Vascular Access Device Market: World Market Analysis By Type, By Mode of Insertion, By Region, By Country (2019 Edition): Opportunities and Forecast (2014-2024) - By Region, By Country

Executive Summary

A comprehensive research report created through extensive primary research (inputs from industry experts, companies, stakeholders) and secondary research, the report aims to present the analysis of global Vascular Access Devices market. The report analyzes the Vascular Access Devices market, By Product Type (Peripherally Inserted Central Catheters, Central Venous Catheters, Implantable Ports and others) and By Mode of Insertion (Intravenous and Subcutaneous). The Vascular Access Devices market has been analyzed By Region (North America, Europe, Asia Pacific and Rest of the World) and By Country (U.S, Canada, United Kingdom, Germany, China, Japan, India, Brazil and Mexico) for the historical period of 2014-2018 and the forecast period of 2019-2024.

According to the Azoth Analytics research report, Global Vascular Access Devices Market reached a value of USD 6.7 billion in the year 2018.

Over the past few years, an array of economic, demographic, technological as well as environmental factors have been igniting a revolution in the healthcare industry. Increasing investments in research and development projects associated with vascular access devices by key players including Becton, Dickinson and Company, AngioDynamics, Teleflex, Inc., Fresenius Medical Care, B.Braun Melsungen, etc., has been pushing the market in the right direction. Besides these factors, increasing incidence of chronic diseases and surge in medical tourism have also been supporting the upward trend of the market. On the basis of mode of insertion, the global market has been dominated by intravenous vascular access devices and this trend is anticipated to continue in the forecast period as well. Furthermore, various advantages associated with subcutaneous vascular access devices such as implantable ports include independent/at-home-care, low discernibility, avoidance of puncture wounds and damage directly to the vein, etc. These benefits allow the patients to have more flexibility in their day-to-day lives, which is the principal reason behind their demand growth in the market.

Amongst the regions, North America accounted for the largest regional share in the global vascular access device market in 2018. However, in the forecast period, the Asia Pacific region is anticipated to advance at the highest pace. Some of the key factors driving the robust growth rate of Asia Pacific region include presence of vast consumer base, significant improvements in medical infrastructure in addition to rapid economic development in countries such as China and India.

The report titled “Global Vascular Access Devices Market: Analysis By Product Type (Peripherally Inserted Central Catheters, Central Venous Catheters, Implantable Ports and others), By Mode of Insertion (Intravenous and Subcutaneous), By Region, By Country (2019 Edition): Opportunities and Forecast (2014-2024)- By Region (North America, Europe, Asia Pacific and Rest of the World), By Country (U.S, Canada, United Kingdom, Germany, China, Japan, India, Brazil and Mexico)”, has covered and analyzed the potential of global vascular access devices market and provides statistics and information on market size, shares and growth factors. The report intends to provide cutting-edge market intelligence and help decision makers take sound investment evaluation. Besides, the report also identifies and analyses the emerging trends along with major drivers, challenges and opportunities in the global vascular access devices market. Additionally, the report also highlights market entry strategies for various companies across the globe.

Scope of the Report
Global Vascular Access Devices Market (Actual Period: 2014-2018, Forecast Period: 2019-2024)
‧ Global Vascular Access Devices Market – Size, Growth, Forecast
‧ By Product Type (Peripherally Inserted Central Catheters, Central Venous Catheters, Implantable Ports, Others)
‧ By Mode of Insertion (Intravenous and Subcutaneous)

Regional Markets – North America, Europe, APAC, Rest of the World (Actual Period: 2014-2018, Forecast Period: 2019-2024)
‧ Regional Vascular Access Devices market – Size, Growth, Forecast
‧ By Product Type (Peripherally Inserted Central Catheters, Central Venous Catheters, Implantable Ports, Others)
‧ By Mode of Insertion (Intravenous and Subcutaneous)

Country Analysis – U.S, Canada, United Kingdom, Germany, Japan, China, India, Brazil and Mexico (Actual Period: 2014-2018, Forecast Period: 2019-2024)
‧ Vascular Access Devices market – Size and Growth
‧ By Product Type (Peripherally Inserted Central Catheters, Central Venous Catheters, Implantable Ports and others)
‧ By Mode of Insertion (Intravenous and Subcutaneous)

Other Report Highlights:

‧ Market Dynamics – Drivers and Restraints
‧ Market Trends
‧ SWOT Analysis
‧ Porter Five Force Analysis
‧ Supply Chain Analysis
‧ Competitive Landscape:
o Company Share Analysis
o Pricing Analysis
o Recent Product Approvals
o Pipeline Analysis
o Product Benchmarking
o Brand Name Analysis
‧ Policy and Regulatory Landscape
‧ Company Analysis – Becton, Dickinson and Company, B.Braun Melsungen, Teleflex, Inc., Fresenius Medical Care, Smiths Medical, Inc., ICU Medical, Vygon, AngioDynamics, Inc., Argon Medical Device, Inc., and Medcomp.

Customization of the Report
The report could be customized according to the client’s specific research requirements. No additional cost will be required to pay for limited additional research.

Table of Contents

1. Research Methodology

2. Executive Summary

3. Strategic Recommendations

4. Vascular Access Device Outlook

5. Global Vascular Access Device Market: Growth and Forecast
5.1 By Value (2014-2018)
5.2 By Value (2019-2024)

6. Global Vascular Access Device Market - Segment Analysis
6.1 Global Vascular Access Device Market Size, By Type, Breakdown (In Percentage)
6.1.1 Global Vascular Access Device Market Size, By Type, 2018 (%)
6.1.2 Global Vascular Access Device Market Size, By Type, 2024 (%)
6.2 Global PICC Vascular Access Device Market: Growth and Forecast
6.2.1 By Value (2014-2018)
6.2.2 By Value (2019-2024)
6.3 Global CVC Vascular Access Device Market: Growth and Forecast
6.3.1 By Value (2014-2018)
6.3.2 By Value (2019-2024)
6.4 Global Implantable Port Vascular Access Device Market: Growth and Forecast
6.4.1 By Value (2014-2018)
6.4.2 By Value (2019-2024)
6.5 Other Global Vascular Access Device Market: Growth and Forecast
6.5.1 By Value (2014-2018)
6.5.2 By Value (2019-2024)
6.6 Global Vascular Access Device Market Size, By Mode of Insertion : Breakdown (In percentage)
6.6.1 Global Vascular Access Device Market Size, By Mode of Insertion, 2018 (%)
6.6.2 Global Vascular Access Device Market Size, By Mode of Insertion, 2024 (%)
6.7 Global Intravenous Vascular Access Device Market: Growth and Forecast
6.7.1 By Value (2014-2018)
6.7.2 By Value (2019-2024)
6.8 Global Subcutaneous Vascular Access Device Market: Growth and Forecast
6.8.1 By Value (2014-2018)
6.8.2 By Value (2019-2024)

7. Global Vascular Access Device Market - Regional Analysis
7.1 Global Vascular Access Device Market Size, By Region : Breakdown (In Percentage)
7.1.1 Global Vascular Access Device Market Size, By Region, 2018 (%)
7.1.2 Global Vascular Access Device Market Size, By Region, 2024 (%)

7.2 North America Vascular Access Device Market: Growth and Forecast
7.2.1 By Value (2014-2018)
7.2.2 By Value (2019-2024)
7.2.3 By Type, By Value (2014-2024)
7.2.4 By Mode of Insertion, By Value (2014-2024)
7.3 North America Vascular Access Device Market: Country Analysis (U.S, Canada)
7.3.1 U.S Vascular Access Device Market, By Value (2014-2024)
7.3.2 U.S Vascular Access Device Market, By Type, By Value (2014-2024)
7.3.3 U.S Vascular Access Device Market, By Mode of Insertion, By Value (2014-2024)
7.3.4 Canada Vascular Access Device Market, By Value (2014-2024)
7.3.5 Canada Vascular Access Device Market, By Type, By Value (2014-2024)
7.3.6 Canada Vascular Access Device Market, By Mode of Insertion, By Value (2014-2024)

7.4 Europe Vascular Access Device Market: Growth and Forecast
7.4.1 By Value (2014-2018)
7.4.2 By Value (2019-2024)
7.4.3 By Type, By Value (2014-2024)
7.4.4 By Mode of Insertion, By Value (2014-2024)
7.5 Europe Vascular Access Device Market : Country Analysis (U.K and Germany)
7.5.1 U.K Vascular Access Device Market, By Value (2014-2024)
7.5.2 U.K Vascular Access Device Market, By Type, By Value (2014-2024)
7.5.3 U.K Vascular Access Device Market, By Mode of Insertion, By Value (2014-2024)
7.5.4 Germany Vascular Access Device Market, By Value (2014-2024)
7.5.5 Germany Vascular Access Device Market, By Type, By Value (2014-2024)
7.5.6 Germany Vascular Access Device Market, By Mode of Insertion, By Value (2014-2024)

7.6 APAC Vascular Access Device Market: Growth and Forecast
7.6.1 By Value (2014-2018)
7.6.2 By Value (2019-2024)
7.6.3 By Type, By Value (2014-2024)
7.6.4 By Mode of Insertion, By Value (2014-2024)
7.7 APAC Vascular Access Device Market: Country Analysis (China, Japan, India)
7.7.1 China Vascular Access Device Market, By Value (2014-2024)
7.7.2 China Vascular Access Device Market, By Type, By Value (2014-2024)
7.7.3 China Vascular Access Device Market, By Mode of Insertion, By Value (2014-2024)
7.7.4 Japan Vascular Access Device Market, By Value (2014-2024)
7.7.5 Japan Vascular Access Device Market, By Type, By Value (2014-2024)
7.7.6 Japan Vascular Access Device Market, By Mode of Insertion, By Value (2014-2024)
7.7.7 India Vascular Access Device Market, By Value (2014-2024)
7.7.8 India Vascular Access Device Market, By Type, By Value (2014-2024)
7.7.9 India Vascular Access Device Market, By Mode of Insertion, By Value (2014-2024)

7.8 ROW Vascular Access Device Market: Growth and Forecast
7.8.1 By Value (2014-2018)
7.8.2 By Value (2019-2024)
7.8.3 By Type, By Value (2014-2024)
7.8.4 By Mode of Insertion, By Value (2014-2024)
7.9 ROW Vascular Access Device Market : Country Analysis (Mexico and Brazil)
7.9.1 Mexico Vascular Access Device Market, By Value (2014-2024)
7.9.2 Mexico Vascular Access Device Market, By Type, By Value (2014-2024)
7.9.3 Mexico Vascular Access Device Market, By Mode of Insertion, By Value (2014-2024)
7.9.4 Brazil Vascular Access Device Market, By Value (2014-2024)
7.9.5 Brazil Vascular Access Device Market, By Type, By Value (2014-2024)
7.9.6 Brazil Vascular Access Device Market, By Mode of Insertion, By Value (2014-2024)

8. Global Vascular Access Device Market Dynamics
8.1 Global Vascular Access Device Market Drivers
8.2 Global Vascular Access Device Market Restraints

9. Market Trends

10. Porter Five Force Analysis

11. SWOT Analysis

12. Supply Chain Analysis

13. Competitive Landscape
13.1 Company Share Analysis of Key Industry Players
13.2 Pricing Analysis
13.3 Recent Product Approvals of Key Industry Players
13.4 Pipeline Analysis
13.5 Product Benchmarking of Key Industry Players
13.6 Brand Name Analysis of Key Industry Players

14. Policy and Regulatory Landscape

15. Company Profiles
15.1 Becton, Dickinson and Company
15.2 Teleflex, Inc.
15.3 B. Braun Melsungen
15.4 Fresenius Medical Care
15.5 Smiths Medical, Inc.
15.6 AngioDynamics, Inc.
15.7 ICU Medical, Inc.
15.8 Vygon
15.9 Argon Medical Device, Inc.
15.10 Medcomp