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市場調查報告書

消費者的健康增進的抗菌技術

Antimicrobial Technologies for Enhanced Consumer Health

出版商 Frost & Sullivan 商品編碼 600239
出版日期 內容資訊 英文 57 Pages
商品交期: 最快1-2個工作天內
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消費者的健康增進的抗菌技術 Antimicrobial Technologies for Enhanced Consumer Health
出版日期: 2017年12月29日內容資訊: 英文 57 Pages
簡介

本報告提供增進消費者健康的抗菌技術市場調查,彙整抗菌技術類型和概要,各種用途,主要的研究趨勢·地區趨勢·專利趨勢,主要相關利益者的舉措,未來展望,成長機會分析等資料。

第1章 摘要整理

第2章 技術概要

  • 抗菌技術需求擴大與最新趨勢
  • 定義抗菌技術的關鍵能力
  • 多元化的抗菌平台:解決全球消費者健康問題
  • 引起細胞薄膜破壞的金屬離子的功能
  • 金屬離子:在各種用途廣泛利用
  • 引起細胞薄膜破壞的抗菌性聚合物
  • 聚合物抗菌劑:醫療設備部門擴大用途
  • 抗菌胜肽的雙親性:實現微生物相互作用
  • 抗菌胜肽塗料:領導人工植牙·食品包裝用途
  • 用於殺生物應用的抗微生物季銨化合物
  • 各種消毒所採用的第四級銨化合物
  • 強化雙胍·脒:抗菌功能
  • 大部分的消毒劑:由雙胍·脒構成
  • 酚類化合物和芳香醇誘導微生物細胞損傷

第3章 主要研究趨勢·地區趨勢·IP趨勢

  • 加速抗菌技術研究的全球性擴大:美國的新技術創新
  • 歐洲:抗菌平台的技術創新擴大
  • 亞太地區有可能成為新型抗菌技術的關鍵中心
  • 新的抗菌技術的專利環境
  • 北美:領導全球抗菌技術的IP環境
  • 主要IP趨勢:摘要
  • 主要專利保持者分析

第4章 相關利益者的舉措:概要

  • 醫療器械和植入物構成了一些關鍵的利益相關者舉措
  • 消毒劑和抗菌塗料主導消費者的健康景觀
  • 用於醫院,沙龍和泳池衛生的抗菌製劑
  • PHMB為基礎的抗菌劑鉛敷料和膠粘劑應用

第5章 未來展望

  • 對抗菌技術研究的持續關心
  • 近幾年的抗菌技術研究範例
  • 技術重新定義全球抗菌平台的未來

第6章 成長機會·企業與措施

  • 成長機會:抗菌平台的組合
  • 成長機會:抗菌胜肽
  • 成長機會:天然抗菌劑
  • 成功·成長的策略性必要條件
  • 企業與措施:Allvivo Vascular Inc., (美國)
  • 企業與措施:Pertinax Pharma Limited, (英國)
  • 企業與措施:Chamgonano (中國)

第7章 附錄

目錄
Product Code: D80D

Novel Microbicidal Platforms Likely to Transform the Future of Global Consumer Health

Healthcare-associated infection (HAI) continues to be a significant global concern, hence there is growing research for developing new antimicrobial platforms that can significantly decrease the risk of microbial infections. While metallic ions continue to be one of the most potent antimicrobial technology platform, several new innovations across antimicrobial polymers, peptides and naturally sourced agents will lead the global consumer health landscape.Key opportunities for antimicrobial technologies will depend on the use of optimal combination of multiple microbicidal platforms for several consumer health applications.

Table of Contents

1.0. Executive Summary

  • 1.1. Research Scope - Antimicrobial Technologies Transforming Consumer Health
  • 1.2. Research Methodology - The Frost & Sullivan Core Value
  • 1.3. Key Findings - Antimicrobial Technologies Ideally Poised to Transform Consumer Health

2.0. Technology Overview

  • 2.1. Rising Needs and Emerging Trends Across Antimicrobial Technologies
  • 2.2. Key Capabilities Defining Antimicrobial Technologies
  • 2.3. Diverse Antimicrobial Platforms Address Global Consumer Health Concerns
  • 2.4. Metallic Ions Function by Inducing Cell Membrane Disruption
  • 2.5. Metallic Ions Continue to be Widely Leverage for Diverse Antimicrobial Applications
  • 2.6. Antimicrobial Polymers Cause Cell Membrane Disruption
  • 2.7. Polymeric Antimicrobials Have Growing Applications Across Medical Devices
  • 2.8. Amphipathic Nature of Antimicrobial Peptides Enable Microbial Interaction
  • 2.9. Antimicrobial Peptide Coatings Lead Dental Implants and Food Packaging Applications
  • 2.10. Antimicrobial Quaternary Ammonium Compounds for Biocidal Applications
  • 2.11. Quaternary Ammonium Compounds Frequently Used for Varied Sanitizing Applications
  • 2.12. Biguanides and Amidines Enable Enhanced Antimicrobial Functions
  • 2.13. Most Antiseptic Formulations Comprise Biguanides and Amidines
  • 2.14. Phenolic Compounds and Aromatic Alcohols Induce Cytological Damage in Microorganisms
  • 2.15. Consumer Disinfectants Leverage Antimicrobial Functions of Phenol and Derivatives
  • 2.16. Growing Need for Environmental-friendly Products Fueling Growth of Natural Antimicrobials
  • 2.17. Rising Preference of Natural Antimicrobials as Food Preservatives
  • 2.18. Combination of Multiple Antimicrobial Ingredients Likely to Drive Future Innovations
  • 2.19. Metallic Polymers Emerge as Potent Antimicrobial Agents

3.0. Key Research, Regional, and IP Trends

  • 3.1. Rising Global Research on Antimicrobial Technologies Likely to Fuel New Innovations in the US
  • 3.2. Europe to Witness Increasing Innovations in Antimicrobial Platforms
  • 3.3. Asia Pacific Likely to Emerge as a Key Hub for New Antimicrobial Technologies
  • 3.4. Mining the Global Patent Landscape for Novel Antimicrobial Technologies
  • 3.5. North America Leads the Global IP Landscape for Antimicrobial Technologies
  • 3.6. Summary of Key IP Trends
  • 3.7. Analysis of Antimicrobial Applications of Leading Patent Holders

4.0. Overview of Stakeholder Initiatives

  • 4.1. Medical Devices and Implants Constitute Some of the Key Stakeholder Initiatives
  • 4.2. Disinfectants and Antimicrobial Coatings Dominate the Consumer Health Landscape
  • 4.3. Antimicrobial Formulations for Enabling Hospital, Salon, and Pool Hygiene
  • 4.4. PHMB-based Antimicrobials Lead Wound Dressing and Adhesive Applications

5.0. Future Perspectives

  • 5.1. Sustained Interest in Antimicrobial Technology Research
  • 5.2. Examples of Recent Research Across Antimicrobial Technologies
  • 5.3. Technologies Redefining the Future of Global Antimicrobial Platforms

6.0. Growth Opportunities and Companies to Action

  • 6.1. Growth Opportunities - Combining Antimicrobial Platforms
  • 6.2. Growth Opportunities - Antimicrobial Peptides
  • 6.3. Growth Opportunities - Natural Antimicrobials
  • 6.4. Strategic Imperatives for Success and Growth
  • 6.5. Companies to Action - Allvivo Vascular Inc., US
  • 6.6. Companies to Action - Pertinax Pharma Limited, UK
  • 6.7. Companies to Action - Chamgonano, China

7.0. Appendix

  • 7.1. Summary of Key Contacts
  • 7.1. Summary of Key Contacts (continued)
  • Legal Disclaimer
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