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數位醫院:COVID-19在大流行期間/大流行之後為患者護理創造增長機會

Digital Hospitals: Creating Growth Opportunities in Patient Care during the COVID-19 Pandemic and Beyond

出版商 Frost & Sullivan 商品編碼 966177
出版日期 內容資訊 英文 83 Pages
商品交期: 最快1-2個工作天內
價格
數位醫院:COVID-19在大流行期間/大流行之後為患者護理創造增長機會 Digital Hospitals: Creating Growth Opportunities in Patient Care during the COVID-19 Pandemic and Beyond
出版日期: 2020年11月29日內容資訊: 英文 83 Pages
簡介

世界各地爆發的COVID-19疫情使大量患者湧入醫院。為了解決這些問題,數位醫院正在部署可提供高水平護理的智能技術,例如人工智能和機器人技術,同時為醫療專業人員提供無憂的體驗。

本報告調查和分析了數位醫院中實施的智能技術的創新,並系統地提供了有關智能成像系統,遠程病人監護平台,醫療機器人等的影響和收益的信息。

目錄

第1章執行摘要

第2章行業概述

  • 傳統醫院專注於提供集中式護理,響應式方法,封閉式系統和服務定價模型
  • COVID-19增加了醫院面臨的挑戰
  • 數位醫院:通過分散式護理,可互操作的系統以及以績效為導向的預防方法來解決傳統醫療服務提供者的局限性
  • 按使用智能技術改善醫院的患者旅程
  • 虛擬助理預約計劃平台,為患者帶來無憂的院前體驗
  • 改善住院患者體驗的技術
  • 可以對患者進行術後監測和後續護理的技術
  • 通過優化能源效率和部署技術來改善資產追蹤和庫存管理
  • 數位醫院生態系統包含用於患者/非患者護理的技術

第3章醫療機器人

  • 醫療機器人可提高醫療專業人員的效率和為患者提供的護理質量
  • 通過機器人輔助的靜脈穿刺和運輸醫院用品減少臨床醫生的工作量
  • 通過醫療機器人促進患者護理和康復過程
  • 用於醫療運輸和消毒服務的醫療機器人案例研究
  • 用於遠程篩查患者的醫療機器人案例研究
  • 用於遠程監控和康復服務的醫療機器人的案例研究
  • 評估醫療機器人的全球採用率
  • 用於對病人房間進行消毒的自主機器人
  • 用於遠程篩查患者的機器人解決方案
  • 遠程呈現機器人,用於遠程監控患者

第4章遠程患者監視平台

  • 醫院和家庭環境中的自動化患者監控平台,可實現最佳患者管理
  • 遠程患者監控系統可最大程度地減少醫院再入院並降低醫療保健提供者的總醫療費用
  • 遠程患者監控系統可提高患者護理質量並增強自主性
  • 遠程患者監控平台預防患者不良事件的案例研究
  • 遠程患者監控平台以減輕醫務人員工作量的案例研究
  • 遠程患者監測平台的案例研究,用於檢測住院和出院的COVID-19患者的臨床症狀加重
  • 評估全球遠程患者監控平台的採用
  • 遠程監控系統,用於跟蹤患者和醫療專業人員的重要生理參數
  • 用於醫院和其他臨床環境的非接觸式患者監護平台
  • 用於連續監測醫院和出院後家庭環境中患者生命力的生物傳感器貼片

第5章智能成像系統

  • 智能成像系統,可快速準確地診斷患者
  • 智能成像系統,可提高臨床醫生的工作效率並預測患者的疾病發生
  • 智能成像平台,有助於準確診斷和圖像重建
  • 用於診斷的COVID-19智能成像系統案例研究
  • 用於檢測乳腺癌和腦出血的智能成像系統的案例研究
  • 用於卒中和COVID-19診斷的智能成像系統的案例研究
  • 評估全球智能成像系統的採用
  • 配備AI的平台可檢測心肌梗塞
  • 配備AI的平台可預測中風
  • 基於AI的平台可準確,快速地檢測肺癌

第6章採用技術

  • 世界熱點和新興地區
  • 北美:美國的醫院採用智能技術的比例最高
  • 歐洲:英國醫院一直處於採用智能技術的最前沿
  • 亞太地區:中國醫院支持政府促進智能技術的使用
  • 中東/非洲:以色列醫院利用國家數位技術生態系統來使用智能技術

第7章數位醫院的新興技術

  • 數位醫院的新興技術

第8章增長機會

  • 增長機會1:智能患者跟蹤系統
  • 增長機會2:使用電子病歷
  • 增長機會3:使用AI進行供應鏈管理
  • 增長機會4:集中指揮中心

第9章分析師的考慮

第10章主要聯繫信息

第11章附錄

目錄
Product Code: D9AD

Reinventing Patient Care Delivery Through Intelligent Imaging Systems, Medical Robots, and Remote Patient Monitoring Platforms

The widespread outbreak of COVID-19 across the world has overburdened hospitals with a huge influx of patients. Traditional hospitals that rely on manual and analog methods have been unable to handle the huge patient load with limited resources and this has severely impacted the ability of hospitals to provide quality care to patients. To address these issues, digital hospitals have deployed smart technologies, such as artificial intelligence and robotics that provide higher standard of care and at the same time offer a hassle-free experience for health professionals. Digital hospitals are a symphony of different smart technologies that work in tandem in order to provide improved patient health outcomes and higher operational efficiencies.

This research service highlights the innovations in smart technologies being implemented in digital hospitals including intelligent imaging systems, remote patient monitoring platforms, and medical robots. The research service discusses the impact of these innovations and the benefits offered by them to health professionals and patients.

Table of Contents

1.0: EXECUTIVE SUMMARY

  • 1.1. SCOPE OF THE RESEARCH
  • 1.2 RESEARCH METHODOLOGY

2.0: INDUSTRY OVERVIEW

  • 2.1. TRADITIONAL HOSPITALS ARE FOCUSED ON CENTRALIZED CARE DELIVERY, REACTIVE APPROACH, CLOSED SYSTEMS AND FEE-FOR-SERVICE MODEL
  • 2.2. COVID-19 HAS INCREASED THE CHALLENGES FACED BY HOSPITALS
  • 2.3. DIGITAL HOSPITALS: ADDRESSING LIMITATIONS OF TRADITIONAL PROVIDERS THROUGH DECENTRALIZED CARE, INTEROPERABLE SYSTEMS, OUTCOME-DRIVEN AND PROACTIVE APPROACHES
  • 2.4. IMPROVING PATIENT JOURNEY IN THE HOSPITAL THROUGH USE OF SMART TECHNOLOGIES
  • 2.5. VIRTUAL ASSISTANT AND APPOINTMENT SCHEDULING PLATFORMS FOR HASSLE-FREE PRE-HOSPITALIZATION EXPERIENCE FOR THE PATIENTS
  • 2.6. TECHNOLOGIES FOR ENHANCING PATIENTS' EXPERIENCE DURING HOSPITALIZATION
  • 2.7. TECHNOLOGIES ENABLING POST-OPERATIVE MONITORING AND FOLLOW-UP CARE FOR THE PATIENTS
  • 2.8. OPTIMIZING ENERGY EFFICIENCY, IMPROVING ASSET TRACKING AND INVENTORY MANAGEMENT THROUGH DEPLOYMENT OF TECHNOLOGIES
  • 2.9. DIGITAL HOSPITAL ECOSYSTEM COMPRISES OF TECHNOLOGIES USED IN PATIENT AND NON-PATIENT CARE

3.0: MEDICAL ROBOTS

  • 3.1. MEDICAL ROBOTS FOR IMPROVING HEALTH PROFESSIONALS' EFFICIENCY AND QUALITY OF CARE PROVIDED TO PATIENTS
  • 3.2. REDUCING CLINICIANS' WORKLOAD THROUGH ROBOT-ASSISTED VENIPUNCTURE AND HOSPITAL SUPPLIES TRANSPORTATION
  • 3.3. FACILITATING ELDERLY CARE AND REHABILITATION PROCESS FOR PATIENTS THROUGH MEDICAL ROBOTS
  • 3.4. MEDICAL ROBOTS CASE STUDIES FOR MEDICAL TRANSPORTATION AND DISINFECTION SERVICES
  • 3.5. MEDICAL ROBOTS CASE STUDIES FOR REMOTE SCREENING OF PATIENTS
  • 3.6. MEDICAL ROBOTS CASE STUDIES FOR REMOTE MONITORING AND REHABILITATION SERVICES
  • 3.7. ASSESSMENT OF ADOPTION OF MEDICAL ROBOTS GLOBALLY
  • 3.8. AUTONOMOUS ROBOT FOR DISINFECTING PATIENT ROOMS
  • 3.9. ROBOTIC SOLUTION FOR REMOTE SCREENING OF PATIENTS IN HOSPITALS
  • 3.10. TELEPRESENCE ROBOT FOR REMOTELY MONITORING PATIENTS

4.0: REMOTE PATIENT MONITORING PLATFORMS

  • 4.1. AUTOMATED PATIENT MONITORING PLATFORMS IN HOSPITAL AND HOME SETTINGS FOR BETTER PATIENT MANAGEMENT
  • 4.2. MINIMIZING HOSPITAL READMISSIONS AND DECREASING TOTAL COST OF CARE FOR THE HEALTHCARE PROVIDERS THROUGH REMOTE PATIENT MONITORING SYSTEMS
  • 4.3. REMOTE PATIENT MONITORING SYSTEMS ENABLING IMPROVED QUALITY OF CARE AND ENHANCED AUTONOMY FOR THE PATIENTS
  • 4.4. REMOTE PATIENT MONITORING PLATFORMS CASE STUDIES FOR PREVENTING ADVERSE EVENTS IN THE PATIENTS
  • 4.5. REMOTE PATIENT MONITORING PLATFORMS CASE STUDIES FOR REDUCING HEALTHCARE STAFF WORKLOAD
  • 4.6. REMOTE PATIENT MONITORING PLATFORMS CASE STUDIES FOR DETECTING CLINICAL DETERIORATION IN HOSPITALIZED AND DISCHARGED COVID-19 PATIENTS
  • 4.7. ASSESSMENT OF ADOPTION OF REMOTE PATIENT MONITORING PLATFORMS GLOBALLY
  • 4.8. REMOTE MONITORING SYSTEM FOR TRACKING VITAL PHYSIOLOGIC PARAMETERS OF PATIENTS AND HEALTH PROFESSIONALS
  • 4.9. CONTACT-FREE PATIENT MONITORING PLATFORM FOR USE IN HOSPITALS AND OTHER CLINICAL SETTINGS
  • 4.10. BIOSENSOR PATCH FOR CONTINUOUS MONITORING OF PATIENTS' VITALS IN HOSPITAL AND POST-DISCHARGE HOME SETTINGS

5.0: INTELLIGENT IMAGING SYSTEMS

  • 5.1 INTELLIGENT IMAGING SYSTEMS ENABLING RAPID AND ACCURATE DIAGNOSIS IN THE PATIENTS
  • 5.2 INTELLIGENT IMAGING SYSTEMS ENHANCING CLINICIANS PRODUCTIVITY AND PREDICTING DISEASE OCCURRENCE IN THE PATIENTS
  • 5.3 INTELLIGENT IMAGING PLATFORMS FACILITATING ACCURATE DIAGNOSIS AND IMAGE RECONSTRUCTION
  • 5.4 INTELLIGENT IMAGING SYSTEMS CASE STUDIES FOR COVID-19 DIAGNOSIS
  • 5.5 INTELLIGENT IMAGING SYSTEMS CASE STUDIES FOR BREAST CANCER AND BRAIN HEMORRHAGE DETECTION
  • 5.6 INTELLIGENT IMAGING SYSTEMS CASE STUDIES FOR STROKE AND COVID-19 DIAGNOSIS
  • 5.7 ASSESSMENT OF ADOPTION OF INTELLIGENT IMAGING SYSTEMS GLOBALLY
  • 5.8 AI-POWERED PLATFORM FOR DETECTING MYOCARDIAL INFARCTION
  • 5.9 AI-POWERED PLATFORM FOR PREDICTING STROKES
  • 5.10 AI-BASED PLATFORM FOR PRECISE AND FAST DETECTION OF LUNG CANCER

6.0: TECHNOLOGY ADOPTION

  • 6.1. GLOBAL HOT SPOTS AND EMERGING GEOGRAPHIES
  • 6.2. NORTH AMERICA: HOSPITALS IN THE US HAVE THE HIGHEST ADOPTION OF SMART TECHNOLOGIES
  • 6.3. EUROPE: HOSPITALS IN UK HAVE BEEN AT THE FOREFRONT FOR ADOPTING SMART TECHNOLOGIES
  • 6.4. ASIA PACIFIC: GOVERNMENT SUPPORT DRIVING USE OF SMART TECHNOLOGIES IN HOSPITALS IN CHINA
  • 6.5v MIDDLE EAST AND AFRICA: HOSPITALS IN ISRAEL LEVERAGING THE COUNTRY'S DIGITAL TECH ECOSYSTEM FOR USING SMART TECHNOLOGIES IN THEIR PRACTICE

7.0: EMERGING TECHNOLOGIES FOR DIGITAL HOSPITALS

  • 7.1. EMERGING TECHNOLOGIES FOR DIGITAL HOSPITALS

8.0: GROWTH OPPORTUNITIES

  • 8.1. GROWTH OPPORTUNITY 1: SMART PATIENT TRACKING SYSTEM FOR ENHANCING PATIENT SAFETY AND MANAGING STAFF WORKFLOWS
  • 8.2. GROWTH OPPORTUNITY 2: USING ELECTRONIC HEALTH RECORDS FOR POPULATION HEALTH MANAGEMENT AND PREVENTIVE CARE
  • 8.3. GROWTH OPPORTUNITY 3: USE OF AI IN SUPPLY CHAIN MANAGEMENT TO FACILITATE DEMAND MATCHING AND TRACKING AND TRACING OF MEDICAL SUPPLIES
  • 8.4. GROWTH OPPORTUNITY 4: CENTRALIZED COMMAND CENTERS TO FACILITATE IMPROVEMENT IN HOSPITALS' EFFICIENCY AND CARE PREPAREDNESS

9.0: ANALYST INSIGHTS

  • 9.1. EVIDENCE-BASED DESIGN OF HEALTHCARE FACILITIES FOR IMPROVING PATIENTS' HEALTH OUTCOMES AND STAFFS' EFFICIENCY
  • 9.2. DEPLOYMENT OF 5G TECHNOLOGY FOR TRANSFORMING DIGITAL HOSPITALS' CARE DELIVERY
  • 9.3. RECOMMENDATIONS FOR DIFFERENT STAKEHOLDERS FOR DRIVING SMART TECHNOLOGIES ADOPTION
  • 9.4. THE STRATEGIC IMPERATIVE 8™FACTORS CREATING PRESSURE ON DIGITAL HOSPITALS MARKET
  • 9.5. THE STRATEGIC IMPERATIVE 8™
  • 9.6. IMPACT OF TOP THREE STRATEGIC IMPERATIVES ON DIGITAL HOSPITALS INDUSTRY

10.0: KEY CONTACTS

  • 10.1. KEY CONTACTS

11.0: APPENDIX

  • 11.1. TECHNICAL READINESS LEVELS

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