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市場調查報告書

醫療設備製造業的發展

Advances in Medical Manufacturing

出版商 Technical Insights (Frost & Sullivan) 商品編碼 348557
出版日期 內容資訊 英文 59 Pages
商品交期: 最快1-2個工作天內
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醫療設備製造業的發展 Advances in Medical Manufacturing
出版日期: 2015年12月31日 內容資訊: 英文 59 Pages
簡介

3D印刷是各種產業上引起製造趨勢大幅變化的技術之一。醫療設備製造也不例外幅受到3D印刷的恩惠。

本報告提供醫療設備製造業相關調查分析、產業概要、大趨勢的影響、促進要素與課題、3D印刷技術等新製造技術的評估、主要的創新、機會評估及技術影響評估等相關整體分析彙整。

第1章 摘要整理

  • 調查的範圍
  • 調查方法
  • 調查方法:階段性方法
  • 主要調查結果

第2章 產業概要

  • 醫療設備製造概要
  • 醫療設備的分類
  • 美國(FDA)
  • 歐洲
  • 澳洲

第3章 大趨勢的影響

  • 影響醫療設備製造的醫療大趨勢

第4章 醫療設備製造的新製造技術的評估

  • 製造技術帶給醫療設備部門的影響
  • 3D印刷
  • 複合材料製造
  • 複合材料連接
  • 微細製造

第5章 產業的促進要素與課題

  • 醫療設備製造產業的促進要素與課題的影響因素

第6章 主要創新的評估

  • 2材料連接技術:MRPC(美國)
  • 醫療設備宏製造服務:Microtek LLC(美國)
  • 超短脈衝雷射:Laser Competence Center (LCC),坦佩雷理工大學(芬蘭)
  • 取向醫療設備複合材料:CIBOR,國立航空研究所,威奇塔州立大學(美國)
  • 碳纖維強化聚醚以太酮(Carbon/PEEK)植入:Icotec AG(瑞士)
  • 醫療設備原型製作,人工植牙取向3D印刷解決方案:Stratasys Ltd(美國)
  • 3D印刷助聽器,人工植牙:Envisiotec GMBH(德國)
  • 整形外科移植的3D印刷取向電子束熔煉:Arcam AB(瑞典)
  • 低價格醫療支援,個人化醫療設備取向太陽能光電發電行動3D印表機:3D4MD(加拿大)
  • 超低磁場3D印刷的導管印刷:東北大學(美國)

第7章 機會評估及技術影響評估(2015年∼2020年)

第8章 關於FROST & SULLIVAN

目錄
Product Code: D6D4-01-00-00-00

The next-generation manufacturing processes for the healthcare industry

This research service assesses the various emerging manufacturing technologies and their impact on the medical device manufacturing in the next 5 Years. 3D printing is one of the technologies that is changing the landscape of manufacturing in various industries. Medical device manufacturing is no exception as a industry that doesn't derive immense benefits from 3D printing. Similarly, 3 other technologies and their impact on medical device manufacturing is assessed in this research study.

This research service provides:

  • Trends, insights, and technologies of focus for stakeholders in this segment
  • An overview of technology Megatrends impacting medical Devices.
  • A review of key technological/business challenges influencing the implementation of such technologies
  • Emerging market needs likely to shape R&D efforts in the near future to aid stakeholders to plan their R&D portfolios effectively
  • Strategic insights and technology assessment of wireless charging technologies based on Analytical Hierarchy Process (AHP) Analysis.
  • Insights into the road ahead for adaptation of emerging technologies in medical device manufacturing in the next 5 years. .

Table of Contents

1. EXECUTIVE SUMMARY

  • 1. Research Scope
  • 2. Research Methodology
  • 3. Research Methodology (Continued)
  • 4. Key Findings
  • 5. Key Findings (continued)

2. INDUSTRY OVERVIEW

  • 1. Overview of Medical Devices Manufacturing
  • 2. Classification of Medical Devices
  • 3. Classification of Medical Devices - USA (FDA)
  • 4. Classification of Medical Devices - Europe
  • 5. Classification of Medical Devices - Australia

3. MEGATREND IMPACT

  • 1. Megatrends in Healthcare influencing Medical Devices Manufacturing
  • 2. Megatrends in Healthcare influencing Medical Devices Manufacturing

4. ASSESSMENT OF EMERGING MANUFACTURING TECHNOLOGIES IN MEDICAL DEVICE MANUFACTURING

  • 1. Influence of Manufacturing Technologies on Medical Devices Sector
  • 2. 1. 3D Printing
  • 3. 2. Composites Manufacturing
  • 4. 3. Multi-material Joining
  • 5. 4. Micro Manufacturing

5. INDUSTRY DRIVERS AND CHALLENGES

  • 1. Factors Influencing Medical Device Manufacturing-Industry Drivers and Challenges

6. KEY INNOVATIONS ASSESSMENT

  • 1. Two Material Joining Technology - MRPC, USA
  • 2. Micro Manufacturing Services for Medical Devices -Microtek LLC, USA
  • 3. Ultra Short Pulse Laser - Laser Competence Center (LCC), Tampere University of Technology, Finland
  • 4. Composite materials for Medical Devices - CIBOR, National Institute for Aviation Research, Wichita State University, USA
  • 5. Carbon Fiber Reinforced Polyetheretherketone (Carbon/PEEK) Implants - Icotec AG, Switzerland
  • 6. 3D Printing Solutions for Medical Device Prototyping and Dental Implants - Stratasys Ltd, USA
  • 7. 3D Printed Hearing Aids and Dental Implants - Envisiotec GMBH, Germany
  • 8. Electron Beam Melting for 3D Printing of Orthopedic Implants - Arcam AB, Sweden
  • 9. Solar Powered Mobile 3D Printers for Low-cost Medical Supplies and Custom Medical Devices - 3D4MD, Canada
  • 10. 3D Printing using Ultralow Magnetic Field to Print Catheters - Northeastern University, USA

7. OPPORTUNITY EVALUATION AND TECHNOLOGY IMPACT ASSESSMENT (2015-2020)

  • 1. Analytical Hierarchy Process (AHP)-Based Technology Impact Assessment
  • 2. Criteria Definitions-Level 0
  • 3. Sub-Criteria Definition-Level 1 and Alternatives
  • 4. Sub-Criteria Definition-Level 1 and Alternatives
  • 5. Alternatives Description
  • 6. Level 0 and Level 1 Criteria-Priority Values
  • 7. Comparison of Alternatives against Level 0 Criteria
  • 8. Alternatives Comparison against Level 1 Criteria- Technology Capabilities and Market Aspect
  • 9. Alternatives Comparison against Level 1 Criteria- Technology Capabilities and Market Aspect
  • 10. Final Priority Values
  • 11. AHP-based Insights
  • 12. Legal Disclaimer

8. THE FROST & SULLIVAN STORY

  • 1. The Frost & Sullivan Story
  • 2. Value Proposition: Future of Your Company & Career
  • 3. Global Perspective
  • 4. Industry Convergence
  • 5. 360° Research Perspective
  • 6. Implementation Excellence
  • 7. Our Blue Ocean Strategy
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