Europe Patient Temperature Monitoring Devices Market Outlook, 2028
Europe has a significant and growing aging population. Older individuals often require more frequent monitoring of vital signs, including body temperature. The rise in the elderly demographic contributes to the demand for patient temperature monitoring devices. The prevalence of chronic diseases, such as cardiovascular diseases, diabetes, and respiratory disorders, is on the rise in Europe. Patients with chronic conditions often require continuous monitoring of their health parameters, including body temperature. The integration of patient temperature monitoring devices with Electronic Health Records (EHR) systems is becoming more prevalent. This integration streamlines data management, ensures continuity of care, and supports healthcare providers in making informed decisions. Government initiatives aimed at improving healthcare infrastructure and services contribute to the adoption of advanced medical technologies, including patient temperature monitoring devices. Policies that focus on patient-centered care and preventive healthcare also drive market growth. On-going research and development investments by companies and institutions contribute to the evolution of patient temperature monitoring technologies. Innovations in sensor technology, connectivity, and data analytics enhance the capabilities of these devices. As Europe experiences demographic shifts with an aging population, there is a growing interest in aging-in-place solutions. Patient temperature monitoring devices that support elderly individuals living independently at home contribute to this trend.
According to the research report ""Europe Patient Temperature Monitoring Market Outlook, 2028,"" published by Bonafide Research, the Patient Temperature Monitoring market was valued at more than USD 1 Billion in 2022. The COVID-19 pandemic has accelerated the adoption of contactless temperature monitoring solutions. Infrared thermometers and other non-contact devices have become more prevalent in various settings, including healthcare facilities, public spaces, and workplaces, contributing to infection control measures. Wearable devices equipped with temperature sensors offer continuous and unobtrusive monitoring. These wearables are designed for both clinical and home use, providing individuals with the ability to track their temperature and share data with healthcare professionals for remote monitoring. The development of smart thermometers that connect to the Internet of Things (IoT) allows for data collection, analysis, and transmission to cloud-based platforms. This level of connectivity enhances the overall capabilities of temperature monitoring devices, enabling more sophisticated data interpretation. The integration of artificial intelligence and data analytics in temperature monitoring devices enhances the analysis of temperature data. AI algorithms can identify patterns, trends, and potential anomalies, providing valuable insights for healthcare professionals in disease management and patient care. The widespread adoption of telemedicine services is influencing the demand for temperature monitoring devices that can be used in virtual healthcare consultations. Patients can monitor their temperature at home and share data with healthcare providers during telehealth appointments. The rise of health applications and mobile health (mHealth) platforms empowers patients to actively engage in monitoring their health, including temperature. Smartphone apps and wearable devices offer user-friendly interfaces and real-time tracking features.
In Germany is a leading European patient temperature monitoring market, the demand for patient temperature monitoring devices is driven by a robust healthcare infrastructure and a strong emphasis on technological innovation. German healthcare facilities, renowned for their quality and efficiency, prioritize patient safety and continuous monitoring, propelling the adoption of advanced temperature monitoring solutions. The integration of digital health technologies and the increasing prevalence of remote patient monitoring contribute to the evolution of temperature monitoring practices. Furthermore, Germany's commitment to research and development fosters innovation in sensor technology and data analytics, enhancing the accuracy and capabilities of temperature monitoring devices. The German market also reflects a growing focus on sustainability and eco-friendly practices in healthcare technology. Similarly, in Spain, the patient temperature monitoring market is characterized by a combination of traditional healthcare values and a rapid embrace of modern technologies. Spain's healthcare landscape, with its emphasis on universal healthcare access, necessitates effective patient monitoring tools. The adoption of telemedicine and telehealth services is on the rise, influencing the demand for temperature monitoring devices that support remote healthcare delivery. Spain's response to the COVID-19 pandemic has accentuated the importance of contactless temperature monitoring in public spaces and healthcare facilities. The country's commitment to public health education programs underscores the significance of temperature monitoring in preventive healthcare.
Based on product the market is bifurcated into Handheld Temperature Monitoring Devices, Smart Temperature Monitoring Patches, Table-Top Temperature Monitoring Devices, Wearable Continuous Monitoring Sensors and Invasive Temperature Monitoring Devices. Among them Handheld Temperature Monitoring Devices is leading the market. Handheld temperature monitoring devices offer practical and portable solutions for healthcare professionals. Their compact design and ease of use make them convenient for various applications, from clinical settings to fieldwork, allowing for immediate and on-the-go temperature assessments many handheld devices, particularly infrared thermometers, provide rapid and contactless temperature measurements. The quick response time is crucial in healthcare settings, where timely data is essential for making informed decisions about patient care, especially in emergency situations or high-traffic areas. Handheld devices often feature a user-friendly interface, making them accessible to a broad range of healthcare practitioners. The simplicity of operation and minimal training required contribute to their popularity among professionals with varying levels of experience. In terms of type the market is segmented into Non-invasive Temperature Monitoring and Invasive Temperature Monitoring. Invasive temperature monitoring methods, such as central venous or pulmonary artery catheter-based measurements, are known for their precision and accuracy. In critical care settings, where minute temperature changes can have significant implications for patient outcomes, the demand for precise monitoring is high. Invasive temperature monitoring devices can be integrated with other invasive procedures commonly performed in critical care settings. This integration allows healthcare providers to simultaneously monitor temperature alongside other critical parameters, providing a comprehensive view of the patient's condition.
In terms of indication the market is categorized into Pregnancy, Diabetes, Respiratory Diseases, Cardiovascular, Disorders & Hypertension, Cancer, Wound Care and Other Indications (sleep disorders, kidney disorders, neurovascular diseases, Movement Disorders, Hearing Disorders and HIV). Diabetes can impact the body's ability to regulate temperature. Individuals with diabetes may experience difficulties in maintaining normal body temperature due to factors such as impaired blood circulation and nerve damage. Continuous temperature monitoring can be crucial for detecting fluctuations that may indicate potential health issues in diabetic patients. Diabetes can lead to complications such as diabetic foot ulcers, which require careful monitoring. Temperature changes around wounds or affected areas can be indicative of infection or other complications. Patient temperature monitoring devices are valuable tools in wound care management for diabetic patients. There is a growing emphasis on patient empowerment and self-monitoring in diabetes management. Temperature monitoring devices that are user-friendly and can be used by patients at home contribute to empowering individuals with diabetes to actively participate in their care. Based on end user the market is categorised into Healthcare Facilities, Home care setting and others. There is a growing emphasis on home healthcare as a cost-effective and patient-centric alternative to traditional hospital-based care. Home care settings allow individuals to receive care in the comfort of their homes, and continuous temperature monitoring is essential for managing chronic conditions, including diabetes, cardiovascular diseases, and respiratory disorders. The aging population in Europe is more prone to chronic diseases that often require continuous monitoring, including temperature monitoring. Home care settings cater to the needs of elderly individuals with chronic conditions who prefer to age in place, and the demand for temperature monitoring devices in home care is likely to rise.
Companies Covered in this report:
3M, GE Healthcare, Midmark Corporation, Schiller AG, Medline Industries , OSI Systems, Inc., Omron Corporation, Beurer GmbH, Cardinal Health, Inc, Microlife Corporation, Terumo Corporation.
Considered in this report
• Geography: Europe
• Historic year: 2017
• Base year: 2022
• Estimated year: 2023
• Forecast year: 2028
Aspects covered in this report
• Europe Patient Temperature Monitoring market Outlook with its value and forecast along with its segments
• Country-wise Patient Temperature Monitoring market analysis
• Various drivers and challenges
• On-going trends and developments
• Top profiled companies
• Strategic recommendation
Country covered in the report:
• Germany
• United Kingdom
• France
• Italy
• Spain
• Russia
By Product
• Handheld Temperature Monitoring Devices
• Smart Temperature Monitoring Patches
• Table-Top Temperature Monitoring Devices
• Wearable Continuous Monitoring Sensors
• Invasive Temperature Monitoring Devices
By Type
• Non-invasive Temperature Monitoring (Tympanic Membrane Temperature Monitoring, Oral Temperature Monitoring, Axillary and Temporal Artery Temperature Monitoring)
• Invasive Temperature Monitoring (Rectal Temperature Monitoring, Esophageal Temperature Monitoring, Nasopharynx Temperature Monitoring, Urinary Bladder Temperature Monitoring)
By End User
• Healthcare Facilities
• Home care Setting
• Others
By Induction
• Pregnancy
• Diabetes
• Respiratory Diseases
• Cardiovascular Disorders & Hypertension
• Cancer
• Wound Care
• Other Indications (sleep disorders, kidney disorders, neurovascular diseases, Movement Disorders, Hearing Disorders and HIV)
The approach of the report:
This report consists of a combined approach of primary and secondary research. Initially, secondary research was used to get an understanding of the market and list the companies that are present in it. The secondary research consists of third-party sources such as press releases, annual reports of companies, and government-generated reports and databases. After gathering the data from secondary sources, primary research was conducted by conducting telephone interviews with the leading players about how the market is functioning and then conducting trade calls with dealers and distributors of the market. Post this; we have started making primary calls to consumers by equally segmenting them in regional aspects, tier aspects, age group, and gender. Once we have primary data with us, we can start verifying the details obtained from secondary sources.
Intended audience
This report can be useful to industry consultants, manufacturers, suppliers, associations, and organisations related to the Patient Temperature Monitoring industry, government bodies, and other stakeholders to align their market-centric strategies. In addition to marketing and presentations, it will also increase competitive knowledge about the industry.
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