pharmaceuticals
  • AlphaCore Pharma
  • Altor BioScience
  • Ambrx
  • Amgen
  • Amicus Therapeutics
  • Amphivena Therapeutics
  • Amplyx Pharmaceuticals
  • AMSL Diabetes
  • Angiochem
  • Animas Corporation
  • Antaros Medical
  • Apellis Pharmaceuticals
  • Aptevo Therapeutics
  • Argenx 
  • Argos Therapeutics
  • ArmaGen
  • ARMO BioSciences
  • Aronora
  • ArrowMark Partners
  • Arthurian Life Sciences
  • Asante Solutions
  • Ascensia Diabetes Care
  • Asklepion Pharmaceuticals
  • Astellas Pharma
  • AstraZeneca
  • Atridia
  • Axon Neuroscience
  • Baril 
  • Basilea Pharmaceutica
  • Bastian Solutions
  • Baxter International
  • Bayer
  • Bayhill Therapeutics
  • Becton Dickinson
  • BeiGene
  • Beijing Dongfang Biotech
  • Bespak
  • Beta Bionics
  • Bigfoot Biomedicals
  • BioArctic
  • BIOCAD
  • Biogen
  • BioIntegrator
  • Bioject Medical Technologies
  • BioMarin Pharmaceutical
  • Bioniz Therapeutics
  • BioNTech
  • Bio-Path Holdings
  • Biotest Pharmaceuticals
  • Bio-Thera Solutions
  • Blackstone Life Sciences
  • BOCIG
  • Boehringer Ingelheim
  • Boston Pharmaceuticals
  • Calando Pharmaceuticals
  • Calibra Medical 
  • Cam Med
  • CANbridge Life Sciences
  • Cancer Advances
  • Capital District Physicians’ Health Plan
  • Cara Therapeutics
  • Cardiac Pacemakers
  • Cardiome Pharma
  • Care Innovations 
  • Catalyst Biosciences
  • CCBio
  • Cecelia Health
  • Celgene
  • Celldex Therapeutics
  • CEL-SCI
  • CeQur
  • Chimerix
  • CHO Pharma
  • Chugai Pharmaceutical
  • Cincinnati Children's Hospital
  • CincyTech
  • Cintrifuse
  • Cleveland BioLabs
  • Cleveland Clinic
  • Cormorant Asset management
  • Conjupro Biotherapeutics
  • Consort Medical (Bespak Injectables)
  • ContraFect
  • ConvaTec
  • Cordant Group
  • Cormorant Asset Management
  • Cour Pharmaceutical Development
  • Credit Suisse Entrepreneur Capital
  • CStone Pharmaceuticals
  • CureTech
  • CytoDyn
  • Daikyo Seiko
  • Datwyler
  • Debiotech
  • Deka
  • Dekkun
  • Delta-Fly Pharma
  • Dendreon
  • Dexcom
  • Diabeloop
  • DreaMed Diabetes
  • Duke Clinical Research Institute 
  • E3D Elcam Drug Delivery Devices
  • EG GILERO
  • Eisai
  • Eitan Medical
  • Eli Lilly
  • Elusys Therapeutics
  • EMD Serono
  • Emergent BioSolutions
  • Enable Injections
  • Endeavour Vision
  • Endocyte
  • EnGeneIC 
  • EoFlow
  • EpicentRx
  • Eris Lifesciences
  • Eventide
  • EVER Pharma
  • Evidation Health
  • F2G 
  • Fabrico
  • Farallon Capital
  • Federated Hermes Kaufmann Funds
  • Ferring Pharmaceuticals
  • FibroGen
  • Fitbit
  • Five Prime Therapeutics
  • Flex
  • Galaxy Biotech
  • Galena Biopharma
  • Genentech
  • GENERON
  • GeneScience Pharmaceuticals
  • Genexine
  • Genzyme
  • Gerresheimer
  • Gilead Sciences
  • Glenmark Pharmaceuticals
  • Gliknik
  • Glooko
  • GMS Capital
  • Guangzhou Cellprotek Pharmaceutical
  • HAL Allergy
  • Halozyme Therapeutics
  • Hanmi Pharmaceutical
  • Haselmeier
  • Hastings
  • Health Innovations
  • HealthPrize Technologies
  • Helsinn Healthcare
  • Huabo Biopharm
  • Huons
  • IBM Watson 
  • Idea Bridge
  • ImClone Systems
  • Immatics Biotechnologies
  • Immune Response BioPharma
  • ImmunGene
  • Immunocore
  • ImmunoFrontier
  • ImmunoGen
  • Immunomedics
  • Immunotope
  • Immunovaccine
  • Implicit Bioscience
  • Incuron
  • Incyte
  • INKEF Capital
  • Innate Pharma
  • Innovent Biologics
  • Inovio Pharmaceuticals
  • Insight Product Development
  • Insulet
  • iNtRON Biotechnology
  • Invest-NL
  • IO Biotech
  • iOMEDICO AG
  • Ionis Pharmaceuticals
  • Ipsen
  • iSense CGM
  • ISU ABXIS
  • Janssen
  • Janus Capital
  • Janus Henderson
  • Jeffrey BrewerBryan Mazlish
  • Jerini
  • JHL Biotech
  • Jiangsu Hengrui Medicine
  • Jiangsu T-Mab Biopharma
  • Johnson & Johnson
  • Jounce Therapeutics
  • KaloBios Pharmaceuticals
  • Kingdon Capital
  • Kissei Pharmaceutical
  • Klue
  • Kreos Capital.
  • Kura Oncology
  • Kyowa Hakko Kirin
  • Labrys Biologics
  • LB investments
  • LEO Pharma
  • Levicept
  • Life Science Partner
  • LifeSci Venture Partners
  • Livongo
  • Loxo Oncology 
  • LSP
  • Lundbeckfond Ventures
  • MabVax Therapeutics
  • MacroGenics
  • Madryn Asset Management
  • MedImmune
  • Medipacs
  • Medtronic
  • Medtrum Technologies
  • Menarini Diagnostics
  • Merck
  • Mereo BioPharma
  • Merrimack Pharmaceuticals
  • Mersana Therapeutics
  • Merus
  • Merz Pharma
  • Millennium Pharmaceuticals
  • MiNA Therapeutics
  • miRagen Therapeutics
  • Mitsubishi Tanabe Pharma Corporation
  • Mode AGC 
  • Moderna Therapeutics
  • Molecular Partners
  • Molecular Templates
  • Molex
  • MolMed
  • Montagu Private Equity 
  • MorphoSys
  • Morphotek
  • MOVI
  • MTD Micro Moldings
  • mySugr
  • NanoPass Technologies
  • NantBioScience
  • National Institutes of Health
  • Naurex
  • Navidea Biopharmaceuticals
  • Nemera
  • Neogenix Oncology
  • Neon Therapeutics
  • NeuroDerm
  • National Institute of Diabetes and Digestive and Kidney Diseases
  • Noble
  • Nordic Bioscience
  • Nordic Infucare
  • Northern Biologics
  • Novartis Pharmaceuticals
  • Novimmune
  • NOVO Engineering
  • Novo Nordisk
  • Nuokai Capital
  • Nutrino
  • NZMS Diabetes
  • OBI Pharma
  • Octapharma
  • Ohio Innovation Fund
  • Omeros
  • Oncology Venture
  • OncoMed Pharmaceuticals
  • OncoPep
  • Oncopeptides
  • Oncternal Therapeutics
  • Oncurious
  • Optimer Pharmaceuticals
  • OrbiMed
  • OSE Immunotherapeutics
  • Otsuka Pharmaceutical
  • Owen Mumford
  • Oxford Finance
  • Paion UK
  • Panacea Pharmaceuticals
  • Perceptive Advisors
  • PercuSense
  • Pfizer
  • PharmaMar
  • Pharmapack 
  • PharmaSens
  • PhaseBio Pharmaceuticals
  • Phillips Medisize
  • Philogen
  • Phosplatin Therapeutics
  • Pierre Fabre
  • Pique Therapeutics
  • Polaris Group
  • Polyphor
  • Prescient Therapeutics
  • Prestige BioPharma
  • Promedior
  • Prometheus Laboratories
  • Protalix Biotherapeutics
  • Proven Process Medical Devices
  • Quadrant Capital Advisors
  • Quest PharmaTech
  • Quintessence Biosciences
  • RAUMEDIC
  • Raymond James 
  • Recipharm
  • Recro Pharma
  • Regeneron Pharmaceuticals 
  • REM Systems
  • REMD Biotherapeutics
  • Resolve Therapeutics
  • rEVO Biologics
  • Rhythm Pharmaceuticals
  • Roche
  • Roehr pharmaceuticals
  • R-Pharm
  • RTW
  • Rubin Medical
  • RxActuator
  • Sagentia
  • Samsung Bioepis
  • Samsung Electronics
  • Sandoz
  • Sanofi
  • Santarus
  • Saol Therapeutics
  • Savient Pharmaceuticals
  • Schroder and Bank 
  • scPharmaceuticals 
  • Seattle Genetics
  • Selecta Biosciences
  • Selexys Pharmaceuticals
  • Senseonics
  • Sensile Medical
  • Senvest Capital
  • Sequoia China
  • Serina Therapeutics
  • SFC Fluidics
  • Shire
  • SHL Medical
  • SMC
  • Smile Group
  • Smiths Medical
  • Soleus Capital Management
  • Sonceboz
  • SOOIL Development
  • SPARK Strategic Ideas
  • SQ Innovation
  • SteadyMed Therapeutics
  • Stealth BioTherapeutics
  • Stemline Therapeutics
  • Stevanato Group
  • Subcuject
  • Sumitomo Dainippon Pharma
  • Sun Pharma
  • Sunovion Pharmaceuticals
  • SVB Leerink 
  • Swissfillon
  • SymBio Pharmaceuticals
  • Symphogen
  • Synectic
  • Synermore Biologics
  • Syntimmune
  • Syros Pharmaceuticals
  • TaiMed Biologics
  • Taiwan Liposome Company
  • Takeda Pharmaceutical
  • Tandem Diabetes Care
  • Tanvex BioPharma
  • Tarveda Therapeutics
  • Teva Pharmaceutical
  • TG Therapeutics
  • Theras Group
  • Tolero Pharmaceuticals
  • TRACON Pharmaceuticals
  • Translational Sciences
  • Triplejump
  • TRITECH BioMed
  • Turnstone Biologics
  • Tyndall National Institute
  • TypeZero Technologies
  • Unilife
  • Union Chimique Belge (UCB)
  • United BioPharma
  • United Therapeutics
  • Vaccinex
  • Vaccinogen
  • Valetritas
  • Valtronic
  • vasopharm BIOTECH
  • Verily Life Sciences
  • Vetter Pharma
  • VI Partners
  • ViCentra
  • ViiV Healthcare
  • Visionnaire Ventures
  • Visterra
  • Vivozon
  • Weibel CDS
  • Welldoc
  • West Pharmaceutical Services
  • Wipro 
  • Wockhardt
  • Woodford Investment Management LLP
  • Xbiotech
  • Xencor
  • XOMA
  • Ypsomed 
  • Zafgen
  • Zollner
  • Zuellig Pharma

Methodology

 

 

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