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Needle-Free Delivery Technology Market 2018-2028

Needle-Free Delivery Technology Market 2018-2028

The global needle-free delivery technology market was valued at $1.7bn in 2017 and is estimated to reach $5.5bn by 2028, growing at a CAGR of 11.5% from 2018-2028. In 2017, the Jet Injectors submarket held 45.1% of the global needle-free delivery technology market.

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Report Scope

  • Global Needle-Free Delivery Technology market forecasts from 2018-2028
  • Jet Injector submarket forecasts from 2018-2028
  • Competing Technology submarket forecast from 2018-2028, further segmented into:
  • Novel Needle Technology
  • Inhaler Technology
  • Patch Technology
  • This report also breaks down the revenue forecast for global needle-free delivery technology market by regional and national market:
  • The US
  • EU5: Germany, France, UK, Italy, Spain
  • Japan
  • China
  • India
  • This report discusses the leading companies that are involved in the needle-free delivery technology market. It contains overviews of the companies’ activities, strategies and recent financial results:
  • 3M
  • Antares Pharma
  • Becton Dickinson
  • BioJect Medical Technologies
  • PharmaJet
  • Zogenix
  • This report provides a SWOT Analysis of the global needle-free delivery technology market.
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1. Report Overview
1.1 Global Needle-Free Delivery Technology Market Overview
1.2 Global Needle-Free Delivery Technology Market Segmentation
1.3 Why You Should Read This Report
1.4 How This Report Delivers
1.5 Key Questions Answered by This Analytical Report
1.6 Who is This Report For?
1.7 Methodology
1.8 Frequently Asked Questions (FAQ)
1.9 Associated Visiongain Reports
1.10 About Visiongain
2. Introduction to Needle-Free Delivery Technology
2.1 What is Needle-Free Delivery Technology?
2.1.1 Needlestick Injury
2.1.1.1 Blood-Borne Pathogens and Needlestick Injury
2.1.1.2 Accidental Needlestick Injury: A Serious Healthcare Problem
2.2 The Needle-Free Delivery Technology Market
2.2.1 Jet Injectors
2.2.1.1 Concerns about Multi-use Nozzle Jet injectors (MUNJIs)
2.2.1.2 Strengths and Weaknesses of Jet Injectors
2.2.2 Competing Needle-Free Technologies
2.2.2.1 Novel Needle Technology
2.2.2.2 Pen Needles
2.2.2.3 Microneedles
2.2.2.4 Hollow Microneedles
2.2.2.5 Solid Coated Microneedles
2.2.2.6 Solid Biodegradable Microneedles
2.2.2.7 Solid Uncoated Microneedles
2.2.2.8 Using the Right Microneedles
2.2.2.9 Inhaler Technology
2.2.2.10 Transdermal Patch Technology
2.3 Clinical Settings Where Needle-Free Delivery Technology Will Be Beneficial
2.3.1 Pain Management
2.3.1.1 Using Needle-Free Injection Devices to Administer Lidocaine
2.3.2 Vaccine Delivery: Improving Immune Response
2.3.2.1 Needle-Free Vaccine Delivery
2.3.2.2 Mass Immunisation
2.3.3 Insulin Delivery for Diabetics
2.3.4 Paediatric Injections
2.3.5 Other Uses for Needle-Free Injection Technology
2.4 Regulation of the Needle-Free Delivery Technology Market
2.4.1 The US Regulation System
2.4.1.1 Combination Products
2.4.1.2 FDA Statement Clamps Down On Delivery of Medications in Non-Approved Needle-Free Devices
2.4.2 The European Regulation System
2.4.2.1 Post Marketing Surveillance in the EU
2.5 Biopharmaceuticals
2.5.1 An Introduction to the Biological Drugs Market
2.5.2 Biologics: A Rising Drugs Market
3. Needle-Free Delivery Technology: Global Market 2018-2028
3.1 The Needle-Free Delivery Technology Market: Overview
3.2 Needle-Free Delivery Technology Market Segmentation, 2017
3.3 The Needle-Free Delivery Technology Market Forecast, 2017-2028
3.4 How Will Segmental Market Shares Change to 2028?
3.5 Needle-Free Delivery Technology: Market Trends, 2018-2028
3.6 Needle-Free Delivery Technology: Drivers and Restraints 2018-2028
4. Jet Injectors Technology Market, 2018-2028
4.1 The Jet Injectors Market Overview
4.2 Jet Injectors: Market Forecast 2017-2028
4.3 Jet Injector Devices on the Market
4.3.1 Biojector 2000 (Bioject Medical Technologies)
4.3.2 ZetaJet (Bioject Medical Technologies)
4.3.3 Vision (Antares Pharma)
4.3.4 Vibex (Antares Pharma)
4.3.5 Sumavel DosePro (Endo International)
4.3.6 Stratis (PharmaJet)
4.3.7 LectraJet (D’Antonio Consultants International)
4.3.8 AdvantaJet and GentleJet (Activa Brand Products)
4.3.9 Vitajet (Bioject Medical Technologies)
4.3.10 Med-Jet (Medical International Technologies)
4.3.11 J-Tip (National Medical Products)
4.3.12 Injex30 (Injex Pharma)
4.3.13 SQ-Pen, SQ-X and MHP-1 (Bespak)
4.3.14 E-Jet 100 (Eurojet Medical)
4.3.15 Penjet (Penjet Corporation)
4.4 Jet Injectors Development Pipeline
4.4.1 Glide SDI (Glide Pharmaceutical Technologies)
4.4.2 Zeneo (Crossject)
4.4.3 Relday (Zogenix)
4.4.4 Magnetic Injection (Massachusetts Institute of Technology)
4.4.5 Intradermal (ID) Pen (Bioject Medical Technologies)
4.4.6 Iject and Iject R (Bioject Medical Technologies)
4.4.7 Jupiter Jet (Bioject Medical Technologies)
5. Competing Needle-Free Technology Market, 2018-2028
5.1 The Competing Needle-Free Technology Overview
5.2 The Competing Technology: Market Forecast 2017-2028
5.3 How Will Segmental Market Shares Change to 2028?
5.4 Novel Needle Technology Overview
5.5 Novel Needle Technology: Market Forecast, 2018-2028
5.5.1 Leading Novel Needle Technologies
5.5.1.1 Soluvia Microinjection System (BD)
5.5.1.2 Ultra-Fine Nano 4mm Pen Needle (BD)
5.5.1.3 AutoShield Duo Pen Needle (BD)
5.5.1.4 Microstructured Transdermal Systems (3M)
5.5.1.5 ZP Patch Technology (Zosano)
5.5.2 Novel Needle Technology Development Pipeline
5.5.2.1 Microneedle Patch (Georgia Institute of Technology)
5.5.2.2 Micronjet (NanoPass)
5.5.2.3 DebioJect (Debiotech)
5.5.2.4 AdminPen (nanoBioSciences)
5.5.2.5 PKA SoftTouch (PKA SoftTouch Corp)
5.5.2.6 DrugMat and VaxMat (TheraJect)
5.5.2.7 MicroCor (Corium International)
5.5.2.8 Nanopatch (Vaxxas)
5.5.2.9 Nanotopography Enhanced Microneedle Delivery (University of California-San Francisco, Georgia Institute of Technology and Kimberly-Clark)
5.5.2.10 Memspatch and Micro-Patch (Nemaura)
5.5.2.11 Microneedle Patch for Lidocaine Delivery (National University of Singapore)
5.6 Inhaler Technology Overview
5.7 Inhaler Technology: Market Forecast, 2017-2028
5.7.1 Inhaler Products in the Asthma Market
5.7.1.1 Preventer Inhalers
5.7.1.2 Reliever Inhalers
5.7.2 Inhaler Products in the Insulin Market
5.7.3 Inhaler Products in the Vaccine Market: FluMist Quadrivalent (MedImmune)
5.7.3.1 Pipeline
5.8 Transdermal Patch Technology Overview
5.9 Transdermal Patch Technology: Market Forecast, 2017-2028
5.9.1 Selected Transdermal Patch Products
5.9.1.1 Duragesic (Fentanyl, Janssen Pharmaceuticals)
5.9.1.2 Nicoderm CQ (Nicotine, GlaxoSmithKline)
5.9.1.3 Exelon Patch (Rivastigmine, Novartis)
5.9.1.4 Zecuity (Sumatriptan, Teva)
5.9.2 Transdermal Patch Technology Development Pipeline
5.9.2.1 Electronic Transdermal Patch (Rhenovia Pharma)
5.9.2.2 Electroporation-Mediated DNA Drug Delivery (TriGrid, Ichor Medical Systems)
5.9.2.3 Ultrasonic Waveforms (U-Strip, Transdermal Specialties)
5.9.2.4 Prelude SkinPrep System (Echo Therapeutics)
5.10 Other Competing Needle-free delivery Technology in development
5.10.1 Microbubbles Injection (Shibaura Institute of Technology)
5.10.2 Laser Injection (Seoul National University)
5.10.3 Vaccine Delivery Using Micro-Shock Waves (Indian Institute of Science, Bangalore)
5.10.4 Nanotechnology Syringes (Gwangju Institute of Science and Technology, South Korea)
6. Leading National Markets 2017-2028
6.1 Global Needle-Free Delivery Technology Market: Regional Forecast 2018-2028
6.1.1 How Will Regional Market Shares Change to 2026?
6.2 The US Needle-Free Delivery Technology Market 2018-2028
6.2.1 US Needle-Free Delivery Technology Market Forecast 2018-2028
6.2.2 FDA Guideline for Combination Products
6.2.3 Needle-Free Delivery and the US Flu Vaccination Market
6.2.4 Measles Outbreak in the US
6.3 The EU5 Needle-Free Delivery Technology Market 2017-2028
6.3.1 EU5 Needle-Free Delivery Technology Market Forecast 2018-2028
6.3.2 Germany Needle-Free Delivery Technology Market Forecast, 2018-2028
6.3.3 France Needle-Free Delivery Technology Market Forecast, 2018-2028
6.3.4 The UK Needle-Free Delivery Technology Market Forecast, 2018-2028
6.3.5 Italy Needle-Free Delivery Technology Market Forecast, 2018-2028
6.3.6 Spain Needle-Free Delivery Technology Market Forecast, 2018-2028
6.4 Japan Needle-Free Delivery Technology Market 2018-2028
6.4.1 Japan Needle-Free Delivery Technology Market Forecast 2018-2028
6.5 China Needle-Free Delivery Technology Market 2018-2028
6.5.1 China Needle-Free Delivery Technology Market Forecast 2018-2028
6.6 India Needle-Free Delivery Technology Market 2018-2028
6.6.1 India Needle-Free Delivery Technology Market Forecast 2018-2028
6.6.2 Needles and Syringes being Re-used in Indian Hospitals
6.7 The Rest of the World (RoW) Needle-Free Delivery Technology Market 2018-2028
6.7.1 RoW Needle-Free Delivery Technology Market Forecast 2018-2028
7. Leading Companies in the Needle-Free Delivery Technology Market
7.1 Leading Needle-Free Delivery Technology Manufacturers in 2017
7.2 Antares Pharma: Leading the Needle-Free Injector Market
7.2.1 Antares Pharma: Needle-Free Technology Product Portfolio
7.2.2 Antares Pharma: Future Outlook
7.2.3 Antares Pharma: Products in Development
7.2.4 Settlement of Patent Infringement Case between Antares Pharma and Medac Pharma
7.3 Zogenix
7.3.1 Zogenix: Product Portfolio
7.3.2 Zogenix: Current Pipeline
7.3.3 Zogenix: Financial Overview
7.4 3M: 50 Years of Drug Delivery Technology Development
7.4.1 3M: Drug Delivery Technology Portfolio
7.4.1.1 Oral and Topical Drug Delivery
7.4.1.2 MDI for Nasal and Inhalable Drugs
7.4.1.3 Transdermal patch Technology
7.4.1.4 Microneedle Technology
7.4.2 3M: Market Outlook
7.5 Becton Dickinson and Company (BD)
7.5.1 BD: Drug Delivery Technology Portfolio
7.5.1.1 Prefillable Syringe Systems
7.5.1.2 Self-Injection Systems
7.5.1.3 Pen Needles
7.5.1.4 Safety & Shielding Systems
7.5.2 BD: Future Outlook
7.5.3 New Infusion Set with BD FlowSmart Technology Cleared by FDA
7.5.4 BD Acquired Injection Safety Firms
7.5.5 Recall of BD Needles in Hong Kong
7.6 PharmaJet
7.6.1 PharmaJet: Needle-Free Delivery Technology Product Portfolio
7.6.2 First FDA Approved Jet Injector for Flu Shot in the US
7.6.3 PharmaJet: Collaborations and Needle-Free Delivery Technology Pipeline
7.6.4 Preference for PharmaJet over Needle and Syringe
7.7 BioJect Medical Technologies
7.7.1 Bioject Medical Technologies: Needle-Free Delivery Technology Product Portfolio and Pipeline
7.7.2 Bioject Medical Technologies: Financial Overview
7.7.3 Focusing on Developing Countries
8. Qualitative Analysis of the Needle-Free Delivery Technology Market 2017-2028
8.1 SWOT Analysis of the Needle-Free Delivery Technology Market
8.2 Strengths
8.2.1 Strong Growth in the Biologic Drug Market
8.2.2 Increasing Development in Transdermal Delivery
8.2.3 No Specialist Training Required and No Needlestick Injuries
8.2.4 Eliminating the Cold Chain Problem
8.3 Weaknesses
8.3.1 Healthcare Practitioners are not familiar with Novel Delivery Systems
8.3.2 Greater Regulatory Scrutiny
8.3.3 Inefficient Manufacturing Processes
8.4 Opportunities
8.4.1 Emerging Economies Offer Significant Growth Opportunities
8.4.2 Mass Immunisation Programmes around the World
8.4.3 Increasing Global Diabetic Population
8.4.4 Shift towards Home Administration Setting
8.4.5 Extending Life Cycle of Drugs
8.5 Threats
8.5.1 Traditional Needles and Syringes are Very Cheap to Mass Produce
8.5.2 Needle and Syringes with Anti Needlestick Injury Technology
8.5.3 Limited Clinical Data
8.5.4 Medical Device Excise Tax
9. Conclusions
9.1 Current Leading Needle-Free Technology Segments
9.1.1 Notable Needle-Free Technology Companies
9.1.2 Leading Regional Markets
9.2 Global Needle-Free Technology Market Forecast 2018-2028
9.3 The Future of the Needle-Free Technology Market
9.3.1 Biosimilars are a Major Driver of the Needle-free Delivery Market
9.3.2 Strong Pipeline Will Drive the Competing Needle-Free Injection Technology Market
Appendices
Glossary
Associated Visiongain Reports
Visiongain Report Sales Order Form
Appendix A
About Visiongain
Appendix B
Visiongain report evaluation form
List of Tables
Table 2.1 Classification of Jet Injectors by Method of Propulsion
Table 2.2 Strengths and Weaknesses of the Jet Injector Market
Table 2.3 Pen Needle Technology by Needle Length
Table 2.4 Rationale for Needle-Free Vaccine Delivery
Table 2.5 Examples of Needle-Free Vaccine Delivery Systems, 2017
Table 2.6 Examples of Needle-Free Insulin Delivery Systems for Diabetics, 2017
Table 2.7 FDA Guidance on Regulation of Needle-Free Injectors, 2017
Table 2.8 Top 5 Biologics by Sales ($bn) in U.S, 2017
Table 3.1 The Needle-Free Delivery Technology Market: Revenue ($m), Market Share (%) by Segment, 2017
Table 3.2 The Needle-Free Delivery Technology Market: Revenue ($m), AGR (%) and CAGR (%), 2017-2028
Table 3.3 Needle-Free Delivery Market Segments: Market Size ($m) and Market Share (%), 2017, 2022 and 2028
Table 4.1 The Jet Injectors Market: Revenue ($m), AGR (%) and CAGR (%), 2017-2028
Table 5.1 The Competing Needle-Free Technology Market: Revenue ($m), AGR (%) and CAGR (%), 2017-2028
Table 5.2 Market Size ($m) and Market Share (%) of Competing Needle-Free Technology Market Segments, 2017
Table 5.3 Novel Needle Technology Market: Revenue ($m), AGR (%) and CAGR (%), 2017-2028
Table 5.4 Inhaler Technology Market: Revenue ($m), AGR (%) and CAGR (%), 2017-2028
Table 5.5 Leading Products in the Asthma Preventer Inhaler Market, 2017
Table 5.6 Leading Products in the Asthma Reliever Inhaler Market, 2017
Table 5.7 Vaccine Inhalers Currently Under Development, 2017
Table 5.8 Transdermal Patch Technology Market: Revenue ($m), AGR (%) and CAGR (%), 2017-2028
Table 5.9 Transdermal Patch Products, 2017
Table 6.1 Global Needle-Free Delivery Technology Market Forecast: Market Size ($m), AGR (%) and CAGR (%) by Region, 2017-2028
Table 6.2 Global Needle-Free Delivery Technology Market: Market Share (%) by Country/Region, 2017-2028
Table 6.3 Global Needle-Free Delivery Technology Market: Market Size ($m) and Market Share (%) by Country/Region, 2017, 2022 and 2028
Table 6.4 US Needle-Free Delivery Technology Market Forecast: Market Size ($m), AGR (%) and CAGR (%), 2017-2028
Table 6.5 EU5 Needle-Free Delivery Technology Market Forecast: Market Size ($m), AGR (%) and CAGR (%), 2017-2028
Table 6.6 EU5 Needle-Free Delivery Technology Market: Market Shares (%) by National Market, 2017, 2022 and 2028
Table 6.7 Germany Needle-Free Delivery Technology Market Forecast: Market Size ($m), AGR (%) and CAGR (%), 2017-2028
Table 6.8 France Needle-Free Delivery Technology Market Forecast: Market Size ($m), AGR (%) and CAGR (%), 2017-2028
Table 6.9 UK Needle-Free Delivery Technology Market Forecast: Market Size ($m), AGR (%), CAGR (%), 2017-2028
Table 6.10 Italy Needle-Free Delivery Technology Market Forecast: Market Size ($m), AGR (%) and CAGR (%), 2017-2028
Table 6.11 Spain Needle-Free Delivery Technology Market Forecast: Market Size ($m), AGR (%) and CAGR (%), 2017-2028
Table 6.12 Japan Needle-Free Delivery Technology Market Forecast: Market Size ($m), AGR (%) and CAGR (%), 2017-2028
Table 6.13 China Needle-Free Delivery Technology Market Forecast: Market Size ($m), AGR (%), CAGR (%), 2017-2028
Table 6.14 India Needle-Free Delivery Technology Market Forecast: Market Size ($m), AGR (%) and CAGR (%), 2017-2028
Table 6.15 RoW Needle-Free Delivery Technology Market Forecast: Market Size ($m), AGR (%) and CAGR (%), 2017-2028
Table 7.1 Antares Pharma: Overview, 2017
Table 7.2 Antares Pharma: 2017 Product Portfolio (Product, Drug, Partner, Indication and Territory
Table 7.3 Antares Revenue from Major Customers: Revenue ($m) and Revenue Share (%), 2016 and 2017
Table 7.4 Antares Revenue by Region: Revenue ($m) and Revenue Share (%), 2016 and 2017
Table 7.5 Antares Pharma: Historical Revenue ($m), AGR (%) and CAGR (%), 2013-2017
Table 7.6 Antares Pharma: Products in Development 2017 (Product Name, Drug, Partner, Indication, Territory and Regulatory Status)

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