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市場調查報告書

醫院的醫療設備連接性的全球市場預測:2022年

Global Hospital-based Medical Device Connectivity Market, Forecast to 2022

出版商 Frost & Sullivan 商品編碼 637916
出版日期 內容資訊 英文 116 Pages
商品交期: 最快1-2個工作天內
價格
醫院的醫療設備連接性的全球市場預測:2022年 Global Hospital-based Medical Device Connectivity Market, Forecast to 2022
出版日期: 2018年04月27日內容資訊: 英文 116 Pages
簡介

本報告提供醫院的醫療設備連接性市場相關調查,主要市場趨勢與產業動態,未來的醫療設備連接性解決方案的可能性,市場現狀及成長預測,主要的市場區隔,主要打入市場企業與提供解決方案、產品功能、技術規格,市場成長的推動因素、抑制因素、成長機會,對醫療保健相關利益者、供應商而言重要的經營模式等系統性資訊。

第1章 摘要整理

第2章 簡介

第3章 市場背景

  • 市場背景
  • 市場區隔
  • 主要的市場區隔:各解決方案
  • 構築醫療設備連接性的手法
  • 臨床工作流程概要:電子文檔
  • 醫療設備出境(外撥)通訊
  • 醫療設備連接性:工作流程模式
  • 臨床工作流程概要:連網型設備形勢
  • 重病患者設備連接性的需求高漲
  • 連接性期望的主要的醫療設備分析
  • 連接性期望的主要的醫療設備的摘要

第4章 促進成長的動態:主要的市場趨勢

  • 主要8趨勢的對市場的影響:醫院的醫療設備連接性的有潛力市場機會
  • 主要的市場趨勢:醫院的醫療設備連接性
  • 主要的市場趨勢:說明
  • 設備連接性影響市場的產業動態
  • EU一般資料保護規則 (EU-GDPR)
  • EU醫療設備法規 (EU-MDR)
  • 熱圖:醫院的醫療設備連接性
  • 熱圖:研究參數的討論
  • 實行、成本要素的評估
  • 市場成長的促進要素
  • 市場成長的阻礙因素

第5章 產品、解決方案藍圖

  • 作為軸展開醫院的設備連接性解決方案的新產品與服務
  • 新產品與服務

第6章 競爭環境

  • 詳細的醫療設備連接性解決方案區分
  • 詳細的供應商區分
  • 競爭市場結構
  • 主要企業的簡介、產品概要
  • M&A,聯盟的評估
  • 影響醫療設備連接性的組織

第7章 地區分析

第8章 預測、趨勢:醫院的醫療設備連接性市場全體

  • 市場工程檢測
  • 預測的前提條件、定義
  • 收益預測
  • 收益預測的討論

第9章 北美市場分析

  • 分析
  • 收益預測
  • 收益預測:各地區
  • 收益預測的討論
  • 普及率分析:美國

第10章 西歐市場分析

第11章 亞太地區市場分析

第12章 未來展望:成長機會、結論

第13章 附錄

目錄
Product Code: MBB7-48

Healthcare Digitisation and Personalised Monitoring Yields Novel Growth Opportunities for Networked Medical Devices

For the last few years, healthcare providers globally have been focusing on implementing Electronic Medical Record (EMR) systems and fine-tuning workflow and functionalities to best suit end-user needs. In many countries, the implementation of EMRs has seen high adoption and has been quite successful. It is widely accepted that there can be many potential improvements in the care delivery process and patient safety through the effective use of an EMR. It is not the time for the industry to be complacent. Hospitals are tasked with the need to do more with less, while also keeping pace with technology and patient expectations. In many hospitals, nurses and clinical staff spend half of their working hours per shift on documentation activities, whereas they should ideally be spending most of their focus on direct patient care. What is the advantage of having expensive EMRs when providers have to note patient vitals and key parameters in some cases still on paper and manually key-in those into the electronic record? Improved care coordination also requires accurate, complete, and automated data capture. Medical device connectivity and interoperability is quickly becoming a top priority at hospitals and in healthcare settings because of the numerous benefits it offers across the care continuum. A well-established device connectivity strategy can help hospitals implement clinical alarms based on early warning scores, automated electronic charting, emergency alert and response systems, virtual intensive care units (ICUs), continuous patient surveillance and remote patient monitoring, medical device asset management, and real-time location solutions.

The high-acuity care environment is dynamically changing globally, especially with regard to operating rooms, intensive care units and their workforce. The growing shortfall of intensive care workforce is challenging the ability of hospitals to care for critically ill patients. There is a growing need for intensivists and trained nursing staff to care for critically ill patients in acute care settings. In many countries, a shortfall of intensivists poses a real challenge; there is either a short supply or they are entirely absent, with workloads being shared by non-trained hospital personnel. It is quite evident that expert care from specialists can improve patient outcomes and shorten hospital stays, thereby reducing costs and minimising length of stay and readmissions. As an alternative to critical care delivery models, hospitals can leverage EMRs and medical device connectivity solutions to overcome the shortages of intensivists in the high-acuity care environment.

Medical devices compliant with the healthcare enterprise (IHE) patient care device (PCD) regulation can establish connectivity with the enterprise hospital network for sharing patient-generated data. A centralised patient surveillance platform offering end-to-end medical device connectivity acquiring patient data in real time, intelligent clinical alarm systems with advanced analytics, a clinical-decision support system (CDSS) and a virtual ICU solution can address the challenges in the intensive care environment. Bi-directional communication between connected medical devices and clinical information systems (CIS), particularly for smart infusion pumps programming and multi-parameter patient monitoring has proven to prevent adverse events in the high-acuity care environment. A well-integrated system with a centralised clinical dashboard with real-time insights on patients can help intensivists by prioritising patients that require higher levels of care.

Research Highlights

Frost & Sullivan's new research report on the Global Hospital-based Medical Device Connectivity Solutions Market, Forecast to 2022 provides a comprehensive analysis on the global medical device interoperability market with a competitive landscape covering clinical information technology (IT) systems vendors, medical device original equipment manufacturers (OEMs), vendor-agnostic third-party medical device data systems (MDDS) vendors, and healthcare system integrators. Please reach out to us to know more about medical device interoperability solutions and numerous methods to establish connectivity of your medical devices with the hospital network regardless of device types.

Presented Segmentation:

  • Clinical IT Systems Vendors
  • Medical Device OEMs
  • Vendor-Agnostic Connectivity Vendors
  • Healthcare System Integrators

Key Issues Addressed:

  • What are the key market trends and industry dynamics in the medical device connectivity market? What is the future potential for medical device connectivity solutions?
  • What is the current market scenario? How much growth is expected? Which are the major market segments? What will be the impact of external trends on each business segment?
  • Who are the major participants in the global market for medical device connectivity? What are their solution offerings, product features and technical specifications?
  • What is driving the market? What are the restraints impacting growth opportunities for medical device connectivity in the global market?
  • What are the important business model considerations for healthcare stakeholders and providers? Are there any unmet customer needs? Is there an untapped opportunity in this market?
  • Are the connectivity solution offered by solution vendors today meeting end-user needs? Does it require additional enhancements to address critical business needs?

Table of Contents

1. EXECUTIVE SUMMARY

  • Key Findings-Study Highlights
  • Medical Device Connectivity-Trends Analysis
  • Connected Devices-Real-World Integration Benefits
  • Key Findings-Geographic Outlook
  • Study Scope and Segmentation
  • Key Questions this Study will Answer
  • Market Engineering Measurements
  • Key Findings-Hospital-based Medical Device Connectivity
  • Key Findings
  • Key Findings (continued)
  • Key Findings (continued)
  • Key Findings (continued)
  • Key Companies to Watch
  • CEO's Perspective
  • Five Growth Opportunities Critical for Future Success
  • Futuristic Roadmap-Medical Device Connectivity
  • Top Predictions-Hospital-based Medical Device Connectivity

2. INTRODUCTION

  • Medical Device Connectivity-Introduction
  • Introduction to IHE-Patient Care Devices (PCD)
  • IHE Patient Care Devices Profiles
  • Categories of Medical Devices and its Purposes
  • Device Connectivity Across the Clinical Landscape
  • Benefits of Medical Device Data Interoperability
  • Connected Healthcare Ecosystem
  • Wireless Connectivity Technologies in Medical Devices
  • Benefits of Enterprise Device Connectivity Strategy

3. MARKET BACKGROUND

  • Market Background
  • Market Segmentation
  • Key Market Segmentation by Solutions
  • Methods of Establishing Medical Device Connectivity
  • Clinical Workflow Overview-Electronic Documentation
  • Medical Devices Outbound Communication
  • Medical Device Connectivity-Workflow Model
  • Clinical Workflow Overview-Connected Devices Landscape
  • Growing Demand for High-Acuity Device Connectivity
  • Analysis on Key Medical Devices Desired for Connectivity
  • Summary of Key Medical Devices Desired for Connectivity

4. DYNAMICS CATALYSING GROWTH-KEY MARKET TRENDS

  • Market Impact of Top 8 Trends-Promising Market Opportunities in Hospital Device Connectivity
  • Key Market Trends-Hospital Device Connectivity (Top 8)
  • Key Market Trends-Explained
  • Industry Dynamics Impacting Device Connectivity Market
  • EU-General Data Protection Regulation (EU-GDPR)
  • EU-General Data Protection Regulation (EU-GDPR) (continued)
  • European Union-Medical Device Regulation (EU-MDR)
  • European Union-Medical Device Regulation (EU-MDR) (continued)
  • Heat Map-Hospital-based Medical Device Connectivity
  • Heat Map-Research Parameters Discussion
  • Implementation and Cost Factors Assessments
  • Market Drivers
  • Market Restraints

5. PRODUCTS AND SOLUTIONS ROADMAP

  • Evolving Products and Services Centred Around Hospital Device Connectivity Solution
  • Evolving Products and Services Centred Around Hospital Device Connectivity Solution-Description
  • Evolving Products and Services
  • Evolving Products and Services (continued)

6. COMPETITIVE ENVIRONMENT

  • Detailed Medical Device Connectivity Solution Segmentation
  • Detailed Vendors Segmentation
  • Competitive Market Structure
  • Key Company Profiling and Product Overview
  • Key Company Profiling and Product Overview (continued)
  • Key Company Profiling and Product Overview (continued)
  • Merger, Acquisition and Partnership Assessment
  • Merger, Acquisition and Partnership Assessment (continued)
  • Merger, Acquisition and Partnership Assessment (continued)
  • Organisations Influencing Medical Device Connectivity
  • Organisations Advancing Medical Device Connectivity

7. GEOGRAPHIC ANALYSIS

  • Global Trends, Regulatory Mandates and Key Initiatives

8. FORECAST AND TRENDS-TOTAL HOSPITAL-BASED MEDICAL DEVICE CONNECTIVITY MARKET

  • Market Engineering Measurements
  • Forecast Assumptions and Definitions
  • Revenue Forecast
  • Revenue Forecast Discussion

9. NORTH AMERICA BREAKDOWN

  • North America Breakdown
  • Revenue Forecast-North America
  • Revenue Forecast by Region-North America
  • Revenue Forecast Discussion
  • Penetration Analysis-The United States

10. WESTERN EUROPE BREAKDOWN

  • Western Europe Breakdown
  • Revenue Forecast-Western Europe
  • Revenue Forecast by Region-Western Europe
  • Revenue Forecast Discussion
  • Revenue Forecast Discussion (continued)
  • Penetration Analysis-Hospital Device Connectivity: Europe

11. ASIA-PACIFIC BREAKDOWN

  • Asia-Pacific Breakdown
  • Revenue Forecast-APAC
  • Revenue Forecast by Region-APAC
  • Revenue Forecast Discussion
  • Penetration Analysis-Hospital Device Connectivity: APAC

12. FUTURE PERSPECTIVES-GROWTH OPPORTUNITIESAND CONCLUSIONS

  • Strategic Business Imperatives for Hospital-based Medical Device Connectivity Solutions Vendors
  • Legal Disclaimer

13. APPENDIX

  • Market Engineering Methodology
  • List of Acronyms Used
  • List of Exhibits
  • List of Exhibits (continued)
  • List of Exhibits (continued)