3D Printing in Medical Markets 2015: An Opportunity Analysis and Ten-Year Forecast

発行 SmarTech Markets Publishing LLC 商品コード 289450
出版日 ページ情報 英文 110 Pages
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医療部門における3Dプリンティングの市場:機会分析・10カ年予測 3D Printing in Medical Markets 2015: An Opportunity Analysis and Ten-Year Forecast
出版日: 2015年02月27日 ページ情報: 英文 110 Pages


第1章 医療分野での3Dプリンティング技術:市場機会・ユーザー・用途のレビュー

  • プリンテッド医療用部品の主なユーザー
  • 医療用途の3Dプリント技術の近年の発展
  • 医療製品のカスタマイズ
  • 医療用DIYの出現の可能性
  • 医療市場向けに必要とされる専門3Dプリンティングサービス
  • パワーオブ3:3Dプリント実現技術
  • 医用3Dプリントにおける医用画像の役割
  • 3Dプリントにおける医用ソフトウェアの重要性と市場機会
  • 医療3Dプリント市場への材料供給の市場機会
  • 医療市場における3Dプリンティングの評価:地域別
  • サマリー:医療用3Dプリント市場の10カ年予測

第2章 3Dプリンティングの医療部門での用途の検証

  • 医療モデリング
    • 3Dプリントモデルの医療専門家にとっての価値
    • 医療モデル製品のカテゴリーを再編する3Dプリンティング
    • 医療モデリングの市場機会と医療保険・関連政府機関への影響
    • 医療モデリングの真の市場機会
    • 医療モデルの10カ年予測・展望
  • 整形外科インプラント
    • 各種材料と戦略的影響
    • 優れた性能あるいは低コスト性の提供で導入を推進
    • 頭蓋・顎顔面インプラント
    • 寛骨臼カップインプラント
    • その他の整形外科インプラント
    • 3Dプリントインプラントの10カ年予測
  • 医療用補綴物
    • 聴覚補助シェル
    • 義肢・フェアリング
    • 3Dプリント骨折ギプス
    • 3Dプリント補綴物の10カ年予測
  • 手術用ガイド・ツール・その他の医療用支援部品
    • 外科用カッティングガイド・ドリルガイド・特注ツール
    • 3Dプリントガイド・特注ツールの10カ年予測
  • 生物医学的スカフォールドシステム
    • 生物医学用3Dプリントの資金調達の10カ年予測
  • 眼科・矯正用途
    • 3Dプリントフレーム&度付きレンズ
    • 3Dプリントによる矯正インソール
    • 10カ年予測
  • 医療機器製造・ 試作品製造
    • 3Dプリント射出成形による医療機器製造の進化
    • 10カ年予測
  • 医療用途のサマリー

第3章 医療用3Dプリンティングの注目の企業

  • 3D Systems
  • Arcam
  • EnvisionTEC
  • EOS
  • e-Nable
  • Innovation MediTech
  • Materialise
  • Optomec
  • Organovo
  • Rapid Shape
  • Renishaw
  • Stratasys Ltd
  • Worrell

第4章 サマリー:3Dプリンティング技術・材料・ソフトウェアの10カ年予測

  • 医療部門における3Dプリンターの設置数・出荷数の10カ年予測
  • 医療部門における3Dプリンティングソフトウェアの10カ年予測
  • 医療部門における3Dプリンティング材料の年間消費量の10カ年予測
    • 熱可塑性プラスチック
    • フォトポリマー
    • 金属粉
    • その他
  • サマリー:地域別

SmarTech Markets Publishingについて




Product Code: SMP-3D-MM-0215

Reasons to Buy this Report

  • The market for 3D printed medical applications is as vast as it is complex, but not all applications hold realistic long term adoption potential. SmarTech has categorized 3D printed medical components into distinct sub-categories to easily differentiate applications and compare which areas could achieve paradigm shifts, and which will remain niche.
  • SmarTech's Ten Year Forecasts for the medical sector include data specific both to 3D printing suppliers detailing printers by technology, materials by type, and software, but also includes values for a wide variety of specific medical applications including various implants, surgical tools, guides, medical models, medical devices and equipment prototypes, and more.
  • Actionable intelligence is presented in a way that encompasses both the 3D printing industry and the global medical industry in order to help readers plan businesses against real, quantifiable data and strategic implications from analysts that know 3D printing.
  • We aren't a market research company trying to apply expertise in other areas to 3D printing - we are 3D printing experts, and studying the 3D industry is all we do.


In this report SmarTech identifies the main opportunities for 3D printing in the medical environments. It identifies where money is being made through the current use of 3D printers in this area and shows where the revenue streams will be found in the future. It also identifies current technical weaknesses in 3D printing and where 3D printers, software and services must adapt to become a commercial success. As the table of contents below shows this report provides coverage of all the current medical applications for 3D printing, along with granular ten-year forecasts of 3D printing in the medical sector in both volume and revenue terms.

3D printing will enhance the effectiveness of medical practice, creating many new revenue opportunities over the next decade. SmarTech believes that 3D printing technology showed its power to create paradigm shifts in a medical field when 3D-printed hearing aid shells first hit the market. And we think that many more such paradigm shifts are on their way thanks to the power of what SmarTech refers to as "3D printing-enabled medical technologies," which include 3D printing, medical imaging, and three-dimensional modeling. The outlook for medical use of 3D printing is evolving at an extremely rapid pace as medical manufacturers are beginning to utilize 3D printing in more advanced ways, specialty medical engineers are achieving incredible success in complex procedures through assistive 3D-printed models and guides, and patients around the world are experiencing improved quality of care through 3D-printed implants and prosthetics never before seen.

This report, builds on SmarTech extensive knowledge and publications in the "additive medicine" with even more data and analysis of more medical applications than before. The report concludes with an assessment of the medical related strategies of 15 leading 3D printer firms that have made medical/dental markets a critical part of their product offerings and market direction. SmarTech believes that this report will provide invaluable guidance for 3D-printing equipment and software companies, service providers, specialty chemical firms and medical equipment firms. We also think that it will prove to be required reading for investors in the 3D- printing business as a whole.

Table of Contents

Authors Note

Chapter One: Review of Opportunities, Users, Applications, and 3D Printing Medical Technology

  • 1.1 Understanding Key Users of Printed Medical Parts
  • 1.2 Recent Advancements in 3D Print Technology Relevant to Medical Applications
  • 1.3 Customization for Medical Products
  • 1.4 The Potential Emergence of DIY Medical Applications
  • 1.5 Specialized 3D Printing Services Required for Medical Markets
  • 1.6 The Power of 3: 3D Print Enabled Technologies
  • 1.6.1 The Role of Medical Imaging In 3D-Printed Medical Applications
  • 1.6.2 The Importance and Opportunity for Medical Software in 3D Printed Medical Applications
  • 1.7 Opportunities to Supply Materials Into the 3D-Printed Medical Market
  • 1.8 Assessment for 3D Printing In Medical Markets by Geography
  • 1.9 Summary of Ten-Year Forecasts for 3D Printed Medical Markets

Chapter Two: Examination of Medical Applications for 3D Printing

  • 2.1 Medical Modeling
    • 2.1.1 Value of 3D Printed Models to Medical Professionals
    • 2.1.2 3D Printing is Re-Inventing the Medical Model Product Category
    • 2.1.3 Medical Modeling Opportunities and the Influence of Health Insurance and Government Agencies
    • 2.1.4 Isolating Real Opportunities in Medical Modeling
    • 2.1.4 10 Year Forecast & Outlook for Medical Models
  • 2.2 Orthopedic Implants
    • 2.2.1 Different Materials Used and Strategic Implications
    • 2.2.2 Adoption Is Driven by Applications that Offer Superior Performance and/or Lower Cost
    • 2.2.3 Cranio-maxillofacial Implants
    • 2.2.4 Acetabular Hip Cup Implants
    • 2.2.5 Other Orthopedic Implants
    • 2.2.6 Ten-Year Forecast of 3D Printed Implants
  • 2.3 Medical Prosthetics
    • 2.3.1 Hearing Aid Shells
    • 2.3.2 Prosthetic Limbs and Fairings
    • 2.3.4 3D Printed Fracture Braces
    • 2.3.3 Ten-Year Forecasts of 3D Printed Prosthetics
  • 2.4 Surgical Guides, Tools, and Other Medical Professional Assistance Parts
    • 2.4.1 Surgical Cutting Guides, Drill Guides, and Bespoke Tools
    • 2.4.2 Ten-Year Forecasts of 3D Printed Guides & Bespoke Tools
  • 2.5 Biomedical Scaffold Systems
    • 2.5.1 Ten-Year Forecasts of 3D Printed Biomedical Funding
  • 2.6 Ophthalmic and Orthotic Applications
    • 2.6.1 3D Printed Frames & Prescription Lenses
    • 2.6.2 3D Printed Orthotic Insoles
    • 2.6.3 Ten Year Forecast for 3D Printed Ophthalmic and Orthotic Applications
  • 2.7 Medical Device Manufacturing and Prototyping
    • 2.7.1 Advancing Medical Device Production with 3D Printed Injection Molding
    • 2.7.2 10 Year Forecast for Medical Manufacturing and Device Prototyping Applications
  • 2.8 Summary of Medical Applications

Chapter Three: Key Firms to Watch for 3D Printing in Medical Markets

  • 3.1 3D Systems
  • 3.2 Arcam
  • 3.3 EnvisionTEC
  • 3.4 EOS
  • 3.5 e-Nable
  • 3.6 Innovation MediTech
  • 3.7 Materialise
  • 3.8 Optomec
  • 3.9 Organovo
  • 3.10 Rapid Shape
  • 3.11 Renishaw
  • 3.12 Stratasys Ltd
  • 3.13 Worrell

Chapter Four: Summary of Ten-Year Forecasts for 3D Printing Technology, Materials & Software

  • 4.1 Ten Year Forecasts of 3D Printers Installed and Shipped in the Medical Sector
  • 4.2 Ten Year Forecasts of 3D Printing Software in the Medical Sector
  • 4.3 Ten Year Forecasts of 3D Printing Materials Consumed Annually by the Medical Sector
    • 4.3.1 Thermoplastics
    • 4.3.2 Photopolymers
    • 4.3.3 Metal Powders
    • 4.3.4 Other Print Materials
  • 4.4 Market Summary by Geography

About SmarTech Markets Publishing

About the Analyst

List of Exhibits

  • Exhibit 1-1: Current Adoption Level for Major Medical Components by Group
  • Exhibit 1-2: Potential Adoption Level for Major Medical Components by Group
  • Exhibit 1-4: Total 3D Printing Medical Market Value, 2014-2024
  • Exhibit 2-1: Opportunities in 3D Printed Medical Models
  • Exhibit 2-2: Potential Adoption Level for Medical Professional Assistance Parts
  • Exhibit 2-3: Total 3D Printed Medical Models by Type, 2014-2024
  • Exhibit 2-4: Total Revenue of 3D Printed Medical Models by Type, 2014-2024
  • Exhibit 2-5: Beneficial Traits of 3D-Printed Orthopedic Implants
  • Exhibit 2-6: 3D Printable Implant Material Comparison
  • Exhibit 2-7: Other Orthopedic Implants Being Explored By 3D Printing
  • Exhibit 2-8: Potential Adoption Level for 3D Printed Medical Implants
  • Exhibit 2-9: Total 3D Printed Implant Parts by Type, 2014-2024
  • Exhibit 2-10: Total Revenue 3D Printed Implant by Type, 2014-2024
  • Exhibit 2-11: Factors Limiting New Revenue Opportunities in Hearing Aids
  • Exhibit 2-12: Benefits 3D Printing Can Bring To The Prosthetics Market
  • Exhibit 2-13: Potential Adoption Level for 3D Printed Prosthetic Parts
  • Exhibit 2-14: Total 3D Printed Prosthetic Parts by Type, 2014-2024
  • Exhibit 2-15: Total Revenue 3D Printed Prosthetic Parts by Type, 2014-2024
  • Exhibit 2-16: Total 3D Printed Hearing Aid Shells, 2014-2024
  • Exhibit 2-17: Total Revenue 3D Printed Hearing Aid Shells, 2014-2024
  • Exhibit 2-18: Potential Adoption Level for 3D Printed Surgical Guides & Tools
  • Exhibit 2-19: 3D Printed Surgical Cutting Guides & Drill Guides/Tools, 2014-2024
  • Exhibit 2-20: Total Revenue Surgical Cutting Guides & Drill Guides/Tools, 2014-2024
  • Exhibit 2-21: Potential Adoption Level for Biomedical Applications
  • Figure 2-22: Total New Annual Investment in Bio-Printing, 2014-2024
  • Exhibit 2-23: Potential Adoption Level for 3D Printed Ophthalmic & Orthotic Solutions
  • Exhibit 2-24: Total Revenue 3D Printed Ophthalmic/Orthotic by Type, 2014-2024
  • Exhibit 2-25: Total 3D Printed Ophthalmic/Orthotic Parts by Type, 2014-2024
  • Exhibit 2-26: Potential Adoption for 3D Printing Medical Manufacturing Applications
  • Exhibit 2-28: Total Value of 3D Printing Medical Applications, 2014-2024
  • Exhibit 5-1: Total Medical 3D Printers Sold Annually by Print Technology, 2014-2024
  • Exhibit 5-2: Total Medical 3D Printer Revenue by Technology, 2014-2024
  • Exhibit 5-3: Total Plastic and Metal Printer Units, 2014-2024
  • Exhibit 5-4: Total Medical Printer Install Base, 2014-2024
  • Exhibit 5-5: Total Medical 3D Printer Software Revenue, 2014-2024
  • Exhibit 5-6: Total 3D Print Materials Revenue by Material Group, 2014-2024
  • Exhibit 5-7: Total 3D Printed Materials Shipments by Material Group, 2014-2024
  • Exhibit 5-8: Thermoplastic Filament Material Revenue by Subgroup 2014-2024
  • Exhibit 5-9: Thermoplastic Powder Revenue by Subgroup, 2014-2024
  • Exhibit 5-10: Photopolymer Material Revenue, 2014-2024
  • Exhibit 5-11: Metal Powder Material Revenue by Subgroup, 2014-2024
  • Exhibit 5-12: Other Material Revenue by Subgroup, 2014-2024
  • Exhibit 5-13: Total 3D Printing Medical Market Value by Geography, 2014-2024
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