
Patient Monitoring Equipment Market Size, Share & Trends Analysis | Europe | 2024-2030 | MedSuite | Includes: Multi-Parameter Vital Signs Monitoring, Wireless Ambulatory Telemetry Monitoring, and 11 more
Description
Patient Monitoring Equipment Market Size, Share & Trends Analysis | Europe | 2024-2030 | MedSuite | Includes: Multi-Parameter Vital Signs Monitoring, Wireless Ambulatory Telemetry Monitoring, and 11 more
In 2023, the European market for patient monitoring equipment was valued at €2.4 billion. This market is projected to grow at a compound annual growth rate (CAGR) of 5.3% during the forecast period, reaching €3.4 billion.
The comprehensive report on the European patient monitoring equipment market covers various segments, including multi-parameter vital signs monitoring, wireless ambulatory telemetry, remote patient monitoring, intracranial pressure (ICP) monitoring, electromyogram (EMG) monitoring, electroencephalogram (EEG) monitoring, cerebral oximetry monitoring, fetal and neonatal monitoring, pulse oximetry monitoring, cardiac output (CO) monitoring, blood pressure monitoring, electrocardiogram (ECG) monitoring, and temperature management.
MARKET REPORT DATA TYPES INCLUDED
Unit Sales, Average Selling Prices, Market Value & Growth Trends
Forecasts Until 2030, and Historical Data to 2020
Market Drivers & Limiters for Each Segment
Competitive Analysis with Market Shares for Each Segment
Recent Mergers & Acquisitions
Procedure Volumes
Company Profiles, Product Portfolios and SWOT for Top Competitors
Market Dynamics
The increasing elderly population and rising environmental and chemical stressors have led to a steady surge in chronic illnesses, including heart disease, obesity, diabetes, high cholesterol, and high blood pressure. These conditions are becoming more prevalent even among younger individuals. As a result, there is a growing demand for patient monitoring and diagnostic equipment, which is driving investments in both capital equipment and disposables. Ease of use, accuracy, and affordability are becoming crucial factors in the development of products within the remote patient monitoring market.
Europe Patient Monitoring Market Share Insights
Among the 140+ patient monitoring companies analyzed, the European market is primarily dominated by three major players: Philips Healthcare, Medtronic, and Tunstall.
Top Europe Patient Monitoring Companies
In 2023, Philips Healthcare led the European patient monitoring equipment market. They introduced the Rapid Equipment Deployment Kit in April 2020 to support ICU expansions during the COVID-19 pandemic. This kit combines Philips's advanced monitoring technology with predictive algorithms to enable rapid scaling of critical care monitoring.
GE Healthcare held the second-largest market share in 2023, excelling in multi-parameter vital signs, wireless telemetry, fetal and neonatal, blood pressure, and ECG monitoring. GE was particularly strong in the ECG market with its MAC product line.
Tunstall, a telehealth pioneer for over 60 years, supports more than five million people globally. Their Lifeline Smart Hub, a cloud-based IP home unit, connects telehealth solutions via cellular technology, eliminating the need for a landline and offering greater location flexibility.
Market Segmentation Summary
Multi-Parameter Vital Signs Monitoring Market – Includes:
Low-acuity, mid-acuity and high-acuity patient monitors in addition to the associated central stations.
Wireless Ambulatory Telemetry Monitoring Market – Includes:
Individual patient-worn monitors, as well as the associated central stations that collect data from several monitors throughout a department or hospital unit.
Remote Patient Monitoring Market – Includes:
Both remote monitoring of people with chronic conditions and individuals with CIEDs.
Intracranial Pressure Monitoring Market – Includes:
ICP transducer system market, basic ICP drainage market, advanced ICP monitoring market, and universal ICP disposables market.
Electromyogram Monitoring (EMG) Market – Includes:
Both EMG monitoring devices and EMG consumables.
Electroencephalogram (EEG) Monitoring Market – Includes:
EEG monitors as well as the associated electrodes for EEG monitoring devices.
Cerebral Oximetry Monitoring Market – Includes:
Cerebral oximetry monitors and sensors, encompassing both sensors that are indicated for adults and pediatric patients.
Fetal & Neonatal Monitoring Market – Includes:
Fetal monitors for both antepartum and intrapartum monitoring, in addition to critical care monitors for premature infants.
Pulse Oximetry Monitoring Market – Includes:
Both standalone bedside and handheld monitors, in addition to the associated reusable and disposable sensors and original equipment manufacturer (OEM) device boards.
Cardiac Output Monitoring Market – Includes:
PACs, minimally invasive and non-invasive monitoring devices as well as the sensors associated with each of these modalities.
Blood Pressure Monitoring Market – Includes:
Professional and personal monitoring segments, as well as the blood pressure cuff market.
Electrocardiogram Monitoring Market – Includes:
ECG monitors and ECG electrodes.
Telehealth Market – Includes:
Surface pad temperature management machines and accessories, IVTM machines and accessories and forced-air warming accessories.
Table of Contents
973 Pages
- List of Figures
- List of Charts
- executive summary
- European Patient Monitoring Equipment Market Overview
- Competitive Analysis
- Market Trends
- Market Developments
- Procedure Numbers
- Markets Included
- Key Report Updates
- Version History
- research methodology
- Step 1: Project Initiation & Team Selection
- Step 2: Prepare Data Systems and Perform Secondary Research
- Step 3: Preparation for Interviews & Questionnaire Design
- Step 4: Performing Primary Research
- Step 5: Research Analysis: Establishing Baseline Estimates
- Step 6: Market Forecast and Analysis
- Step 7: Identify Strategic Opportunities
- Step 8: Final Review and Market Release
- Step 9: Customer Feedback and Market Monitoring
- impact of covid-19 on THE European Patient Monitoring Equipment Market
- 2.1 Introduction
- 2.2 Country Profile
- 2.3 Analysis By Market Segment
- 2.3.1 Worst Case Scenario
- 2.3.2 Base Case Scenario
- 2.3.3 Best Case Scenario
- Product Assessment
- 3.1 Introduction
- 3.2 Hospital Settings
- 3.3 Product Portfolios
- 3.3.1 Multi-Parameter Vital Signs Monitoring
- 3.3.2 Wireless Ambulatory Telemetry Monitoring
- 3.3.2.1 Wireless Ambulatory Telemetry Monitoring
- 3.3.2.2 Central Stations
- 3.3.3 Remote Patient Monitoring Market
- 3.3.4 Intracranial Pressure Monitoring
- 3.3.5 Electromyogram Monitoring
- 3.3.6 Electroencephalogram Monitoring
- 3.3.7 Cerebral Oximetry Monitoring
- 3.3.8 Fetal and Neonatal Monitoring
- 3.3.8.1 Fetal Monitoring
- 3.3.8.2 Neonatal Monitoring
- 3.3.9 Pulse Oximetry Monitoring
- 3.3.10 Cardiac Output Monitoring
- 3.3.10.1 Pulmonary Artery Catheter
- 3.3.10.2 Minimally and Non-Invasive Monitoring
- 3.3.11 Blood Pressure Monitoring
- 3.3.12 Electrocardiogram Monitoring
- 3.3.13 Temperature Management Market
- 3.4 Regulatory Issues and Recalls
- 3.4.1 Multi-Parameter Vital Signs Monitoring Market FDA Recalls
- 3.4.2 Wireless Ambulatory Telemetry Monitoring Market FDA Recalls
- 3.4.3 Remote Patient Monitoring Market FDA Recalls
- 3.4.4 Intracranial Pressure Monitoring Market FDA Recalls
- 3.4.5 Electromyogram Monitoring Market FDA Recalls
- 3.4.6 Fetal and Neonatal Monitoring Market FDA Recalls
- 3.4.7 Cardiac Output Monitoring Market FDA Recalls
- 3.4.8 Blood Pressure Monitoring Market FDA Recalls
- 3.4.9 Electrocardiogram Monitoring Market FDA Recalls
- 3.4.10 Temperature Management Market FDA Recalls
- 3.5 Clinical Trials
- 3.5.1 Multi-Parameter Vital Signs Monitoring Market
- 3.5.2 Wireless Ambulatory Telemetry Monitoring Market
- 3.5.3 Remote Patient Monitoring Market
- 3.5.4 Intracranial Pressure Monitoring Market
- 3.5.5 Electromyogram Monitoring Market
- 3.5.6 Electroencephalogram Monitoring Market
- 3.5.7 Cerebral Oximetry Monitoring Market
- 3.5.8 Fetal and Neonatal Monitoring Market
- 3.5.9 Pulse Oximetry Monitoring Market
- 3.5.10 Cardiac Output Monitoring Market
- 3.5.11 Blood Pressure Monitoring Market
- 3.5.12 Electrocardiogram Monitoring Market
- 3.5.13 Temperature Management Market
- European Patient Monitoring Equipment Market Overview
- 4.1 Introduction
- 4.1.1 Monitoring Devices
- 4.1.2 Telehealth
- 4.2 Currency Exchange Rate
- 4.3 Market Overview & Trend Analysis
- 4.4 Drivers and Limiters
- 4.4.1 Market Drivers
- 4.4.2 Market Limiters
- 4.5 Competitive Market Share Analysis
- 4.6 Mergers and Acquisitions
- 4.7 Company Profiles
- 4.7.1 Baxter International
- 4.7.2 Becton Dickinson
- 4.7.3 Edward Lifesciences
- 4.7.4 GE HealthCare
- 4.7.5 Honeywell Life Sciences
- 4.7.6 Masimo
- 4.7.7 Medtronic
- 4.7.8 Natus Medical
- 4.7.9 Nihon Kohden
- 4.7.10 Philips Healthcare
- 4.8 SWOT Analysis
- 4.8.1 Baxter International
- 4.8.2 Becton Dickinson
- 4.8.3 Edwards Lifesciences
- 4.8.4 GE HealthCare
- 4.8.5 Honeywell Life Sciences
- 4.8.6 Masimo
- 4.8.7 Medtronic
- 4.8.8 Natus Medical
- 4.8.9 Nihon Kohden
- 4.8.10 Philips Healthcare
- Country Profiles
- 5.1 Introduction
- 5.1.1 Population
- 5.1.2 GDP Per Capita
- 5.1.3 Price Index
- 5.2 Germany
- 5.3 France
- 5.4 United Kingdom
- 5.5 Italy
- 5.6 Spain
- 5.7 Benelux
- 5.8 Scandinavia
- 5.9 Austria
- 5.10 Switzerland
- 5.11 Portugal
- Procedure Numbers
- 6.1 Procedures
- 6.1.1 Electromyography Procedures
- 6.1.2 Electroencephalography Procedures
- 6.1.3 Cerebral Oximetry Procedures
- 6.1.4 Electrocardiogram Procedures
- multi-parameter vital signs monitoring Market
- 7.1 Introduction
- 7.1.1 The Evolution of Multi-Parameter Patient Monitoring
- 7.2 Market Overview
- 7.3 Market Analysis and Forecast
- 7.3.1 Total Multi-Parameter Vital Signs Monitoring Market
- 7.3.2 Total Low-Acuity Monitor Market
- 7.3.2.1 Bedside Monitor with ECG Waveforms Market
- 7.3.2.2 Bedside Monitor without ECG Waveforms Market
- 7.3.2.3 Spot Check Monitor Market
- 7.3.3 Mid-Acuity Monitor Market
- 7.3.4 High-Acuity Monitor Market
- 7.3.5 Central Station Monitor Market
- 7.4 Drivers and Limiters
- 7.4.1 Market Drivers
- 7.4.2 Market Limiters
- 7.5 Competitive Market Share Analysis
- Wireless ambulatory telemetry monitoring Market
- 8.1 Introduction
- 8.1.1 Wireless Ambulatory Telemetry Monitors
- 8.1.2 Central Stations
- 8.1.3 System Infrastructure
- 8.2 Market Overview
- 8.3 Market Analysis and Forecast
- 8.3.1 Total Wireless Ambulatory Telemetry Monitoring Market
- 8.3.2 Total Patient-Worn Monitor Market
- 8.3.2.1 Hospital Patient-Worn Monitor Market
- 8.3.2.2 Alternate Care Patient-Worn Monitor Market
- 8.3.3 Central Station Market
- 8.4 Drivers and Limiters
- 8.4.1 Market Drivers
- 8.4.2 Market Limiters
- 8.5 Competitive Market Share Analysis
- Remote patient monitoring Market
- 9.1 Introduction
- 9.1.1 Remote Patient Monitoring Solutions
- 9.1.2 Cardiac Implantable Electronic Devices
- 9.1.3 Chronic Obstructive Pulmonary Disease
- 9.1.4 Diabetes
- 9.1.5 Hypertension
- 9.1.6 Heart Conditions
- 9.2 Market Overview
- 9.3 Market Analysis and Forecast
- 9.3.1 Total Remote Patient Monitoring Market
- 9.3.2 Total Disease Conditions Management Market
- 9.3.2.1 Purchased Market
- 9.3.2.2 Leased Market
- 9.3.3 Cardiac Implantable Electronic Device Market
- 9.4 Drivers and Limiters
- 9.4.1 Market Drivers
- 9.4.2 Market Limiters
- 9.5 Competitive Market Share Analysis
- Intracranial Pressure monitoring Market
- 10.1 Introduction
- 10.1.1 Indications
- 10.1.1.1 Hydrocephalus
- 10.1.1.2 Cerebral Edema
- 10.1.2 Applications
- 10.1.3 Complications
- 10.2 Market Overview
- 10.3 Market Analysis and Forecast
- 10.3.1 Total Intracranial Pressure Monitoring Market
- 10.3.2 Total ICP Transducer System Market
- 10.3.2.1 Internal ICP Transducer Market
- 10.3.2.2 External ICP Transducer Market
- 10.3.3 Basic ICP Drainage Market
- 10.3.4 Total Advanced ICP Monitoring Market
- 10.3.4.1 Advanced ICP Monitor Market
- 10.3.4.2 Advanced ICP Sensor Market
- 10.3.5 Total Universal ICP Disposables Market
- 10.3.5.1 Cranial Access Kit Market
- 10.3.5.2 Standard ICP Catheter Market
- 10.3.5.3 Antimicrobial ICP Catheter Market
- 10.4 Drivers and Limiters
- 10.4.1 Market Drivers
- 10.4.2 Market Limiters
- 10.5 Competitive Market Share Analysis
- Electromyogram Monitoring Market
- 11.1 Introduction
- 11.1.1 Neuropathy
- 11.1.2 Myopathy
- 11.1.3 Applications
- 11.1.4 Complications
- 11.2 Market Overview
- 11.3 Market Analysis and Forecast
- 11.3.1 Total Electromyogram Monitoring Market
- 11.3.2 Total Electromyograph Consumables Market
- 11.3.2.1 Electromyogram Concentric Needle Market
- 11.3.2.2 Monopolar Needle Market
- 11.3.2.3 Electromyogram Surface Electrode Market
- 11.3.3 Electromyograph Monitor Market
- 11.4 Drivers and Limiters
- 11.4.1 Market Drivers
- 11.4.2 Market Limiters
- 11.5 Competitive Market Share Analysis
- Electroencephalogram Monitoring Market
- 12.1 Introduction
- 12.1.1 Epileptic Seizures
- 12.1.2 Psychogenic Non-Epileptic Seizures
- 12.1.3 Applications
- 12.2 Market Overview
- 12.3 Market Analysis and Forecast
- 12.3.1 Total Electroencephalogram Monitoring Market
- 12.3.2 Clinical EEG Monitor Market
- 12.3.3 Long-Term EEG Monitor Market
- 12.3.4 ICU EEG Monitor Market
- 12.3.5 Total EEG Electrode Market
- 12.3.5.1 Disposable Market
- 12.3.5.2 Reusable Market
- 12.4 Drivers and Limiters
- 12.4.1 Market Drivers
- 12.4.2 Market Limiters
- 12.5 Competitive Market Share Analysis
- Cerebral oximetry monitoring Market
- 13.1 Introduction
- 13.1.1 Oximetry Technologies
- 13.1.2 Market Impacts
- 13.2 Market Overview
- 13.3 Market Analysis and Forecast
- 13.3.1 Total Cerebral Oximetry Monitoring Market
- 13.3.2 Total Cerebral Oximetry Sensor Market
- 13.3.2.1 Adult Market
- 13.3.2.2 Pediatric Market
- 13.3.3 Cerebral Oximetry Monitor Market
- 13.4 Drivers and Limiters
- 13.4.1 Market Drivers
- 13.4.2 Market Limiters
- 13.5 Competitive Market Share Analysis
- Fetal and neonatal Monitoring Market
- 14.1 Introduction
- 14.1.1 Fetal Monitoring
- 14.1.2 Neonatal Monitoring
- 14.1.3 Invasive and Non-Invasive Monitoring
- 14.2 Market Overview
- 14.3 Market Analysis and Forecast
- 14.3.1 Total Fetal and Neonatal Monitoring Market
- 14.3.2 Fetal Monitor Market
- 14.3.3 Neonatal Monitor Market
- 14.4 Drivers and Limiters
- 14.4.1 Market Drivers
- 14.4.2 Market Limiters
- 14.5 Competitive Market Share Analysis
- Pulse oximetry monitoring Market
- 15.1 Introduction
- 15.1.1 Types of Oxygen Saturation Monitoring
- 15.1.2 Limitations of Pulse Oximetry
- 15.1.3 Emerging Technology: Laser Pulse Oximetry
- 15.2 Market Overview
- 15.3 Market Analysis and Forecast
- 15.3.1 Total Pulse Oximetry Monitoring Market
- 15.3.2 Total Pulse Oximetry Monitor Market
- 15.3.2.1 Bedside Monitor Market
- 15.3.2.2 Handheld Monitor Market
- 15.3.2.3 Fingertip Monitor Market
- 15.3.3 Total Pulse Oximetry Sensor Market
- 15.3.3.1 Disposable Market
- 15.3.3.2 Reusable Market
- 15.3.4 OEM Circuit Board Market
- 15.4 Drivers and Limiters
- 15.4.1 Market Drivers
- 15.4.2 Market Limiters
- 15.5 Competitive Market Share Analysis
- Cardiac Output Monitoring Market
- 16.1 Introduction
- 16.1.1 The Fick Principle
- 16.1.2 Dilution Methods
- 16.1.3 Doppler Ultrasound Methods
- 16.1.4 Pulse Pressure Methods
- 16.1.5 Other Methods
- 16.2 Market Overview
- 16.3 Market Analysis and Forecast
- 16.3.1 Total Cardiac Output Monitoring Market
- 16.3.2 Total Invasive Cardiac Monitoring Market
- 16.3.2.1 Invasive Cardiac Output Monitor Market
- 16.3.2.2 Pulmonary Artery Catheter Market
- 16.3.3 Total Minimally Invasive Cardiac Monitoring Market
- 16.3.3.1 Minimally Invasive Cardiac Output Monitor Market
- 16.3.3.2 Minimally Invasive Cardiac Output Sensor Market
- 16.3.4 Total Non-Invasive Cardiac Monitoring Market
- 16.3.4.1 Non-Invasive Cardiac Output Monitor Market
- 16.3.4.2 Non-Invasive Cardiac Output Sensor Market
- 16.4 Drivers and Limiters
- 16.4.1 Market Drivers
- 16.4.2 Market Limiters
- 16.5 Competitive Market Share Analysis
- Blood pressure monitoring Market
- 17.1 Introduction
- 17.1.1 Aneroid versus Digital Blood Pressure Monitoring
- 17.2 Market Overview
- 17.3 Market Analysis and Forecast
- 17.3.1 Total Blood Pressure Monitoring Market
- 17.3.2 Total Personal Monitor Market
- 17.3.2.1 Digital Market
- 17.3.2.2 Aneroid Market
- 17.3.3 Total Professional Monitor Market
- 17.3.3.1 Digital Market
- 17.3.3.2 Aneroid Market
- 17.3.4 Total Blood Pressure Cuff Market
- 17.3.4.1 Reusable Blood Pressure Cuff Market
- 17.3.4.2 Disposable Blood Pressure Cuff Market
- 17.4 Drivers and Limiters
- 17.4.1 Market Drivers
- 17.4.2 Market Limiters
- 17.5 Competitive Market Share Analysis
- Electrocardiogram monitoring Market
- 18.1 Introduction
- 18.2 Market Overview
- 18.3 Market Analysis and Forecast
- 18.3.1 Total ECG Monitoring Market
- 18.3.2 Total ECG Monitor Market
- 18.3.2.1 Resting Electrocardiogram Market
- 18.3.2.2 Stress Testing Electrocardiogram Market
- 18.3.2.3 Holter Monitoring Recorder Market
- 18.3.3 Total ECG Electrode Market
- 18.3.3.1 Long-Term ECG Electrode Market
- 18.3.3.2 Resting ECG Electrode Market
- 18.3.3.3 Short-Term ECG Electrode Market
- 18.3.3.4 Stress Testing ECG Electrode Market
- 18.3.3.5 Neonatal ECG Electrode Market
- 18.4 Drivers and Limiters
- 18.4.1 Market Drivers
- 18.4.2 Market Limiters
- 18.5 Competitive Market Share Analysis
- Temperature management Market
- 19.1 Introduction
- 19.2 Market Overview
- 19.3 Market Analysis and Forecast
- 19.3.1 Total Temperature Management Market
- 19.3.2 Total Surface Pad Temperature Management Market
- 19.3.2.1 Machine Market
- 19.3.2.2 Accessory Market
- 19.3.3 Total Intravascular Temperature Management Market
- 19.3.3.1 Machine Market
- 19.3.3.2 Accessory Market
- 19.3.4 Forced-Air Warming Accessory Market
- 19.4 Drivers and Limiters
- 19.4.1 Market Drivers
- 19.4.2 Market Limiters
- 19.5 Competitive Market Share Analysis
- Abbreviations
- Chart 1-1: Patient Monitoring Equipment Market by Segment, Europe, 2023
- Chart 1-2: Patient Monitoring Equipment Market Overview, Europe, 2023 & 2030
- Chart 2-1: Multi-Scenario Patient Monitoring Equipment Market Forecast, Europe, 2020 – 2030 (€M)
- Chart 4-1: Patient Monitoring Equipment Market by Segment, Europe, 2020 – 2030
- Chart 4-2: Leading Competitors, Patient Monitoring Equipment Market, Europe, 2023
- Chart 5-1: Country Profile, Germany, 2023
- Chart 5-2: Country Profile, France, 2023
- Chart 5-3: Country Profile, United Kingdom, 2023
- Chart 5-4: Country Profile, Italy, 2023
- Chart 5-5: Country Profile, Spain, 2023
- Chart 5-6: Country Profile, Benelux, 2023
- Chart 5-7: Country Profile, Scandinavia, 2023
- Chart 5-8: Country Profile, Austria, 2023
- Chart 5-9: Country Profile, Switzerland, 2023
- Chart 5-10: Country Profile, Portugal, 2023
- Chart 6-1: Patient Monitoring Equipment Procedures by Segment, Europe, 2020 – 2030
- Chart 7-1: Multi-Parameter Vital Signs Monitoring Market by Segment, Europe, 2020 – 2030
- Chart 7-2: Leading Competitors, Multi-Parameter Vital Signs Monitoring Market, Europe, 2023
- Chart 8-1: Wireless Ambulatory Telemetry Monitoring Market by Segment, Europe, 2020 – 2030
- Chart 8-2: Leading Competitors, Wireless Ambulatory Telemetry Monitoring Market, Europe, 2023
- Chart 9-1: Remote Patient Monitoring Market by Segment, Europe, 2020 – 2030
- Chart 9-2: Leading Competitors, Remote Patient Monitoring Market, Europe, 2023
- Chart 10-1: Intracranial Pressure Monitoring Market by Segment, Europe, 2020 – 2030
- Chart 10-2: Leading Competitors, Intracranial Pressure Monitoring Market, Europe, 2023
- Chart 11-1: Electromyogram Monitoring Market by Segment, Europe, 2020 – 2030
- Chart 11-2: Leading Competitors, Electromyogram Monitoring Market, Europe, 2030
- Chart 12-1: Electroencephalogram Monitoring Market by Segment, Europe, 2020 – 2030
- Chart 12-2: Leading Competitors, Electroencephalogram Monitoring Market, Europe, 2023
- Chart 13-1: Cerebral Oximetry Monitoring Market by Segment, Europe, 2020 – 2030
- Chart 13-2: Leading Competitors, Cerebral Oximetry Monitoring Market, Europe, 2023
- Chart 14-1: Fetal and Neonatal Monitoring Market by Segment, Europe, 2020 – 2030
- Chart 14-2: Leading Competitors, Fetal and Neonatal Monitoring Market, Europe, 2023
- Chart 15-1: Pulse Oximetry Monitoring Market by Segment, Europe, 2020 – 2030
- Chart 15-2: Leading Competitors, Pulse Oximetry Monitoring Market, Europe, 2023
- Chart 16-1: Cardiac Output Monitoring Market by Segment, Europe, 2020 – 2030
- Chart 16-2: Leading Competitors, Cardiac Output Monitoring Market, Europe, 2020
- Chart 17-1: Blood Pressure Monitoring Market by Segment, Europe, 2020 – 2030
- Chart 17-2: Leading Competitors, Blood Pressure Monitoring Market, Europe, 2023
- Chart 18-1: Electrocardiogram Monitoring Market by Segment, Europe, 2020 – 2030
- Chart 18-2: Leading Competitors, Electrocardiogram Monitoring Market, Europe, 2023
- Chart 19-1: Temperature Management Market by Segment, Europe, 2020 – 2030
- Chart 19-2: Leading Competitors, Temperature Management Market, Europe, 2023
- Figure 1-1: Patient Monitoring Equipment Market Share Ranking by Segment, Europe, 2023 (1 of 3)
- Figure 1-2: Patient Monitoring Equipment Market Share Ranking by Segment, Europe, 2023 (2 of 3)
- Figure 1-3: Patient Monitoring Equipment Market Share Ranking by Segment, Europe, 2023 (3 of 3)
- Figure 1-4: Companies Researched in This Report (1 of 3)
- Figure 1-5: Companies Researched in This Report, U.S., 2023 (2 of 3)
- Figure 1-6: Companies Researched in This Report, U.S., 2023 (3 of 3)
- Figure 1-7: Factors Impacting the Patient Monitoring Equipment Market by Segment, Europe (1 of 3)
- Figure 1-8: Factors Impacting the Patient Monitoring Equipment Market by Segment, Europe (2 of 3)
- Figure 1-9: Factors Impacting the Patient Monitoring Equipment Market by Segment, Europe (3 of 3)
- Figure 1-10: Recent Events in the Patient Monitoring Equipment Market, Europe, 2020 – 2024 (1 of 3)
- Figure 1-11: Recent Events in the Patient Monitoring Equipment Market, Europe, 2020 – 2024 (2 of 3)
- Figure 1-12: Recent Events in the Patient Monitoring Equipment Market, Europe 2020 – 2024 (3 of 3)
- Figure 1-13: Patient Monitoring Equipment Procedures Covered, Europe
- Figure 1-14: Patient Monitoring Equipment Markets Covered (1 of 6)
- Figure 1-15: Patient Monitoring Equipment Markets Covered (2 of 6)
- Figure 1-16: Patient Monitoring Equipment Markets Covered (3 of 6)
- Figure 1-17: Patient Monitoring Equipment Markets Covered (4 of 6)
- Figure 1-18: Patient Monitoring Equipment Markets Covered (5 of 6)
- Figure 1-19: Patient Monitoring Equipment Markets Covered (6 of 6)
- Figure 1-20: Key Report Updates
- Figure 1-21: Version History
- Figure 2-1: Patient Monitoring Equipment Market by Segment, Worst Case Scenario, Europe, 2020 – 2030 (€M) (1 of 2)
- Figure 2-2: Patient Monitoring Equipment Market by Segment, Worst Case Scenario, Europe, 2020 – 2030 (€M) (2 of 2)
- Figure 2-3: Patient Monitoring Equipment Market by Segment, Base Case Scenario, Europe, 2020 – 2030 (€M) (1 of 2)
- Figure 2-4: Patient Monitoring Equipment Market by Segment, Base Case Scenario, Europe, 2020 – 2030 (€M) (2 of 2)
- Figure 2-5: Patient Monitoring Equipment Market by Segment, Best Case Scenario, Europe, 2020 – 2030 (€M) (1 of 2)
- Figure 2-6: Patient Monitoring Equipment Market by Segment, Best Case Scenario, Europe, 2020 – 2030 (€M) (2 of 2)
- Figure 3-1: Multi-Parameter Vital Signs Monitoring Products by Company
- Figure 3-2: Wireless Ambulatory Telemetry Monitoring Products by Company
- Figure 3-3: Remote Patient Monitoring Market by Company (1 of 2)
- Figure 3-4: Remote Patient Monitoring Market by Company (2 of 2)
- Figure 3-5: Intracranial Pressure (ICP) Monitoring Products by Company (1 of 2)
- Figure 3-6: Intracranial Pressure (ICP) Monitoring Products by Company (2 of 2)
- Figure 3-7: Electromyogram Monitoring Products by Company (1 of 2)
- Figure 3-8: Electromyogram Monitoring Products by Company (2 of 2)
- Figure 3-9: Electroencephalogram Monitoring (EEG) Products by Company (1 of 2)
- Figure 3-10: Electroencephalogram Monitoring (EEG) Products by Company (2 of 2)
- Figure 3-11: Cerebral Oximetry Monitoring Products by Company (1 of 2)
- Figure 3-12: Cerebral Oximetry Monitoring Products by Company (2 of 2)
- Figure 3-13: Fetal and Neonatal Monitoring Products by Company
- Figure 3-14: Pulse Oximetry Monitoring Products by Company
- Figure 3-15: Cardiac Output Monitoring Products by Company
- Figure 3-16: Blood Pressure Monitoring Products by Company (1 of 3)
- Figure 3-17: Blood Pressure Monitoring Products by Company (2 of 3)
- Figure 3-18: Blood Pressure Monitoring Products by Company (3 of 3)
- Figure 3-19: Electrocardiogram Monitoring Products by Company
- Figure 3-20: Electrocardiogram Monitoring Products by Company
- Figure 3-21: Temperature Management Market by Company (1 of 2)
- Figure 3-22: Temperature Management Market by Company (2 of 2)
- Figure 3-23: Class 2 Device Recall EarlyVue VS30 Vitals Monitor
- Figure 3-24: Class 2 Device Recall Welch Allyn Connex Spot Monitor
- Figure 3-25: Class 2 Device Recall Philips EARLYVUE VS30 VITAL SIGNS MONITOR
- Figure 3-26: Class 2 Device Recall Mindray BeneVision Distributed Monitoring System (DMS)
- Figure 3-27: Class 2 Device Recall CARESCAPE ONE
- Figure 3-28: Class 2 Device Recall Spacelabs Healthcare Xhibit Central Station (96102)
- Figure 3-29: Class 2 Device Recall DIRECT SUPPLY Attendant VITAL SIGNS MONITOR
- Figure 3-30: Class 2 Device Recall Expression MR400 MRI Patient Monitoring System
- Figure 3-31: Class 2 Device Recall Rosebud Vital Signs Monitor
- Figure 3-32: Class 2 Device Recall SureSigns VS3 NBP
- Figure 3-33: Class 2 Device Recall Xhibit Telemetry Receiver, Model: 96280
- Figure 3-34: Class 2 Device Recall Drager Infinity CentralStation
- Figure 3-35: Class 2 Device Recall WMTS Telemetry Receiver, Multiple Patient Receiver
- Figure 3-36: Class 2 Device Recall Infinity M300
- Figure 3-37: Class 2 Device Recall ApexPro Telemetry System
- Figure 3-38: Class 2 Device Recall ApexPro Telemetry Server System
- Figure 3-39: Class 2 Device Recall IntelliVue MX40 Patient Monitor
- Figure 3-40: Class 2 Device Recall Spacelabs Healthcare Xhibit Telemetry Receiver, Model 96280, software version 1.1
- Figure 3-41: Class 2 Device Recall Boston Scientific Emblem
- Figure 3-42: Class 2 Device Recall CardioMEMS
- Figure 3-43: Class 2 Device Recall LATITUDE NXT Remote Patient Management System
- Figure 3-44: Class 2 Device Recall EMBLEM SICD
- Figure 3-45: Class 2 Device Recall CareLink SmartSync Device Manager
- Figure 3-46: Class 1 Device Recall Assurity Pacemakers
- Figure 3-47: Class 1 Device Recall St. Jude Endurity Pacemakers
- Figure 3-48: Class 2 Device Recall EMBLEM
- Figure 3-49: Class 2 Device Recall EMBLEM
- Figure 3-50: Class 2 Device Recall LATITUDE
- Figure 3-51: Class 2 Device Recall LATITUDE Programming System
- Figure 3-52: Class 2 Device Recall CareLink 2090 Programmer System
- Figure 3-53: Class 2 Device Recall Edwards TruWave/VAMP Kit
- Figure 3-54: Class 2 Device Recall CereLink ICP Monitor
- Figure 3-55: Class 2 Device Recall VentriClear
- Figure 3-56: Class 2 Device Recall CADWELL
- Figure 3-57: Class 2 Device Recall Ultraview SL (UVSL) Command Module
- Figure 3-58: Class 2 Device Recall CARESCAPE ONE
- Figure 3-59: Class 2 Device Recall IntelliVue MX800
- Figure 3-60: Class 2 Device Recall IntelliVue MX800
- Figure 3-61: Class 2 Device Recall CARESCAPE Patient Data Module
- Figure 3-62: Class 2 Device Recall Pacific Medical GE Corometrics Nautilus Toco Transducer
- Figure 3-63: Class 2 Device Recall
- Figure 3-64: Class 3 Device Recall Starling
- Figure 3-65: Class 2 Device Recall Cogent Hemodynamic Monitoring System
- Figure 3-66: Class 2 Device Recall Cogent Hemodynamic Monitoring System
- Figure 3-67: Class 2 Device Recall Cogent Hemodynamic Monitoring System
- Figure 3-68: Class 2 Device Recall Cogent Hemodynamic Monitoring System
- Figure 3-69: Class 2 Device Recall PulsioFlex Monitor
- Figure 3-70: Class 1 Device Recall EV1000 Clinical Platform
- Figure 3-71: Class 2 Device Recall ProBP 3400 Digital Blood Pressure Device
- Figure 3-72: Class 2 Device Recall Ambulatory Blood Pressure Monitor
- Figure 3-73: Class 2 Device Recall Blood Pressure Cuffs Disposable, Neonate
- Figure 3-74: Class 2 Device Recall Baxter Epiphany
- Figure 3-75: Class 2 Device Recall Draeger Infinity M300
- Figure 3-76: Class 2 Device Recall 3M Red Dot
- Figure 3-77: Class 2 Device Recall ELI, Burdick and McKesson brand 280 Resting Electrocardiographs
- Figure 3-78: Class 2 Device Recall MAC VU360, Electrocardiograph
- Figure 3-79: Class 2 Device Recall Novaplus
- Figure 3-80: Class 2 Device Recall ELI 10, ELI 350, ELI 150c, ELI 250c, ELI 230, ELI 280,
- Figure 3-81: Class 1 Device Recall NORMOFLO
- Figure 3-82: Class 2 Device Recall CritiCool
- Figure 3-83: Class 2 Device Recall NormOTemp Hyperthermia System
- Figure 3-84: Class 2 Device Recall Blanketrol II Model 233 HyperHypothermia System and CoolBlue Model 2501 HyperHypothermia System
- Figure 3-85: Class 2 Device Recall Blanketrol II HyperHypothermia System, 222S
- Figure 3-86: Image-based Remote Monitoring in Cardiac Surgery Patients (FORSEE-3)
- Figure 3-87: Validation of a Vital Signs Monitoring Wristband (MULTI-VITAL)
- Figure 3-88: A Single Center Study to Demonstrate the Safety and Performance of Lifelight® First Software Application
- Figure 3-89: The COSMOS Trial. A Pilot Study A Pilot Study
- Figure 3-90: NIBP Validation Study
- Figure 3-91: Dexcom CGM in Long-term Care
- Figure 3-92: Detection of Atrial Fibrillation after Cardiac Surgery
- Figure 3-93: Feasibility and Success Trial of Remote Patient Monitoring in Heart Failure
- Figure 3-94: FreeStyle Libre 2 Discharge Trial
- Figure 3-95: Enhanced Pulmonary Rehabilitation With Digital Remote Home Monitoring
- Figure 3-96: Remote Monitoring of Multiple Indicators of Heart Failure
- Figure 3-97: Impact of the CareLink Express Remote Monitoring System on Early Detection of Atrial Fibrillation
- Figure 3-98: Remote Patient Monitoring in Pediatric Obesity
- Figure 3-99: A Pilot Study of Hypertension Management Using Remote Patient Monitoring
- Figure 3-100: Intracranial Pressure Monitoring in Moderate Traumatic Brain Injury
- Figure 3-101: Intracranial Pressure in Intensive Care (ICU) (SynapseICU)
- Figure 3-102: Validation of Non-Invasive Intracranial Pressure (ICP) Monitoring Device
- Figure 3-103: Informative of Surface Electromyography and Prognostic Factors in Assessing the Recovery of Balance and Gait after Stroke
- Figure 3-104: Association of Perioperative Electroencephalography Spectral Analysis with Postoperative Complications
- Figure 3-105: 48-Hour Ambulatory EEG Monitoring in Early Onset Alzheimer's Disease
- Figure 3-106: Bispectral-Electroencephalography (EEG) in First Time Hemodialysis
- Figure 3-107: Wearable Sensor for Responsive DBS for ET
- Figure 3-108: Investigating Cerebral Oxygenation in the Newborn
- Figure 3-109: Accuracy Performance Verification of the INVOS™ System in Pediatrics
- Figure 3-110: Cerebral Oxygen Saturation Monitoring in Cardiac Surgery (COSMICS)
- Figure 3-111: Role of Cerebral Oximetry in Reducing Postoperative End Organ Dysfunction/Failure after Complex Non-Cardiac Surgery
- Figure 3-112: Validation of the O3 Regional Somatic Tissue Oxygenation Monitor
- Figure 3-113: Continuous Vital Sign Monitoring in Newborns
- Figure 3-114: Continuous Glucose Monitoring in At-Risk Newborns
- Figure 3-115: Preliminary Study to the Conception of a Non-invasive Neonatal Monitoring System With Development of a Database
- Figure 3-116: Transcutaneous Carbon Dioxide Monitoring in Neonates Receiving Therapeutic Hypothermia for Neonatal Encephalopathy
- Figure 3-117: U-TruSignal SpO2 Testing in Neonates
- Figure 3-118: Pulse Oximetry Accuracy by Skin Color
- Figure 3-119: Neonatal Pulse Oximetry Disparities due to Skin Pigmentation
- Figure 3-120: Philps FAST2022 picoSAT Pulse Oximetry Desaturation Study
- Figure 3-121: Oxygen Saturation Measurement with Pulse Oximetry and with Smart Phones and Smart Wearable
- Figure 3-122: SpO2 Accuracy Validation of the OxySoft Sensor via Reference CO-Oximetry Motion Study
- Figure 3-123: Home Pulse Oximeter Use in Patients with COVID-19
- Figure 3-124: Feasibility and Performance Evaluation of INVSENSOR00024
- Figure 3-125: BiOSENCY BORA Band SpO2 Validation Study
- Figure 3-126: Feasibility and Performance Evaluation for INVSENSOR00024
- Figure 3-127: Validation of CardioQ Versus PiCCO in Children
- Figure 3-128: Pediatric Cardiac Output Monitoring Observational Study (POGO)
- Figure 3-129: Association between the Use of Pulmonary Artery Catheter and Clinical Outcomes after Liver Transplantation
- Figure 3-130: Non-invasive Continuous Cardiac Output Monitoring in Preterm Infants Study
- Figure 3-131: ClearSight System CHN Study
- Figure 3-132: Team-Based Home Blood Pressure Monitoring
- Figure 3-133: Comparison of Non-invasive and Invasive Blood Pressure Monitors
- Figure 3-134: App-Based Remote Blood Pressure Monitoring
- Figure 3-135: A Study of Continuous Blood Pressure Monitoring in Healthy Participants
- Figure 3-136: Noninvasive Continuous Blood Pressure Monitoring for Cesarean Delivery
- Figure 3-137: A Pilot Study of Hypertension Management Using Remote Patient Monitoring
- Figure 3-138: Validation of Wrist Type Oscillometric Blood Pressure Monitorings
- Figure 3-139: Hypertension Control and Remote Blood Pressure Monitoring
- Figure 3-140: Validation of Noninvasive Blood Pressure Device
- Figure 3-141: Clinical Validation of the Electrocardiogram Measurement
- Figure 3-142: The Value of Wearable Electrocardiogram in the Diagnosis of Coronary Artery Disease
- Figure 3-143: Electrocardiogram Clinical Validation Study
- Figure 3-144: Heated Humidification System Breathing Circuit for Maintenance of Body Temperature in Pediatric Patients
- Figure 3-145: Determination of Core Body Temperature in Parturient Warmed with Upper or Underbody Forced Air Cover (Bair Hugger)
- Figure 3-146: The Effect of Intraoperative Forced Air Warmer Use, on Postoperative Nausea and Vomiting
- Figure 3-147: Efficacy of Blanketrol III and Arctic Sun in Cooling Non-shivering Humans
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