Summary

A body temperature monitor is a medical device intended for checking and monitoring body temperature for adults and children aged two and above. Various forms of thermometers are used to monitor vital signs that include body temperature. Technological advancements in thermometers are expected to propel the growth of the temperature management market during the forecast period. Previously, thermometers were mainly controlled via manual measures, but temperature monitoring devices are more precise and easier to use with digital technology. Temperature monitoring devices are seeing a significant increase in demand as the COVID-19 outbreak spreads around the world. With rising demand for digital thermometers, the market is expected to expand at a rapid pace over the study period. The earliest forms of temperature monitoring have involved traditional thermometers, typically mercury-based or digital. These devices were widely used in clinical settings, and patients' temperatures were measured orally, rectally, or axially. While effective, these methods required direct contact and posed challenges in terms of infection control. Infrared thermometers brought about a significant shift by enabling non-contact temperature measurements. These devices used infrared technology to detect body temperature from a distance, making them more hygienic and convenient. Infrared thermometers gained popularity in clinical and public settings, particularly during outbreaks of infectious diseases. Digital thermometers represented a leap in accuracy and ease of use. These devices replaced traditional mercury-based thermometers, offering faster and more reliable temperature readings. The integration of digital technology paved the way for the development of smart thermometers that could connect to mobile apps, allowing users to track and monitor temperature trends over time. The evolution of wearable technologies brought about a new era in patient temperature monitoring. Wearable devices, including smartwatches and patches, enabled continuous temperature monitoring. This innovation was particularly valuable for patients with chronic conditions and those requiring ongoing health monitoring. The integration of patient temperature monitoring devices with the Internet of Things (IoT) marked a significant advancement. IoT-enabled devices could transmit real-time temperature data to centralized systems, allowing for remote monitoring and timely intervention. This connectivity became crucial in healthcare settings, especially during the COVID-19 pandemic.

According to the research report, “Global Patient Temperature Monitoring Devices Market Overview, 2023-28” published by Bonafide Research, , the Global Patient Temperature Monitoring Devices market is anticipated to cross USD 7 Billion by 2028, increasing from USD 4.96 Billion in 2022. The market is expected to grow with more than 5% CAGR by 2023-28. The demand for remote healthcare solutions, coupled with advancements in connectivity and data analytics, led to the development of comprehensive remote patient monitoring systems. These systems could monitor various vital signs, including body temperature, and provide healthcare professionals with actionable insights. Remote patient monitoring gained prominence as a tool for managing chronic diseases and enhancing patient outcomes. The incorporation of artificial intelligence (AI) into temperature monitoring devices brought about enhanced capabilities in terms of predictive analysis and anomaly detection. AI algorithms could analyze temperature data patterns, identify deviations from normal ranges, and provide early indications of potential health issues. This integration has the potential to revolutionize early disease detection and personalized healthcare. The COVID-19 pandemic acted as a catalyst for further innovation in patient temperature monitoring. The need for efficient and widespread temperature screening led to the development of advanced temperature screening stations, thermal imaging cameras, and other technologies for mass temperature monitoring in public spaces. With the increasing connectivity of temperature monitoring devices, there is a growing emphasis on data security and interoperability. Efforts are underway to standardize protocols, enhance cybersecurity measures, and ensure seamless integration with electronic health records (EHR) systems. The evolution of patient temperature monitoring is aligned with broader trends in personalized and preventive healthcare. Patients and healthcare providers are increasingly leveraging technology to monitor health parameters continuously, enabling early detection of issues and proactive management. The temperature monitoring system market is being driven by increasing technical improvements in the self-care segment, rising disposable thermometer demand, and the development of cost-effective and precise devices as a result of fierce competition. Temperature monitoring equipment is critical for providing safe and effective patient care. Temperature monitoring is also necessary to avoid hypothermia or overheating. To avoid any antigenic response, infection, or inflammation, thermoregulation or temperature maintenance is required.

The Asia-Pacific region is experiencing significant growth in the patient temperature monitoring devices market, driven by several key factors. One of the primary catalysts is the region's expanding healthcare infrastructure and a rising focus on healthcare modernization. Countries within Asia-Pacific, such as China, India, Japan, and South Korea, are witnessing an increase in healthcare spending and investments in medical technologies. Moreover, the growing awareness among healthcare professionals and the general population regarding the importance of early disease detection and continuous health monitoring has fueled the demand for patient temperature monitoring devices. The prevalence of infectious diseases and the need for rapid and accurate temperature screening, especially in the context of the ongoing global health challenges like the COVID-19 pandemic, have further accelerated the adoption of these devices. Additionally, the region's large and aging population, coupled with a rising incidence of chronic diseases, has created a substantial market for temperature monitoring devices used in both clinical settings and for personal health monitoring. The increasing urbanization, improving economic conditions, and a shift towards digital health solutions are contributing to the growth of the patient temperature monitoring devices market in the Asia-Pacific region, making it a dynamic and promising market for industry players.

Wearable continuous monitoring sensors are witnessing a robust growth trajectory in the patient temperature monitoring devices market due to their transformative impact on healthcare. These devices offer a paradigm shift by providing real-time and continuous temperature data, enabling healthcare professionals to monitor patients more comprehensively. The growing preference for proactive and personalized healthcare, coupled with advancements in sensor technology and miniaturization, has fueled the adoption of wearable sensors. Patients, especially those with chronic conditions, benefit from the convenience of continuous temperature monitoring without the need for repeated manual measurements. The integration of these sensors with mobile applications and cloud platforms facilitates remote patient monitoring, empowering individuals to actively engage in their health management. Additionally, wearable continuous monitoring sensors have played a crucial role during global health crises, such as the COVID-19 pandemic, by enabling early detection of potential symptoms and supporting timely interventions. The rising awareness of preventive healthcare, coupled with the increasing prevalence of chronic diseases, positions wearable continuous monitoring sensors as key contributors to the evolution of patient temperature monitoring, offering not only data accuracy but also a proactive approach to healthcare management.

Invasive temperature monitoring is experiencing growth in the patient temperature monitoring devices market due to its crucial role in specific healthcare scenarios. While non-invasive methods like infrared thermometers and wearable sensors offer convenience, invasive temperature monitoring becomes essential in critical care settings, surgical procedures, and instances where precise and continuous measurement is paramount. Invasive methods, such as using intravascular temperature probes or pulmonary artery catheters, provide accurate core body temperature readings, which is critical for patients undergoing surgery, anesthesia, or in intensive care units. These methods are particularly valuable for healthcare professionals managing patients with severe illnesses or undergoing complex medical interventions. The growing recognition of the importance of maintaining precise temperature control in critical situations has led to the increased adoption of invasive temperature monitoring devices in certain healthcare contexts, contributing to their growth in the broader patient temperature monitoring devices market.

Healthcare facilities are witnessing a significant uptick in the patient temperature monitoring devices market due to a confluence of factors contributing to enhanced patient care, infection control, and overall operational efficiency. The growing emphasis on patient safety and the need for accurate and timely health data have driven healthcare facilities to adopt advanced temperature monitoring devices. With the ongoing global health challenges, particularly the COVID-19 pandemic, there is an increased focus on fever screening and early symptom detection, making temperature monitoring devices indispensable tools in healthcare settings. The evolution of these devices, from traditional thermometers to advanced infrared thermometers, wearable sensors, and continuous monitoring systems, aligns with the modernization of healthcare practices. These technologies not only streamline temperature monitoring processes but also contribute to the optimization of clinical workflows. Additionally, the integration of patient temperature monitoring devices with electronic health records (EHR) systems enhances data accessibility, aiding healthcare professionals in making informed decisions and providing better patient outcomes. As healthcare facilities strive to embrace digital health solutions and improve overall patient experiences, the adoption of advanced temperature monitoring devices continues to grow as an integral component of modern and efficient healthcare delivery.

Major Drivers

• Regulatory Compliance and Quality Standards: The stringent regulatory landscape in healthcare and other industries is a driving force behind the adoption of advanced temperature monitoring devices. Compliance with regulatory standards, such as Good Manufacturing Practice (GMP) and Good Distribution Practice (GDP), is critical in ensuring the safety and efficacy of pharmaceuticals, medical devices, and other temperature-sensitive products. The focus on maintaining product quality and meeting regulatory requirements is compelling industries to invest in precise and reliable temperature monitoring solutions. This driver is particularly significant in pharmaceutical manufacturing, storage, and transportation, where adherence to strict temperature controls is essential to prevent product degradation.

• Globalization of Supply Chains: The globalization of supply chains in various industries, including pharmaceuticals, food, and logistics, has fueled the demand for temperature monitoring devices. As products traverse international borders, maintaining the required temperature conditions becomes increasingly challenging. The need for end-to-end visibility and control over the cold chain has led to the adoption of advanced temperature monitoring technologies. This driver is particularly evident in industries where the integrity of temperature-sensitive goods, such as vaccines and perishable foods, is critical, emphasizing the importance of precise and reliable temperature monitoring throughout the supply chain.

Major Challenges

• Interoperability Issues: The diversity of temperature monitoring devices in terms of brands, models, and communication protocols often leads to interoperability challenges. In healthcare settings, where multiple devices may be in use, ensuring seamless communication and integration with electronic health records (EHR) systems can be challenging. Interoperability issues may hinder the effectiveness of temperature monitoring solutions, requiring standardization efforts and the development of compatible interfaces to enable a cohesive and interconnected healthcare ecosystem.

• Limited Access to Advanced Healthcare in Developing Regions: While advanced temperature monitoring devices offer sophisticated solutions, accessibility remains a challenge, especially in developing regions with limited healthcare infrastructure. The cost of acquiring and maintaining advanced devices, coupled with the need for trained personnel, may restrict the adoption of these technologies in certain geographic areas. Bridging the healthcare gap and ensuring that temperature monitoring solutions are accessible to a global population require concerted efforts from stakeholders, including governments, non-profit organizations, and industry players.

Major Trends

• Wearable Temperature Monitoring Devices: The rise of wearable technologies extends to temperature monitoring, with the development of wearable devices capable of continuous temperature tracking. Wearable thermometers and temperature-sensing patches offer individuals a convenient way to monitor their health in real-time. In healthcare, these devices are increasingly used for continuous monitoring of patients, providing a holistic view of their health beyond periodic measurements. The trend towards wearables aligns with the broader movement of personalized and patient-centric healthcare, allowing for more proactive management of health conditions.

• Environmental Monitoring and Sustainability: An emerging trend in the temperature monitoring devices market is the increasing focus on environmental monitoring and sustainability. Industries are incorporating temperature monitoring solutions to track and mitigate the environmental impact of their operations. This includes monitoring temperature variations in ecosystems, bodies of water, and industrial settings to assess the effects of climate change and ensure sustainable practices. The integration of temperature monitoring into environmental initiatives reflects a growing awareness of the interconnectedness between temperature control, ecological health, and sustainability goals.

Covid-19 Impacts

The COVID-19 pandemic has had profound impacts on the healthcare industry, including the patient temperature monitoring devices market. The demand for temperature monitoring devices surged as fever became a prominent symptom of COVID-19, leading to increased screening efforts and the need for accurate and efficient temperature measurement tools. With the emphasis on minimizing physical contact to curb the spread of the virus, there was a significant increase in the demand for non-contact temperature monitoring devices. Infrared thermometers, which allow for quick and contactless temperature measurements, became widely adopted in various settings, including healthcare facilities, airports, public spaces, and workplaces. The global supply chain disruptions caused by the pandemic impacted the manufacturing and distribution of medical devices, including temperature monitoring devices. Shortages of certain components and delays in production led to challenges in meeting the increased demand. However, the industry responded by adapting production strategies and addressing supply chain vulnerabilities. With the emphasis on minimizing physical contact to curb the spread of the virus, there was a significant increase in the demand for non-contact temperature monitoring devices. Infrared thermometers, which allow for quick and contactless temperature measurements, became widely adopted in various settings, including healthcare facilities, airports, public spaces, and workplaces. The pandemic prompted the implementation of stringent screening and triage protocols in healthcare facilities and public spaces. Temperature monitoring became a key component of these protocols to identify individuals with potential COVID-19 symptoms. As a result, there was a surge in the deployment of temperature screening stations equipped with advanced temperature monitoring devices.

Competitive Landscape

The report identifies key competitors in the Patient Temperature Monitoring market, including 3M, GE Healthcare, Midmark Corporation, Schiller AG, Medline Industries , OSI Systems, Inc., Omron Corporation, American Diagnostic Corporation, Beurer GmbH, Cardinal Health, Inc, Medline Industries, LP, Microlife Corporation, Terumo Corporation, A&D Company, Limited, Teledyne Technologies Incorporated, Testo SE & Co. KGaA , Fluke Corporation , Easywell Biomedicals Inc, Hill-Rom Holdings, Inc, Hartmann AG.

Key Developments

• On March 28, 2022, Biobeat, a wearable remote monitoring solutions company, announced that its wearable remote patient monitoring device had received 510(k) clearance from the U.S. Food and Drug Administration (FDA) to monitor body temperature.

• On March 3, 2022, CIRCA Scientific, Inc., a medical device company, announced that its S-CATH M Esophageal Temperature Probe is now cleared by U.S. Food and Drug for sales in the U.S.

• In October 2020, the American medtech giant Masimo introduced the Radius T Continuous Thermometer, a connected sensor system capable of measuring a patient’s temperature in real-time. The device provides temperature readings, as well as warning alerts to users.

• In May 2020, IntraEdge and Pyramid partnered to manufacture contactless kiosks that can measure the temperature of over 1,500 people within an hour. The kiosks are said to leverage the thermal imaging technology of Pyramid and IntraEdge’s Truyo cloud platform.

Covid-19 Impacts

The COVID-19 pandemic has had profound impacts on the healthcare industry, including the patient temperature monitoring devices market. The demand for temperature monitoring devices surged as fever became a prominent symptom of COVID-19, leading to increased screening efforts and the need for accurate and efficient temperature measurement tools. With the emphasis on minimizing physical contact to curb the spread of the virus, there was a significant increase in the demand for non-contact temperature monitoring devices. Infrared thermometers, which allow for quick and contactless temperature measurements, became widely adopted in various settings, including healthcare facilities, airports, public spaces, and workplaces. The global supply chain disruptions caused by the pandemic impacted the manufacturing and distribution of medical devices, including temperature monitoring devices. Shortages of certain components and delays in production led to challenges in meeting the increased demand. However, the industry responded by adapting production strategies and addressing supply chain vulnerabilities. With the emphasis on minimizing physical contact to curb the spread of the virus, there was a significant increase in the demand for non-contact temperature monitoring devices. Infrared thermometers, which allow for quick and contactless temperature measurements, became widely adopted in various settings, including healthcare facilities, airports, public spaces, and workplaces. The pandemic prompted the implementation of stringent screening and triage protocols in healthcare facilities and public spaces. Temperature monitoring became a key component of these protocols to identify individuals with potential COVID-19 symptoms. As a result, there was a surge in the deployment of temperature screening stations equipped with advanced temperature monitoring devices.

Competitive Landscape

The report identifies key competitors in the Patient Temperature Monitoring market, including 3M, GE Healthcare, Midmark Corporation, Schiller AG, Medline Industries , OSI Systems, Inc., Omron Corporation, American Diagnostic Corporation, Beurer GmbH, Cardinal Health, Inc, Medline Industries, LP, Microlife Corporation, Terumo Corporation, A&D Company, Limited, Teledyne Technologies Incorporated, Testo SE & Co. KGaA , Fluke Corporation , Easywell Biomedicals Inc, Hill-Rom Holdings, Inc, Hartmann AG.

Key Developments

• On March 28, 2022, Biobeat, a wearable remote monitoring solutions company, announced that its wearable remote patient monitoring device had received 510(k) clearance from the U.S. Food and Drug Administration (FDA) to monitor body temperature.

• On March 3, 2022, CIRCA Scientific, Inc., a medical device company, announced that its S-CATH M Esophageal Temperature Probe is now cleared by U.S. Food and Drug for sales in the U.S.

• In October 2020, the American medtech giant Masimo introduced the Radius T Continuous Thermometer, a connected sensor system capable of measuring a patient’s temperature in real-time. The device provides temperature readings, as well as warning alerts to users.

• In May 2020, IntraEdge and Pyramid partnered to manufacture contactless kiosks that can measure the temperature of over 1,500 people within an hour. The kiosks are said to leverage the thermal imaging technology of Pyramid and IntraEdge’s Truyo cloud platform.

Considered in this report:

• Geography: Global
• Historic year: 2017
• Base year: 2022
• Estimated year: 2023
• Forecast year: 2028

Aspects covered in this report:

• Global Patient Temperature Monitoring Devices market with its value and forecast along with its segments
• Region-wise Patient Temperature Monitoring Devices market analysis
• Various drivers and challenges
• On-going trends and developments
• Top profiled companies
• Strategic recommendation

Regions covered in the report

• North America
• Europe
• Asia-Pacific
• South America
• Middle-East & Africa

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 Indication

• 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 as well as secondary research. Initially, secondary research was used to get an understanding of the market and list out the companies that are present in the market. The secondary research consists of third-party sources such as press releases, and annual reports of companies, analyzing the government-generated reports and databases. After gathering the data from secondary sources primary research was conducted by making telephonic 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 doing primary calls to consumers by equally segmenting consumers into regional aspects, tier aspects, age groups, and gender. Once we have primary data with us we started verifying the details obtained from secondary sources.

Intended audience:

This report can be useful to industry consultants, manufacturers, suppliers, associations & organizations related to the Patient Temperature Monitoring Devices industry, government bodies, and other stakeholders to align their market-centric strategies. In addition to marketing & presentations, it will also increase competitive knowledge about the industry.








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