This research provides an assessment of the Connected Healthcare market including growth drivers, value chain, vendor analysis, and quantitative assessment of the industry from 2023 to 2028. The report also evaluates the quantified-self market including wearable technology, analytics, and many other areas. The report also assesses the market outlook for all key IoT-enabled Connected Health apps and services.
Select Report Findings:
- Nearly 27% of healthcare diagnostics by volume will involve quantified-self solutions by 2028
- NFC used in conjunction with quantified-self in healthcare will reach $48.2 billion globally by 2028
- Chipsets used in conjunction with healthcare in IoT for quantified health will reach $5.9 billion by 2028
- Adoption of wearable healthcare device for well-being is growing rapidly due to evolving health concerns
- Global telemedicine will reach $161.7 billion by 2028, stimulating a boom in DIY self-care diagnostic solutions
The term "quantified self" refers to the incorporation of technology into data acquisition on aspects of a person's daily life. With respect to healthcare, quantified-self technologies can be a powerful "Do it Yourself" (DIY) tool for consumers as well as highly complementary to healthcare service providers. Solution benefits include lower costs for healthcare providers and positive inducements for insurance companies to maintain more affordable rates for consumers.
In addition, a positive feedback loop is often established and maintained as end-users become more aware of the impact of lifestyle choices upon health. Consumers also become more conscientious to maintain gains realized through daily movement, diet, and other lifestyle modifications.
Consisting of smart general-purpose wearable devices as well as purpose-built medical devices, the market for connected health and self-monitoring is highly dependent on Internet of Things (IoT) systems for communication and control.
Another critical component is the ability to manage unstructured data. Accordingly, advanced data analytics tools, as well as artificial intelligence algorithms, enable prediction, alerting, and both corrective and proactive action taking on the part of both end-users and healthcare service providers.
Select Companies in Report:
- Abbott Laboratories
- AdhereTech Inc.
- Aerocrine AB
- Apple Inc.
- Cerner Corporation
- Charles River Laboratories Inc.
- Cisco Systems Inc.
- Covance Inc.
- Diabetizer GmbH & Co. KG
- Future Path Medical Holding Company LLC
- GE Healthcare
- Google
- Healthcare CRO Company
- Honeywell Life Care Solutions
- IBM Corporation
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- ICON Plc.
- inVentiv Health Incorporated
- Koninklijke Philips N.V.
- Medidata Solutions
- Medtronic PLC
- Microsoft Corporation
- PAREXEL International Corp.
- Pharmaceutical Product Development LLC
- PhysIQ
- Proteus Digital Health
- Qualcomm Life Inc.
- Quintiles IMS Holdings, Inc.
- SAP SE
- Stanley Healthcare
- Theorem Clinical Research Inc.
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Table of Contents
1.0. Executive Summary
2.0. Introduction
- 2.1. Internet of Healthcare Things
- 2.1.1. IoHT Connectivity
- 2.1.2. Benefits of IoHT
- 2.2. Contract Research Organizations
- 2.3. Contact Commercial Organization
- 2.4. Pre-Clinic and Clinical Trials
- 2.4.1. Phase 0 Trials
- 2.4.2. Phase I Trials
- 2.4.3. Phase II Trials
- 2.4.4. Phase III Trials
- 2.4.5. Phase IV Trials
- 2.4.6. MAMS Trials
- 2.5. Adoption of Healthcare IoT
- 2.6. SWOT Analysis
- 2.6.1. Strengths
- 2.6.1.1. High-Speed Connectivity Technologies
- 2.6.1.2. Proliferation of Smart Connected Devices
- 2.6.1.3. Remote Patient Monitoring
- 2.6.1.4. Improved Healthcare IT Infrastructure
- 2.6.1.5. Government Initiatives
- 2.6.1.6. Improved Healthcare Service Outcome
- 2.6.1.7. Cost Reduction of Healthcare Services
- 2.6.1.8. Home Health Technologies
- 2.6.1.9. Use of Smart Sensors
- 2.6.1.10. Broadband Wireless and Enabling Technology
- 2.6.1.11. Smart City, Big Data, and Connected Software
- 2.6.2. Opportunities
- 2.6.2.1. Connected Devices in Healthcare Sector
- 2.6.2.2. Adoption of Remote Patient Monitoring
- 2.6.2.3. Software and Component Solution
- 2.6.2.4. Consumer Driven Healthcare Solution
- 2.6.3. Weaknesses and Threats
- 2.6.3.1. Lack of Government Regulations and Standards
- 2.6.3.2. Data Privacy and Security
- 2.6.3.3. Lack of Medical Data and Analytics Skills
- 2.6.3.4. Lack of Data-Driven Healthcare Leadership
- 2.6.3.5. Lack of Interoperability and Integration
- 2.7. Value Chain Analysis
- 2.7.1. Healthcare Infrastructure Providers
- 2.7.2. Healthcare CRO Providers
- 2.7.3. Healthcare IoT Start-up Companies
- 2.7.3.1. Clinical Service Provider
- 2.7.3.2. Monitoring Solution Provider
- 2.7.3.3. Sensor and Wearable Solution Provider
- 2.7.4. Medical Regulatory Bodies
- 2.7.5. Patients and other Beneficiaries
- 2.8. Regulatory Scenario
- 2.8.1. ISO Standards
- 2.8.1.1. ISO 27799:2008 and ISO/TR 27809:2007
- 2.8.1.2. ISO/IEC 27002
- 2.8.1.3. ISO/TC 215
- 2.8.2. CEN/TC 251
- 2.8.3. Health Insurance Portability and Accountability Act
- 2.8.3.1. HIPAA Privacy Rule
- 2.8.3.2. HIPAA Security Rule
- 2.8.3.3. HIPAA Identifiers Rule
- 2.8.3.4. HIPAA Enforcement Rule
- 2.8.4. HITECH Act
- 2.8.5. European Standard Regulation
- 2.8.5.1. CEN ISO/IEEE 11073
- 2.8.5.2. CEN / Cenelec
- 2.8.5.3. ETSI
- 2.8.6. Patient Protection and Affordable Care Act
- 2.8.7. American Health Care Act
- 2.8.8. Food and Drug Administration Safety and Innovation Act
- 2.8.9. The MedTech Act
3.0. Technology and Application Analysis
- 3.1. Internet of Healthcare Things Technologies
- 3.1.1. Healthcare Operational Technology
- 3.1.2. Disease Control Applications
- 3.2. Wearable Mobile Health Device
- 3.3. Implantable Medical Technologies
- 3.4. Connected Health Market Segment
- 3.4.1. Healthcare Hardware Market
- 3.4.2. Healthcare Software and System Market
- 3.4.3. Healthcare Service Market
- 3.4.4. Healthcare Connectivity Market
- 3.5. IoHT Application Scenarios
- 3.6. IoHT End User Groups
- 3.7. IoHT Competitive Landscape
- 3.8. Regional Market Analysis and Adoption Trends
- 3.9. Role of AI Technology
- 3.10. Microchip Technology
- 3.11. Patient Monitoring Systems
- 3.12. Medical Diagnostic Imaging and Radiology
- 3.13. 3D Printing
4.0. Quantified Self in Healthcare Company Analysis
- 4.1. Healthcare Infrastructure Company
- 4.1.1. Medtronic PLC
- 4.1.2. Koninklijke Philips N.V.
- 4.1.3. Cisco Systems Inc.
- 4.1.4. IBM Corporation
- 4.1.5. GE Healthcare
- 4.1.6. Microsoft Corporation
- 4.1.7. SAP SE
- 4.1.8. Qualcomm Life Inc.
- 4.1.9. Honeywell Life Care Solutions
- 4.1.10. Stanley Healthcare
- 4.1.11. Cerner Corporation
- 4.1.12. Proteus Digital Health
- 4.1.13. AdhereTech Inc.
- 4.1.14. Google
- 4.1.15. Future Path Medical Holding Company LLC
- 4.1.16. Aerocrine AB
- 4.1.17. PhysIQ
- 4.1.18. Diabetizer GmbH & Co. KG
- 4.1.19. Apple Inc.
- 4.1.20. Abbott Laboratories
- 4.2. Healthcare CRO Company
- 4.2.1. Quintiles IMS Holdings, Inc.
- 4.2.2. Covance Inc.
- 4.2.3. Pharmaceutical Product Development LLC
- 4.2.4. PAREXEL International Corp.
- 4.2.5. Charles River Laboratories Inc.
- 4.2.6. ICON Plc.
- 4.2.7. inVentiv Health Incorporated
- 4.2.8. Medidata Solutions
- 4.2.9. Theorem Clinical Research Inc.
- 4.3. Healthcare IoT Start-up Companies
- 4.3.1. Clinical Service Providers
- 4.3.2. Sensor and Wearable Solution Providers
- 4.3.3. Monitoring Solution Provider
5.0. Quantified Self in Healthcare Market Analysis and Forecasts 2023-2028
- 5.1. Global IoT Quantified Self Market 2023-2028
- 5.1.1. Global IoT Quantified Self Market by Device and Application
- 5.1.1.1. Global IoT Quantified Self Market by Wearable Body Tracking Product
- 5.1.1.2. Global IoT Quantified Self Market by Home Automation Product
- 5.1.1.3. Global IoT Quantified Self Market by Self-Tracking Apps
- 5.1.1.4. Global IoT Quantified Self Market by Embedded Tracking Product
- 5.1.1.5. Global IoT Quantified Self Market by Self-Tracking Platform
- 5.1.1.6. Global IoT Quantified Self Market by Contextual Analytics Solution
- 5.1.2. Global IoT Quantified Self Market by Enabling Technology
- 5.2. Regional IoT Quantified Self Market 2023-2028
- 5.2.1. North America IoT Quantified Self Market: Device and Application, Technology, and Country
- 5.2.2. APAC IoT Quantified Self Market: Device and Application, Technology, and Country
- 5.2.3. Europe IoT Quantified Self Market: Device and Application, Technology, and Country
- 5.2.4. Latin America IoT Quantified Self Market: Device and Application, Technology, and Country
- 5.2.5. MEA IoT Quantified Self Market: Device and Application, Technology, and Country
- 5.3. Global IoT Quantified Self Device Deployment 2023-2028
- 5.3.1. Global IoT Quantified Self Device Deployment by Type
- 5.3.1.1. Global IoT Quantified Self Device Deployment by Home Tracking Product
- 5.3.1.2. Global IoT Quantified Self Device Deployment by Wearable Tracking Products
- 5.3.1.3. Global IoT Quantified Self Device Deployment by Non-Wearable Tracking Product
- 5.3.2. Global IoT Quantified Self Device Deployment by Region
- 5.3.2.1. North America IoT Quantified Self Device Deployment by Country
- 5.3.2.2. APAC IoT Quantified Self Device Deployment by Country
- 5.3.2.3. Europe IoT Quantified Self Device Deployment by Country
- 5.3.2.4. Latin America IoT Quantified Self Device Deployment by Country
- 5.3.2.5. MEA IoT Quantified Self Device Deployment by Country
6.0. Conclusions and Recommendations
- 6.1. Advertisers and Media Companies
- 6.2. Artificial Intelligence Providers
- 6.3. Smart Pills Providers
- 6.4. Broadband Infrastructure Providers
- 6.5. Communication Service Providers
- 6.6. Computing Companies
- 6.7. Data Analytics Providers
- 6.8. Medical Device and Equipment Providers
- 6.9. Networking Equipment Providers
- 6.10. Networking Security Providers
- 6.11. Semiconductor Companies
- 6.12. IoHT Suppliers and Service Providers
- 6.13. Software Providers
- 6.14. Smart City System Integrators
- 6.15. Pharmaceuticals, Hospitals, and Clinics
- 6.16. Smart Workplace Solution Providers
- 6.17. Enterprise and Government
7.0. Appendix
- 7.1. Global IoT Healthcare Market 2023-2028
- 7.1.1. Global IoT Healthcare Market by Segment
- 7.1.1.1. Global IoT Healthcare Market by Hardware Type
- 7.1.1.1.1. Global IoT Healthcare Market by Medical Device
- 7.1.1.1.2. Global IoT Healthcare Market by Hardware Component
- 7.1.1.2. Global IoT Healthcare Market by Software and System
- 7.1.1.3. Global IoT Healthcare Market by Service
- 7.1.1.3.1. Global IoT Healthcare Market by Professional Service
- 7.1.2. Global IoT Healthcare Market by Connectivity
- 7.1.2.1. Global IoT Healthcare Market by 3G vs.4G vs.5G
- 7.1.3. Global IoT Healthcare Market by Organization Type
- 7.1.3.1. Global IoT Healthcare Market by Medical Research vs. CRO
- 7.1.3.1.1. Global IoT Healthcare CRO Market by Clinical vs. Preclinical Research
- 7.1.3.1.2. Global IoT Healthcare CRO Market by Clinical Research Trial
- 7.1.4. Global IoT Healthcare Market by Application
- 7.1.4.1. Global IoT Healthcare Market by Telemedicine Application
- 7.1.4.2. Global IoT Healthcare Market by Telemedicine Sector
- 7.1.5. Global IoT Healthcare Market by Region
- 7.1.5.1. North America IoT Healthcare Market by Country
- 7.1.5.2. APAC IoT Healthcare Market by Country
- 7.1.5.2.1. APAC IoT Healthcare Market by ASEAN Country
- 7.1.5.2.2. APAC IoT Healthcare Market by South Asian Country
- 7.1.5.3. Europe IoT Healthcare Market by Country
- 7.1.5.3.1. Europe IoT Healthcare Market by Nordic Country
- 7.1.5.4. Latin America IoT Healthcare Market by Country
- 7.1.5.5. MEA IoT Healthcare Market by Country
- 7.1.5.5.1. MEA IoT Healthcare Market by GCC Country
- 7.1.5.5.2. MEA IoT Healthcare Market by Southern Africa Country
- 7.1.5.5.3. MEA IoT Healthcare Market by Northern Africa Country
- 7.1.5.5.4. MEA IoT Healthcare Market by Central Africa Country
- 7.2. Global IoT Healthcare Connected Device Deployment 2023-2028
- 7.2.1. Global IoT Healthcare Connected Device Deployment by Organization Type
- 7.2.2. Global IoT Healthcare Connected Device Deployment by Application
- 7.2.2.1. Global IoT Healthcare Connected Device Deployment by Telemedicine Application
- 7.2.2.2. Global IoT Healthcare Connected Device Deployment by Telemedicine Sector
- 7.2.3. Global IoT Healthcare Connected Device Deployment by Region
- 7.2.3.1. North America IoT Healthcare Connected Device Deployment by Country
- 7.2.3.2. APAC IoT Healthcare Connected Device Deployment by Country
- 7.2.3.3. Europe IoT Healthcare Connected Device Deployment by Country
- 7.2.3.4. Latin America IoT Healthcare Connected Device Deployment by Country
- 7.2.3.5. MEA IoT Healthcare Connected Device Deployment by Country
- 7.3. Global IoT Healthcare Connected Things Deployment 2023-2028
- 7.3.1. Global IoT Healthcare Connected Things Deployment by Organization Type
- 7.3.2. Global IoT Healthcare Connected Things Deployment by Application
- 7.3.2.1. Global IoT Healthcare Connected Things Deployment by Telemedicine Application
- 7.3.2.2. Global IoT Healthcare Connected Things Deployment by Telemedicine Sector
- 7.3.3. Global IoT Healthcare Connected Things Deployment by Region
- 7.3.3.1. North America IoT Healthcare Connected Things Deployment by Country
- 7.3.3.2. APAC IoT Healthcare Connected Things Deployment by Country
- 7.3.3.3. Europe IoT Healthcare Connected Things Deployment by Country
- 7.3.3.4. Latin America IoT Healthcare Connected Things Deployment by Country
- 7.3.3.5. MEA IoT Healthcare Connected Things Deployment by Country