Biomedical Temperature Sensors Market - Growth, Trends, and Forecast (2020 to 2025) - ResearchAndMarkets.com

The "Biomedical Temperature Sensors Market - Growth, Trends, and Forecast (2020 - 2025)" report has been added to ResearchAndMarkets.com's offering.

The biomedical temperature sensors market was valued at USD 6.17 billion in 2019, and it is expected to reach a value of USD 8.36 billion by 2025, projecting a CAGR of 5.18% during the forecast period (2020-2025). The growing applications of different temperature sensors in the biomedical sector are expected to contribute to the market's growth positively, during the forecast period.

Over the past few years, the demand for biomedical temperature sensors has been increasing, along with rising application in the healthcare sector. This is due to an increase in investment by government to have safe and reliable healthcare infrastructure in place.

Temperature sensors are critical in the healthcare industry, as they are used in painless or anesthesia-driven surgeries, life-supporting machines, dialysis of failed kidneys, analyzing blood information, oxygen temperature measurement for life support systems, temperature monitoring for neonatal and patients in critical care, digital temperature measurement, organ transplants monitoring, and many more sub-optimal surgeries.

Temperature sensors can be used for measuring not only temperature, but also a number of other physical parameters. They are often applied in calorimetric flow sensors, i.e., for measuring blood or respiratory airflow. Skin blood flow (SBF) or skin perfusion is a complex phenomenon that occurs in capillaries.

Fiber Optic Sensors (FoS) is Expected to Hold a Significant Share

• Fiber optic probes undergo total internal reflection and aid in possible future biomedical applications to carry out the simultaneous collection and analysis of samples for drug safety evaluation. It also helps in the sensing of biomolecules, identification of drug molecules, effluent monitoring, and overall pharmaceutical quality control of the product.
• Biomedical FOS can be categorized into four main types: physical, imaging, chemical, and biological. Meanwhile physical sensors measure a variety of physiological parameters, such as body temperature, blood pressure, and muscle displacement, imaging sensors encompass advanced techniques, such as optical coherence tomography (OCT) and photoacoustic imaging.
• Chemical sensors rely on fluorescence, spectroscopic, and indicator techniques and biological sensors tend to be more complex and rely on biologic recognition reactions, such as enzyme-substrate, antigen-antibody, or ligand-receptor.
• Moreover, IoT applications can save the lives of patients with a fast diagnosis of diseases, as well as finding an apt cure for it. FOS are the devices, which are capable of monitoring a specific biomedical variable and provide information that can give a rapid and accurate diagnosis of a patient's health condition. Therefore, the growing adoption of IOT in healthcare industry is penetrating the usage of fiber optic sensors.

North America is Expected to Lead the Market

• Due to increasing need for medical services in the United States, North America is expected to experience lucrative growth, as the medical sensor providers are focusing on developing high value-add equipment catering to the rising needs. On the other side, stringent government guidelines across the region, along with the growing healthcare sector, are expected to trigger the growth of the market in this region.
• The US health expenditure increased by 5.3% in 2018, reflecting growing prices of medical goods and services and higher medicaid costs. The increase represents a sharp turn from 2017 spending, which the US Centers for Medicare and Medicaid Services (CMS) agency, in 2018, estimates to have been a 4.6% increase, to nearly USD 3.5 trillion.
• Additionally, the healthcare industry across the region is also making use of temperature sensors extensively for continuous biological cardiac output monitoring, thermal dilution catheters, etc.

Key Topics Covered:

1 INTRODUCTION

2 RESEARCH METHODOLOGY

3 EXECUTIVE SUMMARY

4 MARKET DYNAMICS

4.1 Market Overview

4.2 Introduction to Market Drivers and Restraints

4.3 Market Drivers

4.3.1 Increasing Spending on Diagnostics

4.3.2 Growing Demand for Fitness Devices

4.3.3 Increasing Health Concerns

4.4 Market Restraints

4.4.1 Complexities in Fabrication and High Costs

4.5 Industry Attractiveness - Porter's Five Forces Analysis

4.5.1 Threat of New Entrants

4.5.2 Bargaining Power of Buyers/Consumers

4.5.3 Bargaining Power of Suppliers

4.5.4 Threat of Substitute Products

4.5.5 Intensity of Competitive Rivalry

4.6 Technology Snapshot

5 MARKET SEGMENTATION

5.1 By Type

5.1.1 Thermocouples

5.1.2 Thermistors

5.1.3 Resistance Temperature Detectors (RTDs)

5.1.4 Liquid Crystal Temperature Sensors

5.1.5 Fibre Optic Sensors

5.1.6 Infrared Sensors

5.2 Geography

5.2.1 North America

5.2.2 Europe

5.2.3 Asia-Pacific

5.2.4 Rest of the World

6 COMPETITIVE LANDSCAPE

6.1 Company Profiles

7 INVESTMENT ANALYSIS

8 MARKET OPPORTUNITIES AND FUTURE TRENDS

Companies Mentioned

• TE Connectivity Ltd
• Amphenol Advanced Sensors
• Weed Instrument Co.
• Smiths Medical Inc.
• Minco Products Inc.
• LumaSense Technologies Inc.
• Dwyer Instruments Inc.
• Analog Devices Inc.
• Texas Instruments Incorporated
• Pyromation Inc.
  

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