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市場調查報告書

醫療中未來的穿戴裝置 - R&D組合及技術發展藍圖

Future Wearables in Healthcare - R&D Portfolio Areas and Technology Roadmapping

出版商 Frost & Sullivan 商品編碼 577633
出版日期 內容資訊 英文 52 Pages
商品交期: 最快1-2個工作天內
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醫療中未來的穿戴裝置 - R&D組合及技術發展藍圖 Future Wearables in Healthcare - R&D Portfolio Areas and Technology Roadmapping
出版日期: 2017年09月29日 內容資訊: 英文 52 Pages
簡介

醫療中的穿戴式技術預計今後數年有成長機會,其原因是健康維持的穿戴式終端的普及,及個人、患者的現在和未來的健康狀態相關資料的需求擴大。

本報告提供醫療的穿戴裝置的主要的技術和主要市場,需求,機會,課題等。

第1章 摘要整理

  • 調查的範圍
  • 調查手法
  • 主要調查結果

第2章 技術的展望 - 主要R&D組合的評估

  • 非侵入性舒適的自訂監測為調查的主要焦點
  • 改善患者照護的虛擬實境和智慧眼鏡
  • 心律追蹤用電子皮膚
  • 中風發作者用的外骨骼智慧手套
  • 非侵入型健康監視用的穿戴式汗感測器
  • 測量人體震動的穿戴式聽診器
  • 測量血糖值的手腕安裝型葡萄糖及乳酸追蹤器
  • 高度氣喘監測用貼片
  • 持續心電圖檢測的穿戴裝置
  • 壓迫療法的智慧繃帶
  • 智慧服裝的石墨烯感測器
  • 腦治療用的光生物調節作用技術
  • 法定盲人用的創新眼鏡
  • 全身掃描用的創新的穿戴裝置

第3章 環境分析:醫療用穿戴裝置的引進評估 - 促進要素與課題

  • 高齡化提高健康追蹤機的需求
  • 由於感應技術的發展而可行的臨床品質資料
  • 醫療中的穿戴裝置的迅速普及阻礙資料儲存容量和資料整合
  • 穿戴裝置的電池壽命短導致用戶的不便
  • 嚴格法規政策阻礙長期性穿戴裝置的廣幅引進
  • 用戶資料的保護是消費者最大的考慮點
  • 監測的複雜性和醫療專家與消費者之間有效的合作
  • 感測器的正確性改善與有效的疾病管理的開發
  • 慢性病的特定和負擔能力

第4章 產業的最佳業務實踐 - 夥伴關係/聯盟的評估

  • 實現追蹤老年人的健康狀態
  • 臨床試驗的穿戴式終端的標準
  • 帕金森氏症的診斷及治療改善的遠程監控
  • 為醫療變革的巨量資料有效利用
  • 醫療設備間的連接性和互通性的改善
  • 慢性病標誌的服裝式穿戴設備
  • 神經調節患者的數位健康解決方案

第5章 研發產品線,策略分析,技術引進的評估

  • 醫療中的穿戴裝置的成長機會
  • 技術引進評估
  • 彈性,資料的管理和正確性決定穿戴裝置的可用性
  • 老年人的疾病追蹤應優先
  • 為了提供重要的醫療,對開發中國家的焦點
  • 醫療用穿戴裝置的技術藍圖(2017∼2022年)

第6章 聯繫處

  • 主要的聯繫處
  • 法律上的免責聲明
目錄
Product Code: D7EB

Expanding Opportunities for Wearable Devices in Diagnostics

Wearable technologies in healthcare are expected to have key growth opportunities in the next few years driven by factors such as the proliferation of wearables for health and wellness and the need for more data about the current and future condition of individuals and patients. This technology and innovation report provides analysis of key technology innovations and identifies key healthcare wearable device developers in diverse areas such as electronic skin, smart gloves, glucose sweat sensors, wearable stethoscopes, asthma monitoring patches, smart bandages electrocardiogram monitoring, smart clothing. The study also assesses key markets, needs, opportunities, and challenges for healthcare wearable devices.

This research aims at providing:

  • A brief snapshot and analysis of R&D opportunities in the domain of healthcare wearables
  • Key innovations based on the opportunities which drive the development of wearables in healthcare sector
  • Key Drivers for the adoption of wearables in healthcare
  • Key Technology Challenges hindering the adoption of wearables in healthcare.
  • Emerging Market Needs
  • Technology Roadmap
  • Strategic insights about market and emerging trends

Table of Contents

1.0. Executive Summary

  • 1.1. Research Scope
  • 1.2. Research Methodology
  • 1.3. Research Methodology Explained
  • 1.4. Key Research Findings

2.0. Technology Landscape - Assessment of Key R&D Portfolio Areas

  • 2.1. Non-invasive, Comfort and Personalized Monitoring are the Key Focus of Research
  • 2.2. Virtual Reality (VR) and Smart Glasses for Improved Patient Care
  • 2.3. Electronic Skin for Tracking Heart Rate
  • 2.4. Exoskeletal Smart Glove for Stroke Victims
  • 2.5. Wearable Sweat Sensors for Non-invasive Health Monitoring
  • 2.6. Wearable Stethoscope to Measure Vibrations in Human Body
  • 2.7. Wrist-worn Glucose and Lactic Acid Trackers for Tracking Blood Sugar
  • 2.8. Patch for Intelligent Asthma Monitoring
  • 2.9. Wearable for Monitoring Continuous Medical Electrotrocardiogram
  • 2.10. Smart Bandage for Compression Therapy
  • 2.11. Graphene Sensors in Smart Clothing
  • 2.12. Brain Photobiomodulation Technology for Brain Therapy
  • 2.13. Innovative Eyewear for the Legally Blind
  • 2.14. Innovative Wearable for Full Body Scanning

3.0. Environmental Analysis: Assessment of Adoption of Healthcare Wearables - Drivers and Challenges

  • 3.1. Aging Population Driving Demand for Fitness Trackers
  • 3.2. Advancements in Sensor Technology Enabling Clinical Quality Data
  • 3.3. Data Storage Capacity and Data Integration Hindering Rapid Proliferation of Wearables in Healthcare Industry
  • 3.4. Low Battery Life-Span of Wearables Leading to User Inconvenience
  • 3.5. Strict Regulatory Policies Could Hinder Wide-Scale Adoption of Wearables in Long Term
  • 3.6. Protection of User Data a Key Concern for Consumers
  • 3.7. Monitoring Complexity and Effective Collaboration between Healthcare Professionals and Consumers
  • 3.8. Improvements in Sensing Accuracy and Developments in Effective Disease Management
  • 3.9. Chronic Disease Identification and Affordability

4.0. Industry Best Practices -- Assessment of Partnerships/Alliances

  • 4.1. Enabling Seniors to Track Wellness and Fitness
  • 4.2. Wearable Device Standards in Clinical Trials
  • 4.3. Remote Monitoring for Improved Diagnosis and Treatment of Parkinson's Disease
  • 4.4. Leveraging Big Data to Transform Healthcare
  • 4.5. Improving Connectivity and Interoperability among Healthcare Devices
  • 4.6. Fabric-based Wearable as Indicators for Chronic Disease
  • 4.7. Digital Health Solutions for Neuromodulation Patients

5.0. R&D Pipeline, Strategic Analysis, and Technology Adoption Assessment

  • 5.1. Key Growth Opportunities for Wearables in Healthcare
  • 5.2. Technology Adoption Assessment
  • 5.3. Flexibility, Data Management and Accuracy will Determine the Usability of the Wearable
  • 5.4. Disease Tracking for Aged People must be Prioritized
  • 5.5. Focus on Developing Nations for Providing Vital Healthcare
  • 5.6. Technology Roadmap for Healthcare Wearables, 2017-2022

6.0. Industry Contacts

  • 6.1. Key Contacts
  • Legal Disclaimer
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