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医療機器包装産業

Medical Device Packaging 2017 to 2021

発行 Allied Development Corp. 商品コード 244998
出版日 ページ情報 英文 350 Pages
納期: 即日から翌営業日
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本日の銀行送金レート: 1USD=115.16円で換算しております。
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医療機器包装産業 Medical Device Packaging 2017 to 2021
出版日: 2017年01月13日 ページ情報: 英文 350 Pages
概要

世界の使い捨て医療機器パッケージング市場は2016年までに40億米ドル以上に達すると予測されています。

当レポートでは、世界の医療機器パッケージング市場における促進因子、市場動向、主要技術および規制環境について分析し、エンドユーズセグメント、パッケージタイプ、材料タイプおよび地域別の市場予測を提供しており、パッケージングメーカー、製紙/不織布および機器サプライヤーのプロファイルを含め、概略以下の構成でお届けいたします。

第1章 イントロダクション

第2章 エグゼクティブサマリー

  • 規制・規格
  • 技術
  • 医療機器市場
  • 医療機器パッケージング市場

第3章 規制・規格

  • 規制・規格
  • ISO 11607の主要コンセプト
  • ISO 11607のレビュー
  • パッケージング開発プロセス
  • 提出・承認期間
  • マーケティングについての検討事項
  • ラベリング
  • 併用医薬品

第4章 技術

  • 技術動向・促進因子
  • 殺菌技術
  • パッケージング材料
  • パッケージング構造
  • パッケージングの種類
  • 医療機器パッケージング装置
  • 環境についての検討事項
  • カテーテルのセグメント
  • ドレープ
  • ドレープ
  • 電気機械装置
  • 手袋
  • 注入装置
  • 非侵襲装置
  • 整形外科装置
  • その他
  • 縫合
  • チューブ
  • 創傷ケア
  • 病院内パッケージング
  • サマリー

第5章 市場動向/予測

  • 世界の医療産業
  • 市場の促進因子・動向
  • パッケージングの促進因子・動向
  • 一次包装高:エンドユーズセグメント別
  • 一次包装額:エンドユーズセグメント別
  • 一次包装の購入
  • 一次包装高:パッケージタイプ別
  • 一次包装額:パッケージタイプ別
  • 一次包装高:材料タイプ別
  • 一次包装額:材料タイプ別
  • 一次包装高:地域別
  • 医療機器高:滅菌法別
  • 医療機器高:自動化レベル別
  • インサート、二次、三次パッケージング:出来高・額

第6章 パッケージングメーカーのプロファイル

第7章 製紙/不織布サプライヤーのプロファイル

第8章 機器サプライヤーのプロファイル

第9章 用語

このページに掲載されている内容は最新版と異なる場合があります。詳細はお問い合わせください。

目次
Product Code: RMD17A

“Medical Device Packaging 2017-2021” is a global study that connects trends in global macroeconomics, demographics, healthcare spending, and spending on medical devices to spending on medical device packaging. With global healthcare spending of $10.7 trillion and global spending on medical devices of $512 billion, the medical device packaging market will reach $5.4 billion by 2021.

In addition to value, Medical Device Packaging provides a complete analysis of volume measured in area for a full compliment of market segmentations. It outlines fast growing market end-use segments such as catheters and orthopedics. It explains the trends and provides a quantitative forecast for all of the sterilization techniques used for medical devices, and it examines the corresponding packaging implications. In addition to end-use segments and sterilization methods, the study breaks down the global industry by geographic region, materials, package type, level of automation, and other characteristics.

The Profiles section includes analyses of the key packaging producers, paper and non-woven suppliers, and equipment suppliers.

Table of Contents

Section I:

Introduction

  • A. Medical device packaging defined
  • B. Medical device packaging defined
    • 1. Medical devices defined
    • 2. Combination devices
    • 3. Medical device packaging
    • 4. Sterile barrier
    • 5. Sterile field
    • 6. Sterility acceptable limits
  • C. Study organization
  • D. Study methodology
  • E. Geographic regions
  • F. Conventions

Section II:

Regulations and Standards

  • A. Regulations and standards
    • 1. Global device and packaging regulations
    • 2. Testing standards
    • 3. Additional concepts
  • B. ISO 11607 key concepts
    • 1. Responsibilities
    • 2. Scope of medical device
    • 3. Packaging system
    • 4. Health care facilities
  • C. ISO 11607 review
    • 1. General requirements
    • 2. Materials
    • 3. Forming and sealing the package
    • 4. Final package
  • D. Packaging development process
    • 1. Material selection
    • 2. Package design
    • 3. Design the manufacturing process
    • 4. ISO 11607 in practice
    • 5. Conclusion
  • E. Approval submissions and response times
    • 1. Classes of medical devices
    • 2. Approval options
    • 3. Device approval process and timeline
  • F. Marketing considerations
    • 1. Packaging producers
    • 2. Equipment suppliers
    • 3. ISO quality systems
    • 4. Clean room production
    • 5. Material and process changes
  • G. Labeling
  • H. Combination healthcare products

Section III:

Technology

  • A. Technology drivers and trends
    • 1. Product safety
    • 2. Labeling
    • 3. In-package sterilization
    • 4. Sterility procedures
    • 5. Packaging cost
    • 6. Product and package integrity
    • 7. Easy-open feature
    • 8. Combinations devices
    • 9. Transparency
    • 10. Packaging process automation
    • 11. Environmental factors
    • 12. In-line thermoforming
    • 13. Seal validation
  • B. UDIS and labeling
    • 1. Uniform device identification system (UDIS)
    • 2. Bar codes
    • 3. Label space
    • 4. Anti-counterfeiting
  • C. Sterilization technology
    • 1. Heat sterilization
    • 2. Ethylene oxide (EtO) gas sterilization
    • 3. Gamma radiation sterilization
    • 4. Electron beam radiation sterilization
    • 5. Other sterilization methods
    • 6. Other sterilization technologies (emerging)
    • 7. Sterility assurance limits
    • 8. Contract sterilization
  • D. Packaging materials
    • 1. Non-wovens and paper
    • 2. Papers for medical device packaging
  • E. Packaging structures
    • 1. Papers and non-wovens
    • 2. High-barrier materials
    • 3. Film and sheet
  • F. Finished packaging
    • 1. Finished package types
    • 2. Unique medical device package types
    • 3. Suppliers
  • G. Medical device packaging equipment
    • 1. Automated packaging equipment
    • 2. Pouch and bag machines
    • 3. Tray formers
    • 4. Thermoform/fill/seal
    • 5. Tray sealers
    • 6. Sealers
    • 7. Horizontal wrappers
    • 8. Four-side-seal
    • 9. Other packaging equipment
    • 10. In-line printing
    • 11. In-line sterilization
    • 12. Machine vision quality systems
  • H. Environmental considerations
    • 1. Source reduction
    • 2. Raw material selection
    • 3. Package recycling
  • I. Cost reduction trends
    • 1. Reduced thickness
    • 2. Package size
    • 3. Rigid trays to semi-rigid trays
    • 4. In-house thermoforming
    • 5. Flow packaging
    • 6. Non-woven vents on lids
    • 7. Peelable heat-seal films
    • 8. Non-wovens
  • J. Catheter segment
  • K. Drapes
    • 1. Drapes
  • L. Electro-mechanical devices
    • 1. High-value electro-mechanical devices
    • 2. Commodity electro-mechanical devices
  • M. Gloves
  • N. Injection Systems
  • O. Minimally-invasive devices
  • P. Orthopedic devices
  • Q. Other (includes kits)
  • R. Sutures
  • S. Tubing
  • T. Wound care
  • U. In-hospital packaging
    • 1. Sterilization wraps
    • 2. Sterilization cases
    • 3. Pouches and bags
    • 4. Sterilization methods
  • V. Summary

Section IV:

Market Trends and Projections

  • A. Global healthcare industry
    • 1. Global healthcare spending
    • 2. Population and GDP factors
    • 3. Healthcare and GDP considerations
    • 4. Sources of healthcare spending
    • 5. Disparity of healthcare spending
    • 6. Demographics and healthcare spending
    • 7. Summary
  • B. Medical device drivers and trends
    • 1. Global medical device revenue
    • 2. Device export activity
    • 3. Demographics
    • 4. Competing drug delivery methods
    • 5. Medical tourism
    • 6. Disposable versus reusable devices
  • C. Packaging drivers and trends
    • 1. Medical device demand
    • 2. Export activity
    • 3. Sterilization method
    • 4. Types of users
    • 5. Packaging automation
    • 6. Rigid versus flexible
    • 7. Downgauging
    • 8. Non-woven versus paper (porous packaging)
    • 9. Patch film rollstock
    • 10. Direct seal films
    • 11. Barrier packaging
    • 12. Custom kits
    • 13. Insert packaging
    • 14. Clean room package production
    • 15. Qualification process
    • 16. Security
    • 17. Printing and labeling
    • 18. Globalization and ISO standardization
  • D. Primary packaging volume segmented by end-use
    • 1. Catheters
    • 2. Drapes
    • 3. Electro-mechanical devices
    • 4. Gloves
    • 5. Injection systems
    • 6. Minimally-invasive devices
    • 7. Orthopedic devices
    • 8. Sutures
    • 9. Tubing
    • 10. Wound care
    • 11. Other (kits)
    • 12. In-hospital
    • 13. Summary
  • E. Primary packaging value segmented by end-use
    • 1. Primary packaging value segmented by end-use
  • F. Primary packaging purchases
    • 1. Catheters
    • 2. Drapes
    • 3. Electro-mechanical devices
    • 4. Gloves
    • 5. Injections systems
    • 6. Minimally-invasive devices
    • 7. Orthopedic devices
    • 8. Sutures
    • 9. Tubing
    • 10. Wound care
    • 11. Other and kits
    • 12. In-hospital
    • 13. Summary
  • G. Primary packaging volume segmented by package type
    • 1. Pouches and bags
    • 2. Header bags
    • 3. Lidding
    • 4. Bottom web
    • 5. Rigid trays
    • 6. Other
  • H. Primary packaging value segmented by package type
    • 1. Pouches and bags
    • 2. Header bags
    • 3. Lidding
    • 4. Bottom webs
    • 5. Rigid trays
  • I. Primary packaging volume segmented by material type
    • 1. Paper
    • 2. Non-woven
    • 3. Polymer
    • 4. High-barrier
    • 5. Other
    • J. Primary packaging value segmented by material type
    • 1. Polymer
    • 2. High-barrier
    • 3. Non-woven
    • 4. Paper
  • K. Primary packaging volume segmented by geographic region
    • 1. Europe
    • 2. North America
    • 3. Japan
    • 4. China
    • 5. Asia
    • 6. ROW
  • L. Medical device volume segmented by sterilization method
    • 1. EtO
    • 2. Gamma
    • 3. Electron beam
    • 4. Heat
    • 5. Other
  • M. Medical device volume segmented by level of automation
    • 1. Manual and semi-automated
    • 2. Automated
  • N. Insert, secondary, and tertiary packaging volume and value
    • 1. Insert packaging volume by material type
    • 2. Insert packaging value by material type
    • 3. Secondary packaging volume by package type
    • 4. Secondary packaging value by package type
    • 5. Tertiary packaging volume segmented by package type
    • 6. Tertiary packaging value by package type

Section V:

Packaging Producer Profiles

Section VI:

Paper/Nonwoven Supplier Profiles

Section VII:

Equipment Supplier Profiles

Section VIII:

Glossary

Figures: 20

Tables: 58

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