Global Autoinjectors Market by Type of Autoinjector, Route of Administration, Type of Molecule, Therapeutic Indication and Geography: Industry Trends and Global Forecasts, 2021-2035

Report
610 Pages
November 2021
Region: Global
Roots Analysis
ID: 5510467

Overview

According to the National Health Interview Survey (NHIS), nearly 52% of the adult population in the US is diagnosed with at least one chronic condition, such as asthma, diabetes, and hypertension. The annual cost burden associated with chronic disorders in the US is around USD 3.7 trillion; this accounts for nearly 20% of the country’s GDP share. A major share of expenses incurred by patients living with a chronic disorder is driven by the frequent need to medicate, which may require repeated visits to hospitals/out-patient clinics. In addition, patient compliance and adherence to the treatment regimen prove to be a challenge. In order to mitigate this challenge, a wide variety of self-administering injectable drugs have been developed, which impart greater independence and psychological benefits to the patients, as compared to drug administration by healthcare professionals. Amongst the various self-injection devices, autoinjectors have steadily gained prominence, especially for the treatment of emergency and chronic conditions, such as anaphylactic shock and rheumatoid arthritis. The additional features of autoinjectors, such as integrated needle safety, Bluetooth connectivity, and monitoring injection dose history, enable them to resolve several injection-related compliance issues faced by the patients.

Given the inherent benefits of autoinjectors, a number of players have launched their proprietary products in combination with autoinjectors for use across a wide array of disease indications. One of the most widely recognized autoinjector in the market is EpiPen® (Mylan), which is a prefilled epinephrine autoinjector. The generic version of EpiPen received the FDA approval in 2018. Notable examples of other autoinjector-based combination products include Fasenra® Pen (AstraZeneca), Gvoke® Hypopen (Xeris Pharmaceuticals), NUCALA Autoinjector (GlaxoSmithKline), and Vyleesi™ Autoinjector (AMAG Pharmaceuticals®/Palatin Technologies). Apart from being a patient-friendly alternative to conventional drug delivery methods, autoinjectors also serve as potential life cycle management tools; several pharmaceutical players have reformulated their proprietary drugs as autoinjector combination products to expand market exclusivity period. For instance, Amgen reformulated lyophilized Enbrel® for delivery via the SureClick® autoinjector to extend the patent protection of the drug by almost 11 years. Further, it is worth mentioning that several autoinjector developers have made significant efforts in developing novel autoinjector technologies, paving the way for new generation of autoinjector devices. The field is presently witnessing several innovations, such as LED/LCD-based visualization, Bluetooth connectivity, dosage recording, safety lock, visual/audible drug delivery confirmation notifications, and automatic drug reconstitution. In this context, it is worth highlighting that nearly 5,000 patents have been filed/granted, since 2015, for autoinjectors and affiliated products/technologies. We believe that such efforts are likely to drive growth in this market over the coming years.

Scope of the Report

The “Global Autoinjectors Market (4th Edition) by Type of Autoinjector (Disposable and Reusable), Route of Administration (Subcutaneous and Intramuscular), Type of Molecule (Monoclonal Antibody, Peptide, Protein, and Small Molecule), Therapeutic Indication (Anaphylaxis, Multiple Sclerosis, Rheumatoid Arthritis, Migraine, Diabetes, and Others) and Geography (North America, Europe, Asia-Pacific, and Rest of the World): Industry Trends and Global Forecasts, 2021-2035” report features an extensive study of the current market landscape, offering an informed opinion on the likely adoption of autoinjectors till 2035. The report features an in-depth analysis, highlighting the diverse capabilities of stakeholders engaged in this domain.

In addition to other elements, the study includes:

An overview of the current market landscape of autoinjectors that are either marketed/being developed by various stakeholders, providing information on the usability (disposable and reusable), type of primary drug container (cartridge, syringe and vial), volume of container, type of dose (fixed and variable), route of administration (intradermal, intracavernosal, intramuscular and subcutaneous), actuation mechanism (automatic and manual) and feedback mechanism integrated in the device. It also provides details on the developers, highlighting their year of establishment, company size (small, mid-sized, large and very large), and location of headquarters.
A competitiveness analysis of various disposable and reusable autoinjectors, taking into consideration supplier power of their developers (based on year of establishment and company size) and key product specifications, such as route of administration, primary drug container used, injector actuation mechanism, type of dose and user friendliness of the product.
A detailed brand positioning analysis of leading industry players (shortlisted on the basis of strength of product portfolio), highlighting the current perceptions regarding their proprietary brands by taking into consideration several relevant aspects, such as strength and diversity of product portfolio, route of administration, actuation mechanism, geographical presence/reach and supplier power of each company.
An in-depth analysis of the patents that have been filed/granted for autoinjectors, highlighting trends across key parameters, such as type of patent, publication year, issuing authority, CPC classification, emerging focus areas and leading industry players (on the basis of number of patents). It also includes a detailed patent benchmarking and an insightful valuation analysis.
A review of autoinjectors being developed in combination with drugs, featuring details on initial year of approval (for marketed products), phase of development, usability of the device, route of administration (intracavernous, intramuscular and subcutaneous), type of drug molecule (antibody, peptide, protein and small molecule), dose strength, therapeutic area and other approved dosage forms (for marketed products). In addition, the chapter provides details on the developers, including year of establishment, company size and location of headquarters.
Detailed case studies on the most commonly targeted indications, covering history of development and detailed description of the approved autoinjector products, along with their respective mechanisms of action and historical sales records. The study also includes a list of the drugs that are currently being delivered via autoinjectors.
A list of marketed drugs/therapies and pipeline candidates that are likely to be developed in combination with autoinjectors in the near future, shortlisted on the basis of an in-depth analysis that takes into consideration various relevant parameters, such as route of administration, type of drug molecule, target indications, other available dosage forms (for approved drugs) and historical annual sales information (for approved drugs).
Elaborate profiles of autoinjector manufacturers that have more than three devices in their respective product portfolios; each profile features an overview of the company, its financial information (if available), information on its product portfolio, autoinjector device specifications, collaborations, recent developments and an informed future outlook. Additionally, the report includes brief profiles of emerging players that have been established in the past decade.
A list of key opinion leaders (KOLs) within this domain who were short-listed based on their contributions (such as involvement in clinical trials and research publications); it features a schematic world map representation, highlighting the geographical locations of eminent scientists/researchers engaged in this domain.
An analysis of the recent collaborations (since 2016) focused on the development of autoinjectors. It includes partnerships inked by various stakeholders in this domain, covering licensing agreements (specific to technology platforms and product candidates), product development and commercialization agreements, mergers and acquisitions, and other relevant agreements.
A SWOT analysis capturing the key parameters and trends that are likely to influence the future of autoinjectors market.
A case study on the role of CMOs offering services for drug delivery devices; it features a list of service providers, highlighting the various types of services offered for different types of drug-delivery devices.
An overview of the current market landscape of companies engaged in manufacturing prefilled syringes, providing information on year of establishment, company size, geographical location of the headquarters and manufacturing facilities, type of material used (glass and plastic), number of barrel chambers (single chamber and dual chamber), type of needle system (fixed needle system, luer lock and luer cone) and syringe volume.

One of the key objectives of the report was to estimate the existing market size and assess potential future growth opportunities for autoinjector devices. Based on parameters, such as number of commercialized combination products, likely adoption rates and expected pricing, we have provided an informed estimate on the likely evolution of the market over the period 2021-2035. In order to provide a detailed future outlook, our projections have been segmented on the basis of [A] usability (disposable and reusable), [B] route of administration (subcutaneous and intramuscular), [C] type of molecule (monoclonal antibody, peptide, protein and small molecule) [D] therapeutic indication (anaphylaxis, multiple sclerosis, rheumatoid arthritis, migraine, diabetes and other indications), and [E] key geographies (North America, Europe, Asia-Pacific and rest of the World).

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 the report were influenced by discussions held with several players in this industry.

The study includes detailed transcripts of discussions held with the following individuals:

David Daily (CEO and Co-founder, DALI Medical Devices)
Barbara Lead (Chief Executive Officer, Oval Medical Technologies)
William G. Fortina (Business Development Director-Drug Delivery Systems, Duoject Medical Systems)
Douglas Marenzi (Managing Director, PHC Injection Technologies)
Tsachi Shaked (Senior Marketing and BD Director, Injectable Drug Delivery Devices, Elcam Medical)
Jesse Fourt (Design Director, IDEO)
Dennis Lee (Senior Program Officer in CMC, Bill & Melinda Gates Foundation)

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 autoinjector device developers?
For which disease indications are autoinjector-based combination products available?
Which partnership models are commonly adopted by stakeholders developing autoinjectors?
Which drug candidates are likely to be considered for administration via autoinjectors?
How has the intellectual property landscape of autoinjectors evolved over the years?
Who are the Key Opinion Leaders across different regions of the world?
Who are the leading contract manufacturing organizations providing services for autoinjector devices?
What is the share of autoinjector devices, in terms of revenue generation potential, across different disease markets?
How is the current and future opportunity likely to be distributed across key market segments?

Please note: This report can be updated on request. Please contact our Customer Experience team using the Ask a Question widget on our website.

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. Types of Drug Delivery Systems
3.3. Drawbacks of Conventional Parenteral Delivery Systems
3.4. Needlestick Injuries
3.4.1. Incidence and Cost Burden
3.4.2. Government Legislation for the Prevention of Needlestick Injuries
3.5. Emerging Trend of Self-Administration
3.5.1. Rising Burden of Chronic Diseases
3.5.2. Healthcare Cost Savings
3.5.3. Need for Immediate Treatment in Emergency Situations
3.5.4. Growth of Injectable Biologics Market
3.5.5. Addressing Key User Safety Requirements
3.6. Types of Self-administration Devices
3.6.1. Prefilled Syringes
3.6.2. Pen-Injectors
3.6.3. Needle-Free Injectors
3.6.4. Autoinjectors
3.6.5. Large Volume Wearable Injectors
3.7. Overview of Autoinjectors
3.7.1. Components of Autoinjectors
3.7.2. Classification of Autoinjectors
3.7.2.1. On the Basis of Mechanism of Action
3.7.2.2. On the Basis of Usability
3.7.2.3. On the Basis of Type of Dose
3.7.3. Manufacturing / Packaging of Autoinjectors
3.7.4. Benefits of Autoinjectors
3.8. Regulatory Considerations
3.8.1. Medical Devices
3.8.2. Drug Device Combination Products
3.9. Future Perspectives

4. PRIMARY DRUG CONTAINERS

4.1. Chapter Overview
4.2. Types of Packaging
4.3. Introduction to Primary Drug Containers
4.3.1. Role of Primary Drug Containers
4.3.2. Types of Primary Drug Containers
4.3.2.1. Cartridges
4.3.2.1.1. Components of Cartridges
4.3.2.1.2. Types of Cartridges
4.3.2.1.2.1. Single Chamber Cartridge
4.3.2.1.2.2. Dual Chamber Cartridge
4.3.2.1.3. Cartridges Available in the Market
4.3.2.2. Syringes
4.3.2.2.1. Components
4.3.2.2.2. Types of Syringes
4.3.2.2.2.1. Based on Number of Chambers
4.3.2.2.2.2. Based on Type of Needle
4.3.2.2.3. Prefilled Syringe Systems Available in the Market
4.3.2.2.3.1. Glass Prefilled Syringes
4.3.2.2.3.2. Plastic Prefilled Syringes
4.3.2.3. Vials
4.3.2.3.1. Components
4.3.2.3.2. Vials Available in the Market
4.4. Comparison of Fabrication Materials

5. AUTOINJECTORS: CURRENT MARKET LANDSCAPE

5.1. Chapter Overview
5.2. Autoinjectors: Overall Market Landscape
5.2.1. Analysis by Usability
5.2.2. Analysis by Type of Primary Container
5.2.3. Analysis by Volume of Container
5.2.4. Analysis by Dosage Type
5.2.5. Analysis by Route of Administration
5.2.6. Analysis by Actuation Mechanism
5.2.7. Analysis by Type of Feedback Mechanism
5.3. Autoinjectors: Developer Landscape
5.3.1. Analysis by Year of Establishment
5.3.2. Analysis by Company Size
5.3.3. Analysis by Geographical Location of Headquarters

6. PRODUCT COMPETITIVENESS ANALYSIS

6.1. Chapter Overview
6.2. Methodology
6.3. Assumptions and Key Parameters
6.4. Product Competitiveness Analysis: Disposable Autoinjectors
6.5. Product Competitiveness Analysis: Reusable Autoinjectors

7. BRAND POSITIONING ANALYSIS OF KEY INDUSTRY PLAYERS

7.1 Chapter Overview
7.2. Scope and Methodology
7.3. Brand Positioning Matrix: Company 1
7.4. Brand Positioning Matrix: Company 2
7.5. Brand Positioning Matrix: Company 3
7.6. Brand Positioning Matrix: Company 4
7.7. Brand Positioning Matrix: Company 5
7.8. Brand Positioning Matrix: Company 6
7.9. Brand Positioning Matrix: Company 7
7.10. Brand Positioning Matrix: Company 8
7.11. Brand Positioning Matrix: Company 9
7.12. Brand Positioning Matrix: Company 10
7.13. Brand Positioning Matrix: Company 11
7.14. Brand Positioning Matrix: Company 12

8. PATENT ANALYSIS

8.1. Chapter Overview
8.2. Scope and Methodology
8.3. Autoinjectors: Patent Analysis
8.3.1. Analysis by Publication Year
8.3.2. Analysis by Geography
8.3.3. Analysis by CPC Symbols
8.3.4. Emerging Focus Areas
8.3.5. Analysis by Type of Organization
8.3.6. Leading Players: Analysis by Number of Patents
8.4. Autoinjectors: Patent Benchmarking Analysis
8.4.1. Analysis by Patent Characteristics
8.5. Autoinjectors: Patent Valuation Analysis

9. THERAPEUTIC PRODUCTS AVAILABLE IN AUTOINJECTORS

9.1. Chapter Overview
9.2. Autoinjector Combination Products: List of Approved Drugs
9.2.1. Analysis by Initial Year of Approval
9.2.2. Analysis by Usability
9.2.3. Analysis by Route of Administration
9.2.4. Analysis by Primary Drug Container
9.2.5. Analysis by Type of Molecule
9.2.6. Analysis by Dose Strength
9.2.7. Analysis by Therapeutic Indication
9.2.8. Analysis by Other Packaging Formats of Marketed Drugs
9.3. Autoinjector Combination Products: List of Pipeline Drugs
9.3.1. Analysis by Phase of Development
9.3.2. Analysis by Route of Administration
9.3.3. Analysis by Type of Molecule
9.3.4. Analysis by Therapeutic Indication
9.3.5. Grid Analysis: Distribution by Therapeutic Indication, Phase of Development and Route of Administration
9.4. Autoinjector Combination Products: List of Developers
9.4.1. Analysis by Year of Establishment
9.4.2. Analysis by Company Size
9.4.3. Analysis by Location of Headquarters

10. CASE STUDY: AUTOINJECTOR-BASED COMBINATION PRODUCTS AND AFFILIATED THERAPEUTIC AREAS

10.1. Chapter Overview
10.2. Marketed / Pipeline Autoinjector-based Combination Products
10.3. Case Study on Anaphylaxis
10.3.1. Overview and Epidemiology
10.3.2. Adrenaline: Mechanism of Action
10.3.3. History of Development
10.3.4. Marketed Adrenaline / Epinephrine Autoinjectors
10.3.4.1. Adrenaclick
10.3.4.2. Allerject / Auvi-Q (Formerly called e-cue)
10.3.4.3. Anapen
10.3.4.4. Emerade
10.3.4.5. EpiPen / EpiPen Jr
10.3.4.6. Jext
10.3.4.7. EpiPen / EpiPen Jr
10.3.5. Adrenaline / Epinephrine Autoinjectors Under Development
10.3.5.1. EpiQ
10.3.5.2. ANDIPen
10.3.5.3. MiniEpi
10.3.5.4. Zeneo Adrenaline
10.3.6. Other Dosage Forms
10.3.7. Historical Sales of Approved Drugs / Autoinjectors
10.4. Case Study II: Multiple Sclerosis
10.4.1. Overview and Epidemiology
10.4.2. Interferon ß-1a
10.4.3. Interferon ß-1b
10.4.4. Interferons: Mechanism of Action
10.4.5. History of Development
10.4.6. Interferon ß-1a Autoinjectors
10.4.6.1. Avonex Pen
10.4.6.2. PLEGRIDY Pen
10.4.6.3. Rebif Rebidose
10.4.6.4. RebiSmart
10.4.6.5. Rebiject II
10.4.6.6. ReciGen Physioject
10.4.7. Interferon ß-1b Autoinjectors
10.4.7.1. BETACONNECT
10.4.7.2. BETAJECT Comfort / Betacomfort
10.4.7.3. Betaject Lite
10.4.7.4. ExtaviJect 30G / ExtaviPro 30G
10.4.8. Other Marketed Autoinjectors
10.4.8.1. Cinnomer40 Physioject
10.4.8.2. CSYNC Autoinjector
10.4.8.3. WhisperJECT
10.4.8.4. Remurel Autoxon
10.4.9. Other Dosage Forms
10.4.10. Historical Sales of Approved Drugs / Autoinjectors
10.4.10.1. Interferon ß-1a
10.4.10.2. Interferon ß-1b
10.5. Case Study III: Migraine
10.5.1. Overview and Epidemiology
10.5.2. Sumatriptan Succinate: Mechanism of Action
10.5.3. History of Development
10.5.4. Marketed Autoinjectors
10.5.4.1. ALSUMA
10.5.4.2. IMITREX STATdose Pen
10.5.4.3. Zembrace SymTouch
10.5.4.4. Aimovig SureClick Autoinjector
10.5.4.5. Emgality Prefilled Pen
10.5.5. Other Dosage Forms
10.5.6. Historical Sales of Approved Drugs / Autoinjectors
10.6. Case Study IV: Rheumatoid Arthritis
10.6.1. Overview and Epidemiology
10.6.2. History of Development
10.6.3. Marketed Autoinjectors for Rheumatoid Arthritis
10.6.3.1. Actemra
10.6.3.2. CIMZIA AutoClicks Prefilled Pen
10.6.3.3. Enbrel SureClick
10.6.3.4. Hulio Prefilled Pen
10.6.3.5. HUMIRA Pen
10.6.3.6. ORENCIA ClickJect
10.6.3.7. OTREXUP
10.6.3.8. Rasuvo Autoinjector
10.6.3.9. SIMPONI SmartJect Autoinjector
10.6.3.10. KEVZARA Prefilled Pen
10.6.3.11. IMRALDI Prefilled Pen
10.6.4. Historical Sales of Approved Drugs / Autoinjectors

11. LIKELY DRUG CANDIDATES FOR DELIVERY VIA AUTOINJECTORS

11.1. Chapter Overview
11.2. Methodology and Key Parameters
11.3. Marketed Drug Candidates for Delivery via Autoinjectors
11.3.1. Most Likely Drug Candidates
11.3.2. Likely Drug Candidates
11.3.3. Less Likely Drug Candidates
11.3.4. Unlikely Drug Candidates
11.4. Clinical Drug Candidates for Delivery via Autoinjectors
11.4.1. Most Likely Drug Candidates
11.4.2. Likely Drug Candidates
11.4.3. Less Likely Drug Candidates
11.4.4. Unlikely Drug Candidates

12. COMPANY PROFILES

12.1. Chapter Overview
12.2. Antares Pharma
12.2.1. Company Overview
12.2.2. Financial Information
12.2.3. Product Portfolio
12.2.3.1. Autoinjectors: Product Details
12.2.3.1.1. Vibex
12.2.3.1.2. QuickShot
12.2.3.1.3. BigShot
12.2.4. Collaborations
12.2.4.1. Teva Pharmaceutical
12.2.4.2. Ferring Pharmaceuticals
12.2.4.3. AMAG Pharmaceuticals
12.2.4.4. JCR Pharmaceuticals
12.2.4.5. Pfizer
12.2.4.6. Idorsia Pharmaceuticals
12.2.4.7. Lunatus Global Medical Supplies
12.2.5. Recent Developments and Future Outlook
12.3 Bespak (Acquired by Recipharm)
12.3.1. Company Overview
12.3.2. Financial Information
12.3.3. Technology Overview
12.3.4. Product Portfolio
12.3.4.1. Autoinjectors: Product Details
12.3.4.1.1. Syrina
12.3.4.1.2. OTS Autoinjector
12.3.4.1.3. Viscala Autoinjector
12.3.5. Collaborations
12.3.5.1. Undisclosed Global Biopharmaceutical Company
12.3.5.2. Regeneron Pharmaceuticals
12.3.6. Recent Developments and Future Outlook
12.4. DALI Medical Devices
12.4.1. Company Overview
12.4.2. Product Portfolio
12.4.2.1. Autoinjectors: Product Details
12.4.2.1.1. SAN-L
12.4.2.1.2. SAN-P
12.4.2.1.3. SAN-DV
12.4.2.1.4. SAN-DV Pro
12.2.2.1.5. SAN-Light
12.4.3. Collaborations
12.4.3.1. Elcam Drug Delivery Devices
12.4.4. Recent Developments and Future Outlook
12.5. Elcam Medical (E3D Elcam Drug Delivery Devices)
12.5.1. Company Overview
12.5.2. Product Portfolio
12.5.2.1. Autoinjectors: Product Details
12.5.2.1.1. Flexi-Q Disposable Autoinjectors
12.5.2.1.1.1. Flexi-Q PFS
12.5.2.1.1.2. Flexi-Q HV
12.5.2.1.1.3. Flexi -Q DV
12.5.2.1.1.4. Flexi-Q EAI
12.5.2.1.1.5. Flexi-Q CAI
12.5.2.1.2. Flexi-Q Reusable Autoinjectors
12.5.2.1.2.1. Flexi-Q mMU
12.5.2.1.2.2. Flexi-Q eMU-C / P
12.5.3. Comparison of Elcam Medical Autoinjectors
12.5.4. Collaborations
12.5.4.1. DALI Medical Devices
12.5.4.2. Jabil Healthcare
12.5.5. Recent Developments and Future Outlook
12.6. Jiangsu Delfu Medical Devices
12.6.1. Company Overview
12.6.2. Product Portfolio
12.6.2.1. Autoinjectors: Overview and Specifications
12.6.2.1.1. Components of Delfu Autoinjectors
12.6.2.1.2. Applications of Delfu Autoinjectors
12.6.2.1.3. Features of Delfu Autoinjectors
12.6.2.1.4. Advantages of Delfu Autoinjectors
12.6.2.1.5. Specifications of Delfu Autoinjectors
12.6.2.2. Autoinjectors: Product Details
12.6.2.2.1. YZ-II 3mL Cartridge Digital Dose Setting GF Autoinjector
12.6.2.2.2. DZ-IA 3 mL Cartridge Needle Hidden Vaccination Autoinjector
12.6.2.2.3. DZ-IA Auto Injector Pen
12.6.2.2.4. DZ-IA 3mL*0.1u Needle Hidden Smart VEGF Injection Pen
12.6.2.2.5. YZ-III Standard 3 mL Cartridge Reusable Electronic Auto Injector Pen
12.6.3.2.6. YZ-III 0.001mL Dose Increments Fully Automated Reusable Injectors
12.6.3.2.7. YZ-III 0.001 mL Dose Accuracy Auto Injector Pen
12.6.3.2.8. YZ-II 3mL* 1u Auto Injector Pen
12.6.3.2.9. YZ-V 3 mL Cartridge Replaceable Variable-dose Classic Auto Injector Pen
12.6.3.2.10. YZ-III Automatic Reusable Insulin Injection Pen
12.6.4. Recent Developments and Future Outlook
12.7. Oval Medical Technologies
12.7.1. Company Overview
12.7.2. Product Portfolio
12.7.2.1. Autoinjectors: Product Details
12.7.2.1.1 ArQ
12.7.2.1.2 ArQ-Bios
12.7.2.1.3 ArQ-Tempo
12.7.2.1.4 ArQ-Vita
12.7.3. Collaborations
12.7.3.1. SOLIZE
12.7.4. Recent Developments and Future Outlook
12.8. Owen Mumford
12.8.1. Company Overview
12.8.2. Product Portfolio
12.8.2.1. Autoinjectors: Product Details
12.8.2.1.1. Autoject Micro
12.8.2.1.2. Autoject 2
12.8.2.1.3. Autoject Mini
12.8.2.1.4. Autoject Visco
12.8.2.1.5. Autoject Uni
12.8.2.1.6. Autoject Multi
12.8.2.1.7. Autoject Flex
12.8.2.1.8. UniSafe Auto-injector
12.8.2.1.9. UniSafe Connected Auto-injector
12.8.3. Collaborations
12.8.3.1. Nipro
12.8.3.2. Sanofi Aventis
12.8.4. Recent Developments and Future Outlook
12.9. SHL Group
12.9.1. Company Overview
12.9.2. Product Portfolio
12.9.2.1. Two-Step Disposable Autoinjectors: Product Details
12.9.2.1.1 Amber (Pushclick Technology)
12.9.2.1.2. Molly
12.9.2.1.3. Molly RNS
12.9.2.1.4. Molly 2.25
12.9.2.1.5. Rotaject
12.9.2.1.6. Bertha
12.9.2.1.7. DAI 2
12.9.2.1.8. Maggie
12.9.2.1.9. Comparison of SHL Two-Step Autoinjectors
12.9.2.2. Three-Step Disposable Autoinjectors: Product Details
12.9.2.2.1. DAI
12.9.2.2.2. SDI-MIX+NIT (Needle Isolation Technology and Twist and Mix Mechanism)
12.9.2.2.3. VSDI+NIT
12.9.2.2.4. Comparison of SHL Three-Step Autoinjectors
12.9.2.3. PPI Injector (Rotaject Pressure Release Technology)
12.9.2.4. PenInject2.25
12.9.4. Collaborations
12.9.4.1. Schreiner MediPharm
12.9.4.2. QuiO
12.9.5. Recent Developments and Future Outlook
12.10. Union Medico
12.10.1. Company Overview
12.10.2. Technology Overview
12.10.3. Product Portfolio
12.10.3.1. Autoinjectors: Product Details
12.10.3.1.1 Semi 45? Autoinjector
12.10.3.1.2 Semi 45?/ S Autoinjector
12.10.3.1.3 Semi 45?/ M Autoinjector
12.10.3.1.4 Semi 45?/ R Autoinjector
12.10.3.1.5 Comparison of 45? Autoinjectors
12.10.3.1.6 90?Autoinjector
12.10.3.1.7 90?/ S Autoinjector
12.10.3.1.8 90?/ M Autoinjector
12.10.3.1.9 90?/ XL Autoinjector
12.10.3.1.10 SuperGrip Autoinjector
12.10.3.1.11 Exclusive Autoinjector
12.10.3.1.12 Comparison of 90? Autoinjectors
12.10.4. Recent Developments and Future Outlook
12.11. Ypsomed
12.11.1. Company Overview
12.11.2. Financial Information
12.11.3. Product Portfolio
12.11.3.1. Autoinjectors: Product details
12.11.3.1.1. YpsoMate, YpsoMate Zero, YpsoMate 2.25 and YpsoMate 2.25Pro
12.11.3.1.2. VarioJect
12.11.3.1.3. LyoTwist Trio, LyoTwist Trio S, LyoTwist Vario and LyoTwist Vario S
12.11.3.1.4. Comparison of Autoinjectors
12.11.4. Collaborations
12.11.4.1. Royal Philips
12.11.4.2. Teva
12.11.5. Recent Developments and Future Outlook

13. EMERGING PLAYERS

13.1. Chapter Overview
13.2. AktiVax
13.3. Amneal Pharmaceuticals
13.4. kaléo
13.5. Nemera
13.6. Nuance Designs
13.7. Windgap Medical
13.8. Xeris Pharmaceuticals
13.9. Zion Clinical Pharmacy

14. KEY OPINION LEADERS (KOL) ANALYSIS

14.1. Chapter Overview
14.2. Assumptions and Methodology
14.3. Principal Investigators Involved in Clinical Trials
14.3.1. Analysis by Type of Organization (KOL Affiliation)
14.3.2. Geographical Distribution of KOLs
14.4. Prominent KOLs
14.5. KOL Benchmarking: Publisher Assessment versus Third Party (ResearchGate Score)
14.6. Most Active KOLs
14.6.1. KOL Profile: A (Cedars-Sinai Medical Center)
14.6.2. KOL Profile: B (Mount Sinai Hospital)
14.6.3. KOL Profile: C (Magee-Womens Research Institute and Foundation)
14.6.4. KOL Profile: D (Imperial College London)
14.6.5. KOL Profile: E (Oslo University Hospital)

15. PARTNERSHIPS AND COLLABORATIONS

15.1. Chapter Overview
15.2. Partnership Models
15.3. Autoinjectors: List of Partnerships and Collaborations
15.3.1. Analysis by Year of Partnership
15.3.2. Analysis by Type of Partnership
15.3.3. Most Active Players: Analysis by Number of Partnerships
15.3.4. Regional Analysis
15.3.4.1 Intercontinental and Intracontinental Agreements

16. SWOT ANALYSIS

16.1. Chapter Overview
16.2. Strengths
16.3. Weaknesses
16.4. Opportunities
16.5. Threats
16.6. Concluding Remarks

17. CASE STUDY: MEDICAL DEVICE CONTRACT SERVICE PROVIDERS

17.1. Chapter Overview
17.2. Challenges Associated with Medical Device Manufacturing
17.3. Role of CMOs in Medical Device Manufacturing
17.4. Services Offered by Medical Device CMOs
17.5. Advantages Offered by Medical Device CMOs
17.6. Risks Associated with Outsourcing to CMOs
17.7. Drug Delivery Device Service Providers
17.7.1. Analysis by Year of Establishment
17.7.2. Analysis by Company Size
17.7.3. Analysis by Geography
17.7.4. Analysis by Types of Services
17.8. Concluding Remarks

18. CASE STUDY: PREFILLED SYRINGES

18.1. Chapter Overview
18.2. Prefilled Syringes: List of Available / Under Development Devices
18.2.1. Analysis by Type of Barrel Fabrication Material
18.2.2. Analysis by Number of Barrel Chambers
18.2.3. Analysis by Type of Needle System
18.2.4. Analysis by Device Capacity
18.3. Prefilled Syringes: List of Developers
18.3.1. Analysis by Year of Establishment
18.3.2. Analysis by Company Size
18.3.3. Analysis by Geographical Location of Headquarters
18.3.4. Analysis by Geographical Location of Manufacturing Facilities
18.4. Technological Developments in Prefilled Syringes

19. MARKET SIZING AND OPPORTUNITY ANALYSIS

19.1. Chapter Overview
19.2. Forecast Methodology and Key Assumptions
19.3. Global Autoinjectors Market, 2021-2030 (By Value)
19.3.1. Global Autoinjectors Market: Distribution by Usability, 2021-2030 (By Value)
19.3.2. Global Autoinjectors Market: Distribution by Route of Administration, 2021-2030 (By Value)
19.3.3. Global Autoinjectors Market: Distribution by Type of Molecule, 2021-2030 (By Value)
19.3.4. Autoinjectors Market in North America, 2021-2030 (By Value)
19.3.4.1. Autoinjectors Market in North America: Distribution by Usability, 2021-2030 (By Value)
19.3.4.2. Autoinjectors Market in North America: Distribution by Route of Administration, 2021-2030 (By Value)
19.3.4.3. Autoinjectors Market in North America: Distribution by Type of Molecule, 2021-2030 (By Value)
19.3.5. Autoinjectors Market in Europe, 2021-2030 (By Value)
19.3.5.1. Autoinjectors Market in Europe: Distribution by Usability, 2021-2030 (By Value)
19.3.5.2. Autoinjectors Market in Europe: Distribution by Route of Administration, 2021-2030 (By Value)
19.3.5.3. Autoinjectors Market in Europe: Distribution by Type of Molecule, 2021-2030 (By Value)
19.3.6. Autoinjectors Market in Asia Pacific, 2021-2030 (By Value)
19.3.6.1. Autoinjectors Market in Asia Pacific: Distribution by Usability, 2021-2030 (By Value)
19.3.6.2. Autoinjectors Market in Asia Pacific: Distribution by Route of Administration, 2021-2030 (By Value)
19.3.6.3. Autoinjectors Market in Asia Pacific: Distribution by Type of Molecule, 2021-2030 (By Value)
19.3.7. Autoinjectors Market in Rest of the World, 2021-2030 (By Value)
19.3.7.1. Autoinjectors Market in Rest of the World: Distribution by Usability, 20212030 (By Value)
19.3.7.2. Autoinjectors Market in Rest of the World: Distribution by Route of Administration, 2021-2030 (By Value)
19.3.7.3. Autoinjectors Market in Rest of the World: Distribution by Type of Molecule, 2021-2030 (By Value)
19.4. Global Autoinjectors Market, 2021-2030 (By Volume)
19.4.1. Global Autoinjectors Market: Distribution by Usability, 2021-2030 (By Volume)
19.4.2. Global Autoinjectors Market: Distribution by Route of Administration, 2021-2030 (By Volume)
19.4.3. Global Autoinjectors Market: Distribution by Type of Molecule, 2021-2030 (By Volume)
19.4.4. Autoinjectors Market in North America, 2021-2030 (By Volume)
19.3.4.1. Autoinjectors Market in North America: Distribution by Usability, 2021-2030 (By Volume)
19.3.4.2. Autoinjectors Market in North America: Distribution by Route of Administration, 2021-2030 (By Volume)
19.3.4.3. Autoinjectors Market in North America: Distribution by Type of Molecule, 2021-2030 (By Volume)
19.3.5. Autoinjectors Market in Europe, 2021-2030 (By Volume)
19.3.5.1. Autoinjectors Market in Europe: Distribution by Usability, 2021-2030 (By Volume)
19.3.5.2. Autoinjectors Market in Europe: Distribution by Route of Administration, 2021-2030 (By Volume)
19.3.5.3. Autoinjectors Market in Europe: Distribution by Type of Molecule, 2021-2030 (By Volume)
19.3.6. Autoinjectors Market in Asia Pacific, 2021-2030 (By Volume)
19.3.6.1. Autoinjectors Market in Asia Pacific: Distribution by Usability, 2021-2030 (By Volume)
19.3.6.2. Autoinjectors Market in Asia Pacific: Distribution by Route of Administration, 2021-2030 (By Volume)
19.3.6.3. Autoinjectors Market in Asia Pacific: Distribution by Type of Molecule, 2021-2030 (By Volume)
19.3.7. Autoinjectors Market in Rest of the World, 2021-2030 (By Volume)
19.3.7.1. Autoinjectors Market in Rest of the World: Distribution by Usability, 2021-2030 (By Volume)
19.3.7.2. Autoinjectors Market in Rest of the World: Distribution by Route of Administration, 2021-2030 (By Volume)
19.3.7.3. Autoinjectors Market in Rest of the World: Distribution by Type of Molecule, 2021-2030 (By Volume)
19.5. Global Autoinjectors Market for Anaphylaxis, 2021-2030 (By Value)
19.5.1. Autoinjectors Market for Anaphylaxis in North America, 2021-2030 (By Value)
19.5.1.1. Autoinjectors Market for Anaphylaxis in North America: Distribution by Usability, 2021-2030 (By Value)
19.5.1.2. Autoinjectors Market for Anaphylaxis in North America: Distribution by Route of Administration, 2021-2030 (By Value)
19.5.1.3. Autoinjectors Market for Anaphylaxis in North America: Distribution by Type of Molecule, 2021-2030 (By Value)
19.5.2. Autoinjectors Market for Anaphylaxis in Europe, 2021-2030 (By Value)
19.5.2.1. Autoinjectors Market for Anaphylaxis in Europe: Distribution by Usability, 2021-2030 (By Value)
19.5.2.2. Autoinjectors Market for Anaphylaxis in Europe: Distribution by Route of Administration, 2021-2030 (By Value)
19.5.2.3. Autoinjectors Market for Anaphylaxis in Europe: Distribution by Type of Molecule, 2021-2030 (By Value)
19.5.3. Autoinjectors Market for Anaphylaxis in Asia Pacific, 2021-2030 (By Value)
19.5.3.1. Autoinjectors Market for Anaphylaxis in Asia Pacific: Distribution by Usability, 2021-2030 (By Value)
19.5.3.2. Autoinjectors Market for Anaphylaxis in Asia Pacific: Distribution by Route of Administration, 2021-2030 (By Value)
19.5.3.3. Autoinjectors Market for Anaphylaxis in Asia Pacific: Distribution by Type of Molecule, 2021-2030 (By Value)
19.5.4. Autoinjectors Market for Anaphylaxis in Rest of the World, 2021-2030 (By Value)
19.5.4.1. Autoinjectors Market for Anaphylaxis in Rest of the World: Distribution by Usability, 2021-2030 (By Value)
19.5.4.2. Autoinjectors Market for Anaphylaxis in Rest of the World: Distribution by Route of Administration, 2021-2030 (By Value)
19.5.4.3. Autoinjectors Market for Anaphylaxis in Rest of the World: Distribution by Type of Molecule, 2021-2030 (By Value)
19.6. Global Autoinjectors Market for Anaphylaxis, 2021-2030 (By Volume)
19.6.1. Autoinjectors Market for Anaphylaxis in North America, 2021-2030 (By Volume)
19.6.1.1. Autoinjectors Market for Anaphylaxis in North America: Distribution by Usability, 2021-2030 (By Volume)
19.6.1.2. Autoinjectors Market for Anaphylaxis in North America: Distribution by Route of Administration, 2021-2030 (By Volume)
19.6.1.3. Autoinjectors Market for Anaphylaxis in North America: Distribution by Type of Molecule, 2021-2030 (By Volume)
19.6.2. Autoinjectors Market for Anaphylaxis in Europe, 2021-2030 (By Volume)
19.6.2.1. Autoinjectors Market for Anaphylaxis in Europe: Distribution by Usability, 2021-2030 (By Volume)
19.6.2.2. Autoinjectors Market for Anaphylaxis in Europe: Distribution by Route of Administration, 2021-2030 (By Volume)
19.6.2.3. Autoinjectors Market for Anaphylaxis in Europe: Distribution by Type of Molecule, 2021-2030 (By Volume)
19.6.3. Autoinjectors Market for Anaphylaxis in Asia Pacific, 2021-2030 (By Volume)
19.6.3.1. Autoinjectors Market for Anaphylaxis in Asia Pacific: Distribution by Usability, 2021-2030 (By Volume)
19.6.3.2. Autoinjectors Market for Anaphylaxis in Asia Pacific: Distribution by Route of Administration, 2021-2030 (By Volume)
19.6.3.3. Autoinjectors Market for Anaphylaxis in Asia Pacific: Distribution by Type of Molecule, 2021-2030 (By Volume)
19.6.4. Autoinjectors Market for Anaphylaxis in Rest of the World, 2021-2030 (By Volume)
19.6.4.1. Autoinjectors Market for Anaphylaxis in Rest of the World: Distribution by Usability, 2021-2030 (By Volume)
19.6.4.2. Autoinjectors Market for Anaphylaxis in Rest of the World: Distribution by Route of Administration, 2021-2030 (By Volume)
19.6.4.3. Autoinjectors Market for Anaphylaxis in Rest of the World: Distribution by Type of Molecule, 2021-2030 (By Volume)
19.7. Global Autoinjectors Market for Multiple Sclerosis, 2021-2030 (By Value)
19.7.1. Autoinjectors Market for Multiple Sclerosis in North America, 2021-2030 (By Value)
19.7.1.1. Autoinjectors Market for Multiple Sclerosis in North America: Distribution by Usability, 2021-2030 (By Value)
19.7.1.2. Autoinjectors Market for Multiple Sclerosis in North America: Distribution by Route of Administration, 2021-2030 (By Value)
19.7.1.3. Autoinjectors Market for Multiple Sclerosis in North America: Distribution by Type of Molecule, 2021-2030 (By Value)
19.7.2. Autoinjectors Market for Multiple Sclerosis in Europe, 2021-2030 (By Value)
19.7.2.1. Autoinjectors Market for Multiple Sclerosis in Europe: Distribution by Usability, 2021-2030 (By Value)
19.7.2.2. Autoinjectors Market for Multiple Sclerosis in Europe: Distribution by Route of Administration, 2021-2030 (By Value)
19.7.2.3. Autoinjectors Market for Multiple Sclerosis in Europe: Distribution by Type of Molecule, 2021-2030 (By Value)
19.7.3. Autoinjectors Market for Multiple Sclerosis in Asia Pacific, 2021-2030 (By Value)
19.7.3.1. Autoinjectors Market for Multiple Sclerosis in Asia Pacific: Distribution by Usability, 2021-2030 (By Value)
19.7.3.2. Autoinjectors Market for Multiple Sclerosis in Asia Pacific: Distribution by Route of Administration, 2021-2030 (By Value)
19.7.3.3. Autoinjectors Market for Multiple Sclerosis in Asia Pacific: Distribution by Type of Molecule, 2021-2030 (By Value)
19.7.4. Autoinjectors Market for Multiple Sclerosis in Rest of the World, 2021-2030 (By Value)
19.7.4.1. Autoinjectors Market for Multiple Sclerosis in Rest of the World: Distribution by Usability, 2021-2030 (By Value)
19.7.4.2. Autoinjectors Market for Multiple Sclerosis in Rest of the World: Distribution by Route of Administration, 2021-2030 (By Value)
19.7.4.3. Autoinjectors Market for Multiple Sclerosis in Rest of the World: Distribution by Type of Molecule, 2021-2030 (By Value)
19.8. Global Autoinjectors Market for Multiple Sclerosis, 2021-2030 (By Volume)
19.8.1. Autoinjectors Market for Multiple Sclerosis in North America, 2021-2030 (By Volume)
19.8.1.1. Autoinjectors Market for Multiple Sclerosis in North America: Distribution by Usability, 2021-2030 (By Volume)
19.8.1.2. Autoinjectors Market for Multiple Sclerosis in North America: Distribution by Route of Administration, 2021-2030 (By Volume)
19.8.1.3. Autoinjectors Market for Multiple Sclerosis in North America: Distribution by Type of Molecule, 2021-2030 (By Volume)
19.8.2. Autoinjectors Market for Multiple Sclerosis in Europe, 2021-2030 (By Volume)
19.8.2.1. Autoinjectors Market for Multiple Sclerosis in Europe: Distribution by Usability, 2021-2030 (By Volume)
19.8.2.2. Autoinjectors Market for Multiple Sclerosis in Europe: Distribution by Route of Administration, 2021-2030 (By Volume)
19.8.2.3. Autoinjectors Market for Multiple Sclerosis in Europe: Distribution by Type of Molecule, 2021-2030 (By Volume)
19.8.3. Autoinjectors Market for Multiple Sclerosis in Asia Pacific, 2021-2030 (By Volume)
19.8.3.1. Autoinjectors Market for Multiple Sclerosis in Asia Pacific: Distribution by Usability, 2021-2030 (By Volume)
19.8.3.2. Autoinjectors Market for Multiple Sclerosis in Asia Pacific: Distribution by Route of Administration, 2021-2030 (By Volume)
19.8.3.3. Autoinjectors Market for Multiple Sclerosis in Asia Pacific: Distribution by Type of Molecule, 2021-2030 (By Volume)
19.8.4. Autoinjectors Market for Multiple Sclerosis in Rest of the World, 2021-2030 (By Volume)
19.8.4.1. Autoinjectors Market for Multiple Sclerosis in Rest of the World: Distribution by Usability, 2021-2030 (By Volume)
19.8.4.2. Autoinjectors Market for Multiple Sclerosis in Rest of the World: Distribution by Route of Administration, 2021-2030 (By Volume)
19.8.4.3. Autoinjectors Market for Multiple Sclerosis in Rest of the World: Distribution by Type of Molecule, 2021-2030 (By Volume)
19.9. Global Autoinjectors Market for Rheumatoid Arthritis, 2021-2030 (By Value)
19.9.1. Autoinjectors Market for Rheumatoid Arthritis in North America, 2021-2030 (By Value)
19.9.1.1. Autoinjectors Market for Rheumatoid Arthritis in North America: Distribution by Usability, 2021-2030 (By Value)
19.9.1.2. Autoinjectors Market for Rheumatoid Arthritis in North America: Distribution by Route of Administration, 2021-2030 (By Value)
19.9.1.3. Autoinjectors Market for Rheumatoid Arthritis in North America: Distribution by Type of Molecule, 2021-2030 (By Value)
19.9.2. Autoinjectors Market for Rheumatoid Arthritis in Europe, 2021-2030 (By Value)
19.9.2.1. Autoinjectors Market for Rheumatoid Arthritis in Europe: Distribution by Usability, 2021-2030 (By Value)
19.9.2.2. Autoinjectors Market for Rheumatoid Arthritis in Europe: Distribution by Route of Administration, 2021-2030 (By Value)
19.9.2.3. Autoinjectors Market for Rheumatoid Arthritis in Europe: Distribution by Type of Molecule, 2021-2030 (By Value)
19.9.3. Autoinjectors Market for Rheumatoid Arthritis in Asia Pacific, 2021-2030 (By Value)
19.9.3.1. Autoinjectors Market for Rheumatoid Arthritis in Asia Pacific: Distribution by Usability, 2021-2030 (By Value)
19.9.3.2. Autoinjectors Market for Rheumatoid Arthritis in Asia Pacific: Distribution by Route of Administration, 2021-2030 (By Value)
19.9.3.3. Autoinjectors Market for Rheumatoid Arthritis in Asia Pacific: Distribution by Type of Molecule, 2021-2030 (By Value)
19.9.4. Autoinjectors Market for Rheumatoid Arthritis in Rest of the World, 2021-2030 (By Value)
19.9.4.1. Autoinjectors Market for Rheumatoid Arthritis in Rest of the World: Distribution by Usability, 2021-2030 (By Value)
19.9.4.2. Autoinjectors Market for Rheumatoid Arthritis in Rest of the World: Distribution by Route of Administration, 2021-2030 (By Value)
19.9.4.3. Autoinjectors Market for Rheumatoid Arthritis in Rest of the World: Distribution by Type of Molecule, 2021-2030 (By Value)
19.10. Global Autoinjectors Market for Rheumatoid Arthritis, 2021-2030 (By Volume)
19.10.1. Autoinjectors Market for Rheumatoid Arthritis in North America, 2021-2030 (By Volume)
19.10.1.1. Autoinjectors Market for Rheumatoid Arthritis in North America: Distribution by Usability, 2021-2030 (By Volume)
19.10.1.2. Autoinjectors Market for Rheumatoid Arthritis in North America: Distribution by Route of Administration, 2021-2030 (By Volume)
19.10.1.3. Autoinjectors Market for Rheumatoid Arthritis in North America: Distribution by Type of Molecule, 2021-2030 (By Volume)
19.10.2. Autoinjectors Market for Rheumatoid Arthritis in Europe, 2021-2030 (By Volume)
19.10.2.1. Autoinjectors Market for Rheumatoid Arthritis in Europe: Distribution by Usability, 2021-2030 (By Volume)
19.10.2.2. Autoinjectors Market for Rheumatoid Arthritis in Europe: Distribution by Route of Administration, 2021-2030 (By Volume)
19.10.2.3. Autoinjectors Market for Rheumatoid Arthritis in Europe: Distribution by Type of Molecule, 2021-2030 (By Volume)
19.10.3. Autoinjectors Market for Rheumatoid Arthritis in Asia Pacific, 2021-2030 (By Volume)
19.10.3.1. Autoinjectors Market for Rheumatoid Arthritis in Asia Pacific: Distribution by Usability, 2021-2030 (By Volume)
19.10.3.2. Autoinjectors Market for Rheumatoid Arthritis in Asia Pacific: Distribution by Route of Administration, 2021-2030 (By Volume)
19.10.3.3. Autoinjectors Market for Rheumatoid Arthritis in Asia Pacific: Distribution by Type of Molecule, 2021-2030 (By Volume)
19.10.4. Autoinjectors Market for Rheumatoid Arthritis in Rest of the World, 2021-2030 (By Volume)
19.10.4.1. Autoinjectors Market for Rheumatoid Arthritis in Rest of the World: Distribution by Usability, 2021-2030 (By Volume)
19.10.4.2. Autoinjectors Market for Rheumatoid Arthritis in Rest of the World: Distribution by Route of Administration, 2021-2030 (By Volume)
19.10.4.3. Autoinjectors Market for Rheumatoid Arthritis in Rest of the World: Distribution by Type of Molecule, 2021-2030 (By Volume)
19.11. Global Autoinjectors Market for Migraine, 2021-2030 (By Value)
19.11.1. Autoinjectors Market for Migraine in North America, 2021-2030 (By Value)
19.11.1.1. Autoinjectors Market for Migraine in North America: Distribution by Usability, 2021-2030 (By Value)
19.11.1.2. Autoinjectors Market for Migraine in North America: Distribution by Route of Administration, 2021-2030 (By Value)
19.11.1.3. Autoinjectors Market for Migraine in North America: Distribution by Type of Molecule, 2021-2030 (By Value)
19.11.2. Autoinjectors Market for Migraine in Europe, 2021-2030 (By Value)
19.11.2.1. Autoinjectors Market for Migraine in Europe: Distribution by Usability, 2021-2030 (By Value)
19.11.2.2. Autoinjectors Market for Migraine in Europe: Distribution by Route of Administration, 2021-2030 (By Value)
19.11.2.3. Autoinjectors Market for Migraine in Europe: Distribution by Type of Molecule, 2021-2030 (By Value)
19.11.3. Autoinjectors Market for Migraine in Asia Pacific, 2021-2030 (By Value)
19.11.3.1. Autoinjectors Market for Migraine in Asia Pacific: Distribution by Usability, 2021-2030 (By Value)
19.11.3.2. Autoinjectors Market for Migraine in Asia Pacific: Distribution by Route of Administration, 2021-2030 (By Value)
19.11.3.3. Autoinjectors Market for Migraine in Asia Pacific: Distribution by Type of Molecule, 2021-2030 (By Value)
19.11.4. Autoinjectors Market for Migraine in Rest of the World, 2021-2030 (By Value)
19.11.4.1. Autoinjectors Market for Migraine in Rest of the World: Distribution by Usability, 2021-2030 (By Value)
19.11.4.2. Autoinjectors Market for Migraine in Rest of the World: Distribution by Route of Administration, 2021-2030 (By Value)
19.11.4.3. Autoinjectors Market for Migraine in Rest of the World: Distribution by Type of Molecule, 2021-2030 (By Value)
19.12. Global Autoinjectors Market for Migraine, 2021-2030 (By Volume)
19.12.1. Autoinjectors Market for Migraine in North America, 2021-2030 (By Volume)
19.12.1.1. Autoinjectors Market for Migraine in North America: Distribution by Usability, 2021-2030 (By Volume)
19.12.1.2. Autoinjectors Market for Migraine in North America: Distribution by Route of Administration, 2021-2030 (By Volume)
19.12.1.3. Autoinjectors Market for Migraine in North America: Distribution by Type of Molecule, 2021-2030 (By Volume)
19.12.2. Autoinjectors Market for Migraine in Europe, 2021-2030 (By Volume)
19.12.2.1. Autoinjectors Market for Migraine in Europe: Distribution by Usability, 2021-2030 (By Volume)
19.12.2.2. Autoinjectors Market for Migraine in Europe: Distribution by Route of Administration, 2021-2030 (By Volume)
19.12.2.3. Autoinjectors Market for Migraine in Europe: Distribution by Type of Molecule, 2021-2030 (By Volume)
19.12.3. Autoinjectors Market for Migraine in Asia Pacific, 2021-2030 (By Volume)
19.12.3.1. Autoinjectors Market for Migraine in Asia Pacific: Distribution by Usability, 2021-2030 (By Volume)
19.12.3.2. Autoinjectors Market for Migraine in Asia Pacific: Distribution by Route of Administration, 2021-2030 (By Volume)
19.12.3.3. Autoinjectors Market for Migraine in Asia Pacific: Distribution by Type of Molecule, 2021-2030 (By Volume)
19.12.4. Autoinjectors Market for Migraine in Rest of the World, 2021-2030 (By Volume)
19.12.4.1. Autoinjectors Market for Migraine in Rest of the World: Distribution by Usability, 2021-2030 (By Volume)
19.12.4.2. Autoinjectors Market for Migraine in Rest of the World: Distribution by Route of Administration, 2021-2030 (By Volume)
19.12.4.3. Autoinjectors Market for Migraine in Rest of the World: Distribution by Type of Molecule, 2021-2030 (By Volume)
19.13. Global Autoinjectors Market for Diabetes, 2021-2030 (By Value)
19.13.1. Autoinjectors Market for Diabetes in North America, 2021-2030 (By Value)
19.13.1.1. Autoinjectors Market for Diabetes in North America: Distribution by Usability, 2021-2030 (By Value)
19.13.1.2. Autoinjectors Market for Diabetes in North America: Distribution by Route of Administration, 2021-2030 (By Value)
19.13.1.3. Autoinjectors Market for Diabetes in North America: Distribution by Type of Molecule, 2021-2030 (By Value)
19.13.2. Autoinjectors Market for Diabetes in Europe, 2021-2030 (By Value)
19.13.2.1. Autoinjectors Market for Diabetes in Europe: Distribution by Usability, 2021-2030 (By Value)
19.13.2.2. Autoinjectors Market for Diabetes in Europe: Distribution by Route of Administration, 2021-2030 (By Value)
19.13.2.3. Autoinjectors Market for Diabetes in Europe: Distribution by Type of Molecule, 2021-2030 (By Value)
19.13.3. Autoinjectors Market for Diabetes in Asia Pacific, 2021-2030 (By Value)
19.13.3.1. Autoinjectors Market for Diabetes in Asia Pacific: Distribution by Usability, 2021-2030 (By Value)
19.13.3.2. Autoinjectors Market for Diabetes in Asia Pacific: Distribution by Route of Administration, 2021-2030 (By Value)
19.13.3.3. Autoinjectors Market for Diabetes in Asia Pacific: Distribution by Type of Molecule, 2021-2030 (By Value)
19.13.4. Autoinjectors Market for Diabetes in Rest of the World, 2021-2030 (By Value)
19.13.4.1. Autoinjectors Market for Diabetes in Rest of the World: Distribution by Usability, 2021-2030 (By Value)
19.13.4.2. Autoinjectors Market for Diabetes in Rest of the World: Distribution by Route of Administration, 2021-2030 (By Value)
19.13.4.3. Autoinjectors Market for Diabetes in Rest of the World: Distribution by Type of Molecule, 2021-2030 (By Value)
19.14. Global Autoinjectors Market for Diabetes, 2021-2030 (By Volume)
19.14.1. Autoinjectors Market for Diabetes in North America, 2021-2030 (By Volume)
19.14.1.1. Autoinjectors Market for Diabetes in North America: Distribution by Usability, 2021-2030 (By Volume)
19.14.1.2. Autoinjectors Market for Diabetes in North America: Distribution by Route of Administration, 2021-2030 (By Volume)
19.14.1.3. Autoinjectors Market for Diabetes in North America: Distribution by Type of Molecule, 2021-2030 (By Volume)
19.14.2. Autoinjectors Market for Diabetes in Europe, 2021-2030 (By Volume)
19.14.2.1. Autoinjectors Market for Diabetes in Europe: Distribution by Usability, 2021-2030 (By Volume)
19.14.2.2. Autoinjectors Market for Diabetes in Europe: Distribution by Route of Administration, 2021-2030 (By Volume)
19.14.2.3. Autoinjectors Market for Diabetes in Europe: Distribution by Type of Molecule, 2021-2030 (By Volume)
19.14.3. Autoinjectors Market for Diabetes in Asia Pacific, 2021-2030 (By Volume)
19.14.3.1. Autoinjectors Market for Diabetes in Asia Pacific: Distribution by Usability, 2021-2030 (By Volume)
19.14.3.2. Autoinjectors Market for Diabetes in Asia Pacific: Distribution by Route of Administration, 2021-2030 (By Volume)
19.14.3.3. Autoinjectors Market for Diabetes in Asia Pacific: Distribution by Type of Molecule, 2021-2030 (By Volume)
19.14.4. Autoinjectors Market for Diabetes in Rest of the World, 2021-2030 (By Volume)
19.14.4.1. Autoinjectors Market for Diabetes in Rest of the World: Distribution by Usability, 2021-2030 (By Volume)
19.14.4.2. Autoinjectors Market for Diabetes in Rest of the World: Distribution by Route of Administration, 2021-2030 (By Volume)
19.14.4.3. Autoinjectors Market for Diabetes in Rest of the World: Distribution by Type of Molecule, 2021-2030 (By Volume)
19.15. Global Autoinjectors Market for Other Indications, 2021-2030 (By Value)
19.15.2. Autoinjectors Market for Other Indications in North America, 2021-2030 (By Value)
19.15.2.1. Autoinjectors Market for Other Indications in North America: Distribution by Usability, 2021-2030 (By Value)
19.15.2.2. Autoinjectors Market for Other Indications in North America: Distribution by Route of Administration, 2021-2030 (By Value)
19.15.2.3. Autoinjectors Market for Other Indications in North America: Distribution by Type of Molecule, 2021-2030 (By Value)
19.15.3. Autoinjectors Market for Other Indications in Europe, 2021-2030 (By Value)
19.15.3.1. Autoinjectors Market for Other Indications in Europe: Distribution by Usability, 2021-2030 (By Value)
19.15.3.2. Autoinjectors Market for Other Indications in Europe: Distribution by Route of Administration, 2021-2030 (By Value)
19.15.3.3. Autoinjectors Market for Other Indications in Europe: Distribution by Type of Molecule, 2021-2030 (By Value)
19.15.4. Autoinjectors Market for Other Indications in Asia Pacific, 2021-2030 (By Value)
19.15.4.1. Autoinjectors Market for Other Indications in Asia Pacific: Distribution by Usability, 2021-2030 (By Value)
19.15.4.2. Autoinjectors Market for Other Indications in Asia Pacific: Distribution by Route of Administration, 2021-2030 (By Value)
19.15.4.3. Autoinjectors Market for Other Indications in Asia Pacific: Distribution by Type of Molecule, 2021-2030 (By Value)
19.15.5. Autoinjectors Market for Other Indications in Rest of the World, 2021-2030 (By Value)
19.15.5.1. Autoinjectors Market for Other Indications in Rest of the World: Distribution by Usability, 2021-2030 (By Value)
19.15.5.2. Autoinjectors Market for Other Indications in Rest of the World: Distribution by Route of Administration, 2021-2030 (By Value)
19.15.5.3. Autoinjectors Market for Other Indications in Rest of the World: Distribution by Type of Molecule, 2021-2030 (By Value)
19.16. Global Autoinjectors Market for Other Indications, 2021-2030 (By Volume)
19.16.1. Autoinjectors Market for Other Indications in North America, 2021-2030 (By Volume)
19.16.1.1. Autoinjectors Market for Other Indications in North America: Distribution by Usability, 2021-2030 (By Volume)
19.16.1.2. Autoinjectors Market for Other Indications in North America: Distribution by Route of Administration, 2021-2030 (By Volume)
19.16.1.3. Autoinjectors Market for Other Indications in North America: Distribution by Type of Molecule, 2021-2030 (By Volume)
19.16.2. Autoinjectors Market for Other Indications in Europe, 2021-2030 (By Volume)
19.16.2.1. Autoinjectors Market for Other Indications in Europe: Distribution by Usability, 2021-2030 (By Volume)
19.16.2.2. Autoinjectors Market for Other Indications in Europe: Distribution by Route of Administration, 2021-2030 (By Volume)
19.16.2.3. Autoinjectors Market for Other Indications in Europe: Distribution by Type of Molecule, 2021-2030 (By Volume)
19.16.3. Autoinjectors Market for Other Indications in Asia Pacific, 2021-2030 (By Volume)
19.16.3.1. Autoinjectors Market for Other Indications in Asia Pacific: Distribution by Usability, 2021-2030 (By Volume)
19.16.3.2. Autoinjectors Market for Other Indications in Asia Pacific: Distribution by Route of Administration, 2021-2030 (By Volume)
19.16.3.3. Autoinjectors Market for Other Indications in Asia Pacific: Distribution by Type of Molecule, 2021-2030 (By Volume)
19.16.4. Autoinjectors Market for Other Indications in Rest of the World, 2021-2030 (By Volume)
19.16.4.1. Autoinjectors Market for Other Indications in Rest of the World: Distribution by Usability, 2021-2030 (By Volume)
19.16.4.2. Autoinjectors Market for Other Indications in Rest of the World: Distribution by Route of Administration, 2021-2030 (By Volume)
19.16.4.3. Autoinjectors Market for Other Indications in Rest of the World: Distribution by Type of Molecule, 2021-2030 (By Volume)

20. EXECUTIVE INSIGHTS

20.1. Chapter Overview
20.2. DALI Medical Devices
20.2.1. Company Snapshot
20.2.2. Interview Transcript: David Daily, Chief Executive Officer and Co-Founder
20.3. Oval Medical Technologies
20.3.1. Company Snapshot
20.3.2. Interview Transcript: Barbara Lead, Chief Executive Officer
20.4. Duoject Medical Systems
20.4.1. Company Snapshot
20.4.2. Interview Transcript: William G. Fortina, Business Development Director, Drug Delivery Systems
20.5. PHC
20.5.1. Company Snapshot
20.5.2. Interview Transcript: Douglas Marenzi, Managing Director
20.6. Elcam Medical
20.6.1. Company Snapshot
20.6.2. Interview Transcript: Tsachi Shaked, Senior Marketing and BD Director,
20.7. IDEO
20.7.1. Company Snapshot
20.7.2. Interview Transcript: Jesse Fourt, Design Director
20.8. Bill & Melinda Gates Foundation
20.8.1. Company Snapshot
20.8.2. Interview Transcript: Dennis Lee, Senior Program Officer in CMC

21. CONCLUDING REMARKS

21.1. Chapter Overview

22. APPENDIX 1: TABULATED DATA23. APPENDIX 2: LIST OF COMPANIES AND ORGANIZATIONS

Companies Mentioned

AbbVie
Aktiv Pharma Group
ALK-Abelló
Allergy Therapeutics
Alvogen
Alvotech
AMAG Pharmaceuticals
Amgen
Amneal Pharmaceuticals
Amphastar Pharmaceuticals
Androsystems
Antares Pharma
Aptar
Asahi Kasei Pharma
Ascendis Pharma
AstraZeneca
Battelle
Bayer
Becton Dickinson
Bespak (acquired by Recipharm)
Biocorp
Biogen
BioGene Pharmaceutical
Boehringer Ingelheim
Bristol-Myers Squibb
Cambridge Consultants
Celltrion
ChemProtect.SK
Chugai Pharmaceutical
CinnaGen
Creare
Crossject
DALI Medical Devices
Dr. Reddy's Laboratories
Duoject Medical Systems
Elcam Medical
Eli Lilly
EMD Serono
Eton Pharmaceuticals
F. Hoffmann-La Roche
Ferring Pharmaceuticals
Fresenius Kabi
Fujifilm Kyowa Kirin Biologics
Genentech (subsidiary of Roche)
GlaxoSmithKline
Grand Pharma
Idorsia Pharmaceuticals
Impax Pharmaceuticals (subsidiary of Amneal Pharmaceuticals)
Jabil
Janssen Biotech
Janssen Research and Development
JCR Pharmaceuticals
Jiangsu Delfu medical device
Kaléo
King Pharmaceuticals (acquired by Pfizer)
LG Chem
Lincoln Medical (acquired by Bioprojet Pharma)
Lineage Cell Therapeutics
Lunatus Medical Company
Medexus Pharmaceuticals
Medicom Innovation Partner (acquired by Phillips-Medisize)
Merck
Meridian Medical Technologies
Midas Pharma
MiniEpi
Momenta Pharmaceuticals
Mylan
Nemera
Neuma
Nipro
Novartis
Ology Bioservices (subsidiary of National Resilience)
Oval Medical Technologies (acquired by SMC)
Owen Mumford
PA Consulting Group
Palatin Technologies
Pfizer
PharmaConsult
Phillips-Medisize (acquired by Molex)
Promius Pharma (subsidiary of Dr. Reddy's Laboratories)
Rafa Laboratories
RAVIMED
Regeneron Pharmaceuticals
Rx Bandz
Samsung Bioepis
Sandoz
Sanofi
Shire (subsidiary of Takeda Pharmaceutical)
SHL Medical
Stevanato Group
Sumitomo Dainippon Pharma
Sun Pharmaceutical Industries
Survival Technologies
Symatese
Takeda Pharmaceutical Company
Teva Pharmaceutical Industries
UCB Biopharma
Union Medico
US WorldMeds
Bausch Health Companies (formerly Valeant Pharmaceuticals International)
Weibel CDS (subsidiary of SHL Medical)
Weiss-Aug
West Pharmaceutical Services
Windgap Medical
Xeris Pharmaceuticals
Ypsomed
Zion Clinical Pharmacy

Methodology

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Overview

Scope of the Report

In addition to other elements, the study includes:

The study includes detailed transcripts of discussions held with the following individuals:

Key Questions Answered

Table of Contents

Companies Mentioned

Methodology

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