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市場調查報告書

個人化手術的層積造型的機會 2017年:醫療建模及手術指南

OPPORTUNITIES FOR ADDITIVE MANUFACTURING IN PERSONALIZED SURGERY 2017 - MEDICAL MODELING AND SURGICAL GUIDES

出版商 SmarTech Markets Publishing LLC 商品編碼 550933
出版日期 內容資訊 英文 138 Pages
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個人化手術的層積造型的機會 2017年:醫療建模及手術指南 OPPORTUNITIES FOR ADDITIVE MANUFACTURING IN PERSONALIZED SURGERY 2017 - MEDICAL MODELING AND SURGICAL GUIDES
出版日期: 2017年09月07日 內容資訊: 英文 138 Pages
簡介

本報告提供下一代的個人化手術中3D印刷的利用相關之醫療用3D印刷趨勢調查,以改革外科診療的醫療用3D印刷之2大應用──人體模型及患者專用手術指南·工具為對象,提供這些應用領域主要的發展趨勢綜合分析,價值命題·目前醫療研究·經營模式,印刷個人手術設備·模組相關硬體設備·印刷服務·軟體等的十年預測,並彙整主要企業的簡介等資訊。

第1章 使用3D印刷的個人化手術簡介

第2章 支援個人化手術的3D技術分析

  • 光聚合固化技術印刷
  • 材料押出印刷
  • 材料噴射 (材料噴塗)
  • 黏著劑噴塗成型技術 (黏著劑噴塗成型)
  • 聚合物粉體熔化成型技術
  • 其他流程:層壓
  • 3D印刷軟體·個人化手術
  • 本章的要點

第3章 3D印刷醫療模式的機會分析

  • 從3D印刷醫療模式提取價值
  • 透過功能和醫療程序探索醫療建模機會
  • 將醫學建模的3D印刷整合到主要醫療保健環境中
  • 服務供應商的經營模式及醫療建模供應商
  • 醫療建模應用·印刷的課題
  • 3D印刷醫療模式的展望·滲透率分析
  • 本章的要點

第4章 3D印刷手術指南·工具的機會分析

  • 3D印刷手術指南·工具所扮演的角色定義
  • 手術指南機會的調查:醫療市場區隔·治療
  • 3D印刷手術指南·工具的經營模式·整合策略
  • 印刷手術指南·工具應用的課題
  • 3D印刷手術指南·工具的展望·滲透率分析
  • 本章的要點

第5章 3D支援個人化手術的十年機會預測

  • 調查手法·前提條件的討論
  • 語境醫學3D印刷的機會·個人手術市場資料
  • 個人手術市場區隔上3D印刷硬體設備市場機會
  • 個人手術應用帶來的3D印刷材料的機會
  • 3D印刷個人手術市場上及其他的機會:服務·軟體

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目錄
Product Code: SMP-AM-PS2017-0917

3D printing technology has been a major revolution in the field of medicine primarily for its ability to much more effectively and easily create objects of a complex and detailed geometry with no significant additional cost concerns from one object to the next. Combined with medical imaging systems and digital conversion software, 3D printing has grown to become a critical tool for advancing personalized care in both medical and dental markets.

Through the past two decades, 3D printing technology has been applied to surgical practice to redefine the concept of personalized surgery in the production of realistic anatomical models and single use surgical cutting, pinning, and drilling guides based on real patient data. Today, the combination of these and other personal 3D printed devices are reducing surgical times and associated costs, while improving the outcome for patients.

This report is the only study of trends in medical 3D printing related specifically to the evolving use of 3DP in personalized surgery for next generation surgical treatment. This study provides:

  • Coverage of the two primary 3D printing applications revolutionizing surgical practice - anatomical models and patient specific surgical guides and tools
  • A comprehensive analysis of the key evolutions in these application areas and their ongoing integration into hospitals and primary care environments, leading to continued investment by healthcare networks into in-house 3D printing technology
  • Analysis of the value proposition, current medical research, and business models for both insured and outsourced production of specific subsegments, including cranillomaxillofacial, knee, hip, spine, and more
  • Ten year market forecasts for hardware, material, print services, and software directly related to the use of printed personal surgical devices and models, including breakouts by print technology, material class, production volume by device type, services value by segment, and more
  • Profiles of leading competitors and providers for medical 3D printing services and machine developers relevant for medical 3D printing for anatomical models and surgical guides
  • Penetration analysis of various specific applications in 3D printed personal surgery devices

Additive manufacturing and 3D printing technologies are extremely well positioned in the healthcare segment to bring disruptive value to medical care, and as the only production process capable of producing truly patient specific devices, its use does not face the same degree of technical challenges often cited as barriers to adoption in other industries. This study identifies where the money will be made and lost as these trends play out. It will be vital reading not only for executives in the 3D printing/additive manufacturing space, but also for marketing and product managers at companies in the medical materials, medical device and healthcare industries.

Table of Contents

Chapter One: Introduction to Personalized Surgery with 3D Printing

  • 1.1. Segmentation of 3D Print Enabled Personal Surgery Market
    • 1.1.1. Primary Healthcare Segments and Procedures Being Supported
  • 1.2. Personalized Surgery Segments Carving Out Major Medical 3D Printing Opportunities
    • 1.2.1. Dental Versus non-Dental Procedures in Personalized Surgery
    • 1.2.2. Major Market Activity in Establishing Personalized Surgery with 3D Printing
      • 1.2.2.1. Major Hospitals and Healthcare Networks Incorporating In-House 3D Printing
      • 1.2.2.2. Significant Strides in Surgical Guide and Full-Solution Personal Surgery Print Services
      • 1.2.2.3. Industry Veterans Push to Move Anatomical Modeling with 3D Printing Forward in 2017
  • 1.3. Print Technology and Material Evolution Supporting Medical Modeling and Surgical Guides
    • 1.3.1. Availability of Capable Low-Cost Printers at All Time High Across Print Technology Segments
    • 1.3.2. Adaptation of Derivative and Hybrid Print Processes for Easier Implementation
  • 1.4. Market Shift Trend: Examining the Effects of 3D Printing Services in Primary Care Environments for Personalized Surgery
    • 1.4.1. The Role of Radiology in 3D Printed Anatomical Modeling
    • 1.4.2. Shifting Role of Service Providers in Personal Surgery
  • 1.5. Market Observations, Outlook, and Growth Projections

Chapter Two: Examination of 3D Printing Technologies Supporting Personalized Surgery

  • 2.1. Vat Photopolymerization Printing
    • 2.1.1. Viability of Low-Cost Photopolymerization Systems in Personalized Surgery Applications
    • 2.1.2. Relevant Material and Development Considerations
    • 2.1.3. Summary of Photopolymerization Opportunities in Personalized Surgery
    • 2.1.4. Relevant Players in Photopolymerization 3D Printing for Medical Applications
      • 2.1.4.1. 3D Systems
      • 2.1.4.2. EnvisionTEC
      • 2.1.4.3. Carbon
  • 2.2. Material Extrusion Printing
    • 2.2.1. Viability of Low-Cost Extrusion Systems in Personalized Surgery Applications
    • 2.2.2. Relevant Material and Development Considerations
    • 2.2.3. Summary of Material Extrusion Opportunities in Personalized Surgery
    • 2.2.4. Relevant Players in Extrusion 3D Printing for Medical Applications
      • 2.2.4.1. Leapfrog
      • 2.2.4.2. Rize
      • 2.2.4.3. Stratasys
      • 2.2.4.4. CEL
  • 2.3. Material Jetting
    • 2.3.1. Developments in Low Cost Material Jetting Systems
    • 2.3.2. Relevant Material and Development Considerations
    • 2.3.3. Summary of Material Jetting Opportunities in Personalized Surgery
    • 2.3.4. Relevant Players in Material Jetting 3D Printing for Medical Applications
      • 2.3.4.1. Stratasys
      • 2.3.4.2. 3D Systems
  • 2.4. Binder Jetting
    • 2.4.1. Developments in Low-Cost Binder Jetting Systems
    • 2.4.2. Relevant Material and Development Considerations
    • 2.4.3. Summary of Binder Jetting Opportunities in Personalized Surgery
  • 2.5. Polymer Powder Bed Fusion
    • 2.5.1. Viability of Polymer Powder Bed Fusion in Personalized Surgery
    • 2.5.2. Relevant Material and Development Considerations
    • 2.5.3. Summary of Powder Bed Fusion Opportunities in Personalized Surgery
    • 2.5.4. Relevant Players in Polymer Powder Bed Fusion 3D Printing for Medical Applications
      • 2.5.4.1. 3D Systems
      • 2.5.4.2. EOS
      • 2.5.4.3. Formlabs
      • 2.5.4.4. Prodways
  • 2.6. Other Processes - Lamination
    • 2.6.1. Viability of Lamination Technologies in Personalized Surgery
  • 2.7. 3D Printing Software and Personalized Surgery
    • 2.7.1. Workflow for Personalized Surgery and the Role of 3D Printing Software
    • 2.7.2. Segmentation Using Software Shown as a Bottleneck to Adoption of 3D Printing for Personalized Surgery
    • 2.7.3. Leading Providers of Medical 3D Printing Software for Personalized Surgery
      • 2.7.3.1. Materialise
      • 2.7.3.2. 3D Systems
      • 2.7.3.3. Embodi3D
  • 2.8. Key Points from this chapter

Chapter Three: Opportunity Analysis of 3D- Printed Medical Models

  • 3.1. Extracting Value from 3D-Printed Medical Models
    • 3.1.1. Reduction of Overall Costs Resulting from Printed Anatomical Models
    • 3.1.2. Secondary Benefits of Printed Anatomical Models
    • 3.1.3. Relevant Successful Case Studies in 2017
    • 3.1.4. Establishing the 3D-Printed Medical Model Value Hierarchy
  • 3.2. Exploring Medical Modeling Opportunities by Functionality and Medical Procedure
    • 3.2.1. Surgical Planning Models
      • 3.2.1.1. Maxillofacial Models
      • 3.2.1.2. Cranial Models
      • 3.2.1.3. Cardiovascular Models
      • 3.2.1.4. Spinal Models
      • 3.2.1.5. Other Emerging Model Types - Kidney, Liver, Hip, and Beyond
    • 3.2.2. Models for Communication with Patients or Other Medical Professionals
    • 3.2.3. Models for Teaching and Training of Medical Professionals Outside of the Operating Room
    • 3.2.4. Models for the Testing of Medical Devices
  • 3.3. Integration of 3D Printing for Medical Modeling into Primary Healthcare Environments
  • 3.4. Service Provider Business Models and Providers for Medical Modeling
    • 3.4.1. Relevant Players and Service Providers Specializing in 3D-Printed Medical Models
      • 3.4.1.1. Axial3D
      • 3.4.1.2. Materialise
      • 3.4.1.3. Medical Modeling (3D Systems)
  • 3.5. Challenges for Medical Modeling Applications and Printing
  • 3.6. Outlook and Penetration Analysis for 3D-Printed Medical Models
  • 3.7. Key Points from This chapter

Chapter Four: Opportunity Analysis of 3D- Printed Surgical Guides and Tools

  • 4.1. Defining the Role of 3D Printed Surgical Guides and Tools
    • 4.1.1. Value Proposition for Use of Printed Guides and Tools
      • 4.1.1.1. Integration with Printed Implants for True Personalized Surgery
    • 4.1.2. Supporting Case Studies for Custom Printed Surgical Tools
  • 4.2. Exploring Surgical Guide Opportunities by Healthcare Segment and Procedure
    • 4.2.1. Surgical Guides for Medical Applications
      • 4.2.1.1. Surgical Cutting and Pinning Guides for Total Knee Replacement Surgery
      • 4.2.1.2. Craniomaxillofacial Surgical Guides
      • 4.2.1.3. Hip & Spine Surgical Guides
      • 4.2.1.4. Other Guides - Osteotomies and More
    • 4.2.2. Surgical Guides for Dental Applications
  • 4.3. Business Models and Integration Strategies for 3D- Printed Surgical Guides and Tools
  • 4.4. Challenges for Printed Surgical Guide and Tool Applications
  • 4.5. Outlook and Penetration Analysis for 3D-Printed Surgical Guides and Tools
  • 4.6. Key Points from This chapter

Chapter Five: Ten-Year Opportunity Forecasts for 3D Print-Enabled Personalized Surgery

  • 5.1. Discussion of Methodology and Assumptions
  • 5.2. Contextual Medical 3D Printing Opportunities and Personal Surgery Market Data
  • 5.3. 3D Printing Hardware Market Opportunities in Personal Surgery Segment
  • 5.4. 3D Print Material Opportunities Resulting from Personal Surgery Applications
  • 5.5. Other Opportunities in 3D-Printed Personal Surgery Market - Services and Software
    • 5.5.1. Medical 3D Printing Software Opportunities

About SmarTech Publishing

About the Analyst

Acronyms and Abbreviations Used In this Report

List of Exhibits

  • Exhibit 1-1: Illustration of 3D Print Enabled Personalized Surgery Application Segments
  • Exhibit 1-2: Summary of Current and Future Healthcare Segments for 3D Print Enabled Personalized Surgery
  • Exhibit 1-3: Total Projected Medical 3D Printing Revenues, by Opportunity Type, 2014-2027(e)
  • Exhibit 1-4: Total Projected Printer Revenues in Medical 3D Printing, by Classification, 2014-2027(e)
  • Exhibit 1-5: Total Weighted Average Selling Price of Polymer 3D Printers (All Technologies), 2014-2027(e)
  • Exhibit 1-6: Projected Outsourced Printing Rates for Personalized Surgery Applications, by Application Group, 2014-2027(e)
  • Exhibit 1-7: Total Projected 3D Printed Personal Surgery Segment Revenue Opportunities, by Category, 2014-2027(e)
  • Exhibit 2-1: Comparison of Vat Photopolymerization Unit Sales to Various Personal Surgery Segments, by System Classification, 2015-2027(e)
  • Exhibit 2-2: Summary of Competitive Analysis for Vat Photopolymerization in 3D Printed Personal Surgery Applications
  • Exhibit 2-3: Total Projected Material Extrusion Printer Sales to Personal Surgery Market, by Classification, 2014-2027(e) (excludes dental)
  • Exhibit 2-4: Summary of Competitive Analysis for Material Extrusion in 3D Printed Personal Surgery Applications
  • Exhibit 2-5: 2016 Market Share in Medical 3D Printers, Material Jetting Systems, by Vendor
  • Exhibit 2-6: Summary of Competitive Analysis for Material Jetting in 3D Printed Personal Surgery Applications
  • Exhibit 2-7: Summary of Competitive Analysis for Binder Jetting in 3D Printed Personal Surgery Applications
  • Exhibit 2-8: Summary of Competitive Analysis for Powder Bed Fusion in 3D Printed Personal Surgery Applications
  • Exhibit 2-9: Summary of Competitive Analysis for Laminated Object Manufacturing in 3D-Printed Personal Surgery Applications
  • Exhibit 2-10: Sample Medical Device 3D Printing Workflow
  • Exhibit 2-11: Software Workflow for 3D Printed Personal Surgery Applications
  • Exhibit 3-1: Primary Summary of Value Propositions for Printed Anatomical Models
  • Exhibit 3-2: Expected Total Production Costs of 3D Printed Anatomical Models for Primary Production Scenarios, by Model Type, 2016-2027(e)
  • Exhibit 3-3: Value Hierarchy of 3D-Printed Anatomical Models and Physical Characteristics
  • Exhibit 3-4: Projected Annual 3D Printed Anatomical Model Volume for Maxillofacial Surgery, 2014-2027 (e)
  • Exhibit 3-5: Projected Annual 3D Printed Anatomical Model Volume for Cranial Procedures, 2014-2027 (e)
  • Exhibit 3-6: Projected Annual 3D Printed Anatomical Model Volume for Heart Related Procedures, 2014-2027 (e)
  • Exhibit 3-7: Projected Annual 3D Printed Anatomical Model Volume for Spine Related Procedures, 2014-2027 (e)
  • Exhibit 3-8: Projected Annual 3D Printed Anatomical Model Volume for Other Procedures, 2014-2027 (e)
  • Exhibit 3-9: Summary of Medical Modeling Applications by Functionality
  • Exhibit 3-10: Summary of Challenges in Current 3DP Medical Model Market
  • Exhibit 3-11: Total Aggregated 3D Printed Medical Model Volume, by Category, 2014-2027 (e)
  • Exhibit 4-1: Summary of Potential Benefits and Value Proposition of 3D Printed Surgical Guides and Instrumentation
  • Exhibit 4-2: Projected Production Volume of 3D-Printed Patient Specific Implants
  • Exhibit 4-3: Commercial Support for Printed Surgical Guides in Total Knee Replacement
  • Exhibit 4-4: Projected Manufacturing Volume of Printed Surgical Guides for Knee Related Procedures, 2014-2027(e)
  • Exhibit 4-5: Rendering of CMF Surgical Cutting Guide
  • Exhibit 4-6: Projected Manufacturing Volume of Printed Surgical Guides for CMF Procedures, 2014-2027(e)
  • Exhibit 4-7: Projected Manufacturing Volume of Printed Surgical Guides for Hip Procedures, 2014-2027(e)
  • Exhibit 4-8: Projected Manufacturing Volume of Printed Surgical Guides for Spine Procedures, 2014-2027(e)
  • Exhibit 4-9: Projected Manufacturing Volume of Printed Surgical Guides for Other Procedures, 2014-2027(e)
  • Exhibit 4-10: Projected Manufacturing Volume of Printed Surgical Guides for Dental Implants, 2014-2027(e)
  • Exhibit 4-11: Total Global Projected 3D Printed Surgical Guide and Tool Production Volume, all Segments (excluding Dental), 2014-2027(e)
  • Exhibit 5-1: Comparison of Total Medical AM/3DP Revenue Opportunities, by Category, 2014-2027(e)
  • Exhibit 5-2: Total Projected 3DP Personal Surgery Revenue Opportunities, by Region, 2014-2027(e)
  • Exhibit 5-3: Projected Hardware Revenue for 3DP Personal Surgery Applications, 2014-2027(e)
  • Exhibit 5-4: Projected Hardware Unit Sales for 3DP Personal Surgery Applications, 2014-2027(e)
  • Exhibit 5-5: Projected Hardware Install Base for 3DP Personal Surgery Applications, 2014-2027(e)
  • Exhibit 5-6: Projected 3D Print Material Revenues Resulting from Printed Personal Surgery Applications, by Material Family, 2014-2027(e)
  • Exhibit 5-7: Projected 3D Print Material Shipments Resulting from Printed Personal Surgery Applications, by Material Family, 2014-2027(e)
  • Exhibit 5-8: Aggregated Forecasted Revenue Opportunity for Print Materials Used in Personal Surgery Applications, by Stakeholder, 2014-2027(e)
  • Exhibit 5-9: Projected Print Services Revenues in Personal Surgery Applications, by Region, 2014-2027(e)
  • Exhibit 5-10: Projected Print Services Revenues in Personal Surgery Applications, by Specific Application Type, 2014-2027(e)
  • Exhibit 5-11: Projected Print Services Revenues in Personal Surgery Applications, by Application Group, 2014-2027(e)
  • Exhibit 5-12: Projected 3D Printing Software Opportunities in Personalized Surgery, by Tool Type, 2014-2027(e)
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