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Canada Medical Radiation Detection, Monitoring & Safety Market By Type (Gas-Filled Detectors, Scintillators, Solid-State Detectors); By Application (Radiation Therapy, Diagnostic Imaging, Nuclear Medicine); By End-user (Hospitals, Diagnostic Centers, Ambulatory Surgical Centers) – Growth, Share, Opportunities & Competitive Analysis, 2024 – 2032

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Published: | Report ID: 69376 | Report Format : PDF
REPORT ATTRIBUTE DETAILS
Historical Period 2019-2022
Base Year 2023
Forecast Period 2024-2032
Canada Medical Radiation Detection, Monitoring & Safety Market Size 2023 USD 113.14 million
Canada Medical Radiation Detection, Monitoring & Safety Market, CAGR 6.81%
Canada Medical Radiation Detection, Monitoring & Safety Market Size 2032 USD 191.67 million

Market Overview

The Canada Medical Radiation Detection, Monitoring & Safety Market is projected to grow from USD 113.14 million in 2023 to USD 191.67 million by 2032, with a compound annual growth rate (CAGR) of 6.81%.

The Canada Medical Radiation Detection, Monitoring & Safety market is driven by the increasing demand for advanced healthcare technologies and heightened awareness of radiation exposure risks. As medical imaging and radiation therapies become more prevalent, the need for efficient radiation detection and monitoring systems grows, ensuring patient and healthcare worker safety. Furthermore, government regulations and safety standards are pushing healthcare facilities to adopt innovative radiation safety solutions. Technological advancements, such as the development of more accurate, portable, and user-friendly detection devices, are also fueling market growth. The growing focus on preventive healthcare and safety measures, combined with rising investments in medical infrastructure, particularly in diagnostic imaging and cancer treatments, further contribute to the expansion of the market. These factors, along with the increasing adoption of radiation safety protocols across medical institutions, are expected to sustain the market’s growth trajectory over the coming years.

The geographical landscape of the Canada Medical Radiation Detection, Monitoring & Safety market is shaped by the strong presence of healthcare facilities and technological advancements across key provinces. Ontario and Quebec lead in the adoption of radiation safety systems due to their robust healthcare infrastructures and extensive use of diagnostic imaging and radiation therapy. British Columbia and Western Canada also demonstrate growing demand, driven by expanding healthcare services and increased awareness of radiation safety. Prominent key players in this market include Mirion Technologies, Inc., Thermo Fisher Scientific Inc., Fluke Biomedical, and Landauer, Inc., known for their innovative radiation detection and monitoring solutions. Companies such as Sun Nuclear Corporation, Ludlum Measurements, Inc., and Infab Corporation are also pivotal in driving technological advancements. These key players focus on enhancing product portfolios, improving safety features, and integrating digital technologies to strengthen their market positions and meet evolving safety standards in medical applications.

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Market Insights

  • The Canada Medical Radiation Detection, Monitoring & Safety market is projected to grow from USD 113.14 million in 2023 to USD 191.67 million by 2032, expanding at a CAGR of 6.81%.
  • Increasing adoption of radiation-based diagnostic and therapeutic procedures drives demand for advanced radiation detection and monitoring solutions.
  • Growing investments in healthcare infrastructure and safety regulations enhance market growth across key provinces like Ontario and Quebec.
  • Advancements in portable, real-time monitoring, and AI-integrated radiation safety technologies create new opportunities for market players.
  • Competitive intensity remains high, with major players like Mirion Technologies, Thermo Fisher Scientific, and Fluke Biomedical driving innovation and market penetration.
  • Stringent safety standards and high initial investment costs act as significant restraints for smaller healthcare institutions.
  • Geographical demand varies, with Ontario and Quebec leading, while British Columbia and Atlantic Canada show increasing adoption of modern radiation safety systems.

Market Drivers

Rising Awareness of Radiation Exposure Risks

The growing awareness of the risks associated with radiation exposure among both healthcare professionals and patients is another driver behind the increasing demand for radiation safety measures. Educational initiatives and research on the long-term effects of radiation exposure have heightened the focus on preventive measures. For instance, the National Dose Registry (NDR) in Canada monitors radiation exposure among workers and provides valuable data to support safety initiatives. As concerns about radiation-related health risks continue to rise, healthcare providers are investing in comprehensive radiation monitoring systems to safeguard their staff and patients. This heightened awareness, coupled with the increasing focus on patient safety, propels the market forward.

Regulatory and Safety Standards

Government regulations and safety standards are critical in shaping the demand for medical radiation detection and monitoring systems. Regulatory bodies in Canada, such as Health Canada and the Canadian Nuclear Safety Commission, enforce stringent guidelines to ensure radiation safety in medical facilities. For instance, the Radiation Emitting Devices Act (REDA) sets specific requirements for radiation-emitting devices to ensure they do not pose health risks. These regulations compel healthcare providers to invest in state-of-the-art detection and monitoring technologies to meet compliance requirements. This regulatory landscape encourages the adoption of high-quality radiation safety equipment, contributing to the growth of the market.

Growing Demand for Advanced Healthcare Technologies

The increasing reliance on medical imaging and radiation-based treatments, such as X-rays, CT scans, and radiation therapies, is a key driver of the Canada Medical Radiation Detection, Monitoring & Safety market. As the healthcare sector continues to adopt cutting-edge technologies, there is a growing need for reliable radiation detection and monitoring systems. These systems ensure that both patients and healthcare professionals are protected from the harmful effects of excessive radiation exposure. As more hospitals and medical institutions integrate advanced technologies, the demand for radiation safety solutions rises, driving market expansion.

Technological Advancements in Detection Devices

Innovations in radiation detection technology are another significant driver of market growth. The development of more accurate, portable, and cost-effective radiation detectors has increased the adoption of these devices across medical institutions. Newer devices offer enhanced sensitivity, real-time monitoring, and integration with electronic health records, improving overall safety and efficiency. As these technologies become more advanced and accessible, healthcare providers are more likely to implement them, driving the demand for radiation safety solutions in Canada.

Market Trends

Integration of Digital Solutions and AI

The integration of digital technologies, including artificial intelligence (AI) and machine learning, is transforming radiation detection and safety practices. AI-enabled devices are capable of analyzing radiation data more efficiently, identifying patterns of exposure, and predicting potential risks. For instance, the Canadian Artificial Intelligence Safety Institute (CAISI) is part of the Government of Canada’s plan to support the safe and responsible development and deployment of AI, including in healthcare. This trend is making radiation monitoring systems smarter and more proactive, allowing healthcare professionals to take preventive actions before exposure reaches dangerous levels. The shift towards digital solutions is streamlining data collection, reporting, and analysis, improving overall safety management and decision-making within medical facilities.

Adoption of Wearable Radiation Monitoring Devices

A prominent trend in the Canada Medical Radiation Detection, Monitoring & Safety market is the growing adoption of wearable radiation monitoring devices. These portable devices offer real-time monitoring of radiation exposure for healthcare professionals working in environments with high radiation risks. Wearable detectors, such as personal dosimeters, are becoming essential tools in ensuring continuous safety and reducing the potential for overexposure. The ease of use and convenience offered by these devices are driving their widespread adoption, particularly in oncology and radiology departments, where radiation levels are critical to monitor.

Increased Focus on Radiation Safety Training and Awareness

Another key trend is the growing emphasis on radiation safety training and awareness programs for healthcare professionals. With the rise in radiation exposure risks, many Canadian healthcare institutions are investing in comprehensive training programs to educate staff on best practices in radiation protection. These programs focus on the proper use of radiation safety equipment, understanding radiation exposure limits, and implementing safety protocols. By fostering a culture of safety, these initiatives not only improve staff competency but also contribute to the overall demand for radiation detection and monitoring solutions.

Expansion of Radiation Safety Solutions in Remote and Rural Areas

As the demand for medical radiation detection and safety systems continues to rise, there is a noticeable trend toward expanding these solutions to remote and rural areas of Canada. Healthcare facilities in these regions are increasingly adopting advanced radiation detection technologies to ensure the safety of patients and workers. The availability of portable, cost-effective radiation safety devices is helping address the unique challenges faced by healthcare providers in underserved areas. This expansion is ensuring that high-quality radiation safety standards are upheld nationwide, further fueling the growth of the market.

Market Challenges Analysis

High Cost of Advanced Radiation Safety Equipment

One of the significant challenges in the Canada Medical Radiation Detection, Monitoring & Safety market is the high cost of advanced radiation detection and monitoring systems. The development of sophisticated, accurate, and portable devices often involves considerable investment, which can be a barrier for many healthcare institutions, particularly smaller or rural hospitals with limited budgets. The initial capital expenditure required for purchasing and maintaining these devices can be prohibitive, leading some medical facilities to delay or forgo upgrading their radiation safety equipment. Despite the long-term benefits, the high upfront cost remains a key challenge for widespread adoption.

Lack of Skilled Personnel and Training Resources

Another challenge facing the market is the shortage of skilled personnel and adequate training resources for effectively utilizing radiation safety equipment. While advancements in radiation detection technology are rapidly evolving, there remains a gap in the number of trained professionals who can operate these systems proficiently. Medical staff may lack specialized knowledge in radiation protection, and without proper training, they may not fully leverage the capabilities of these advanced monitoring devices. For instance, the National Dose Registry (NDR) in Canada monitors radiation exposure among workers and provides valuable data to support safety initiatives. This issue is further compounded in remote and rural areas, where access to training programs and certified experts is limited. Consequently, the need for more comprehensive and accessible training initiatives is crucial to overcoming this barrier and ensuring the proper usage of radiation safety solutions.

Market Opportunities

Expansion of Healthcare Infrastructure

One of the key market opportunities for the Canada Medical Radiation Detection, Monitoring & Safety market lies in the expansion of healthcare infrastructure, particularly in underserved regions. As Canada continues to invest in healthcare development, including the construction of new hospitals, diagnostic centers, and cancer treatment facilities, there is an increasing need for advanced radiation safety systems. With growing demand for diagnostic imaging and radiation therapies, healthcare providers in remote and rural areas are seeking cost-effective and reliable radiation detection technologies. This offers a significant opportunity for companies to introduce portable, budget-friendly radiation safety solutions that cater to these markets while ensuring compliance with national safety standards.

Technological Advancements and Custom Solutions

The continuous advancements in radiation detection technology present another opportunity for growth in the market. Innovations such as real-time monitoring, AI integration, and wearable devices have the potential to transform radiation safety protocols. Companies can seize this opportunity by developing customized solutions that cater to specific healthcare needs, such as those for oncology departments or radiology centers. Additionally, the integration of digital platforms for remote monitoring and data analysis is expanding the capabilities of radiation safety systems. These developments offer opportunities for new product launches and partnerships, as healthcare institutions seek more efficient, accurate, and user-friendly systems to enhance their radiation safety practices. As technology continues to evolve, the market will witness greater adoption of these innovative solutions, driving further growth.

Market Segmentation Analysis:

By Type:

The Canada Medical Radiation Detection, Monitoring & Safety market is segmented into three main types of radiation detectors: gas-filled detectors, scintillators, and solid-state detectors. Gas-filled detectors, commonly used for their high sensitivity and reliability, dominate the market due to their effectiveness in measuring ionizing radiation. They are widely used in diagnostic imaging and radiation therapy applications. Scintillators, known for their fast response times and precision, are also gaining traction, especially in high-energy environments like nuclear medicine. Their ability to detect radiation with minimal interference makes them an ideal choice for complex diagnostic procedures. Solid-state detectors, characterized by their compact size and durability, are increasingly being utilized in portable radiation monitoring devices. These detectors are gaining popularity due to their ability to offer high resolution and efficiency in radiation detection, particularly in portable and wearable applications. The variety of detection technologies provides healthcare providers with flexible solutions to address different safety requirements across the medical sector.

By Application:

In terms of application, the Canada Medical Radiation Detection, Monitoring & Safety market is primarily driven by radiation therapy, diagnostic imaging, and nuclear medicine. Radiation therapy remains a significant segment as it requires precise radiation monitoring to ensure patient safety and accurate treatment delivery. The increasing prevalence of cancer treatments contributes to the growth of this segment. Diagnostic imaging, including X-rays, CT scans, and fluoroscopy, continues to drive demand for radiation detection systems as these procedures often involve high radiation doses. As medical imaging becomes more sophisticated, the need for advanced radiation monitoring technologies grows. Nuclear medicine, which utilizes radioactive substances for diagnosis and treatment, also contributes to the market’s expansion. The growing focus on patient and healthcare worker safety in these high-risk environments has led to the increased adoption of radiation monitoring and detection systems, ensuring effective safety protocols across medical institutions in Canada.

Segments:

Based on Type:

  • Gas-Filled Detectors
  • Scintillators
  • Solid-State Detectors

Based on Application:

  • Radiation Therapy
  • Diagnostic Imaging
  • Nuclear Medicine

Based on End-user:

  • Hospitals
  • Diagnostic Centers
  • Ambulatory Surgical Centers

Based on the Geography:

  • Ontario
  • Quebec
  • Western Canada
  • British Columbia
  • Atlantic Canada

Regional Analysis

Ontario

Ontario holds the largest market share of approximately 38%, primarily due to its extensive healthcare infrastructure and large population. The region is home to many hospitals, diagnostic imaging centers, and cancer treatment facilities, all of which require reliable radiation safety systems. Additionally, Ontario is a hub for medical research and technological advancements, which further increases the demand for cutting-edge radiation detection devices. As the largest provincial market, Ontario continues to lead the adoption of radiation safety technologies, and ongoing investments in healthcare will likely drive this growth in the coming years.

Quebec

Quebec represents about 30% of the market share in Canada, benefiting from a well-developed healthcare sector and a strong focus on medical innovation. The province’s healthcare institutions are highly concentrated in urban areas, such as Montreal and Quebec City, where the demand for advanced radiation safety systems is particularly high. With a growing emphasis on maintaining high standards for radiation safety in medical treatments and diagnostic procedures, Quebec’s healthcare providers are increasingly adopting modern radiation detection and monitoring solutions. The province’s market share is expected to remain strong, supported by government initiatives and investments in medical technology.

Western Canada and British Columbia

Western Canada, including Alberta and Saskatchewan, holds approximately 18% of the market share, with British Columbia accounting for a significant portion of this. British Columbia has become a leader in integrating advanced healthcare technologies, driving the demand for radiation detection solutions in the region. The province’s growing population and healthcare infrastructure development contribute to this market share. Alberta’s expanding healthcare services and increasing number of radiation-based medical procedures are also fueling demand for radiation monitoring devices. Together, these provinces contribute significantly to the overall market growth, with a rising focus on patient safety and healthcare modernization.

Atlantic Canada

Atlantic Canada, consisting of Newfoundland and Labrador, Nova Scotia, New Brunswick, and Prince Edward Island, holds around 14% of the market share. Despite having a smaller healthcare infrastructure compared to other regions, the demand for radiation safety systems is growing steadily due to the increasing adoption of advanced medical technologies. The region’s healthcare providers are modernizing their facilities and adhering to stricter radiation safety standards, which has driven the rise in demand for reliable radiation detection and monitoring systems. As healthcare services continue to expand, Atlantic Canada’s market share is expected to increase, contributing to the overall growth of the Canadian market.

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Key Player Analysis

  • Mirion Technologies, Inc.
  • Thermo Fisher Scientific Inc.
  • Fluke Biomedical
  • Landauer, Inc.
  • Sun Nuclear Corporation
  • Ludlum Measurements, Inc.
  • Biodex Medical Systems, Inc.
  • Canberra Industries, Inc. (Mirion Technologies)
  • Infab Corporation
  • LabLogic Systems Ltd.

Competitive Analysis

The competitive landscape of the Canada Medical Radiation Detection, Monitoring & Safety market is characterized by the presence of several established players focusing on innovation, product development, and strategic partnerships to strengthen their market position. Leading companies in this market include Mirion Technologies, Thermo Fisher Scientific, Fluke Biomedical, Landauer, Inc., and Sun Nuclear Corporation. Market participants are focused on developing innovative products that offer enhanced precision, portability, and ease of use for radiation monitoring. For instance, advancements in machine learning algorithms have significantly improved the accuracy of radiation detection systems, enabling better discrimination between different types of radiation. Advanced systems with real-time data analytics and AI integration are becoming key differentiators, addressing the growing need for effective radiation detection and control. Companies are also leveraging strategic partnerships with healthcare providers and research institutions to strengthen their market presence and expand product reach. Innovation in wearable devices and compact detectors is a prominent trend, catering to the increasing demand for mobile and user-friendly safety systems. Additionally, adherence to stringent government safety regulations and certifications remains a critical factor in maintaining a competitive edge. Price competition, coupled with the need for customization, drives efforts to balance cost-efficiency and advanced performance. Overall, competitive strategies focus on technology leadership, regulatory compliance, and customer-centric solutions to capitalize on the expanding market for radiation safety technologies in Canada.

Recent Developments

  • In September 2024, Landauer released updates to its dosimetry account management platform, myLDR, including the Signature Suite for compliance documentation. This upgrade simplifies compliance workflows by enabling digital signatures, secure report archiving, and instant notifications for participants.
  • In April 2024, Mirion Technologies launched the InstadoseVUE wireless dosimeter, a next-generation wearable radiation monitoring device. This product features advanced wireless, processing, and communication technologies, providing stable connectivity, faster dose communication, and increased battery life. It also includes an electronic display for on-screen device status and dose communication insights, aiming to redefine radiation safety in workplaces.
  • In April 2024, Sun Nuclear Corporation announced the release of SunCHECK Version 5.0 software for comprehensive Quality Management in radiation therapy. The update introduced features such as plan feasibility evaluation, plan complexity metrics, and expanded device integration to optimize workflows and prioritize patient safety.
  • In May 2023, IBA Dosimetry GmbH launched DOSE-X, a next-generation reference class electrometer, in April 2023. This innovation was showcased at the ESTRO 2023 conference in May 2023, highlighting its high-precision technology, remote access capabilities, and API-driven functionality, setting new standards in the Absolute Dosimetry market.

Market Concentration & Characteristics

The Canada Medical Radiation Detection, Monitoring & Safety market exhibits a moderate to high level of market concentration, characterized by the presence of well-established companies dominating significant market shares alongside several specialized firms catering to niche applications. Leading players focus on technological innovation, offering comprehensive product portfolios that include advanced radiation detectors, monitoring systems, and safety equipment. These companies invest heavily in research and development to enhance product precision, portability, and user-friendliness, meeting the stringent safety standards mandated by healthcare regulations. Market characteristics are driven by the rising adoption of radiation-based medical procedures, including diagnostic imaging, radiation therapy, and nuclear medicine, which require reliable radiation safety systems. The market is also marked by a growing emphasis on integrating AI and data-driven solutions to improve monitoring accuracy and efficiency. Despite the dominance of major players, smaller firms compete by offering specialized products and customized solutions tailored to specific customer needs. Strategic partnerships, acquisitions, and collaborations with healthcare institutions further shape the competitive dynamics. Additionally, barriers to entry are relatively high due to stringent regulatory requirements and the need for advanced technological capabilities, reinforcing the concentration of key market participants. Overall, the market reflects a blend of innovation, regulatory adherence, and competitive strategies aimed at enhancing safety in medical radiation applications.

Report Coverage

The research report offers an in-depth analysis based on Type, Application, End-user and Geography. It details leading market players, providing an overview of their business, product offerings, investments, revenue streams, and key applications. Additionally, the report includes insights into the competitive environment, SWOT analysis, current market trends, as well as the primary drivers and constraints. Furthermore, it discusses various factors that have driven market expansion in recent years. The report also explores market dynamics, regulatory scenarios, and technological advancements that are shaping the industry. It assesses the impact of external factors and global economic changes on market growth. Lastly, it provides strategic recommendations for new entrants and established companies to navigate the complexities of the market.

Future Outlook

  1. The market is expected to witness steady growth driven by increasing adoption of radiation-based medical procedures.
  2. Technological advancements in AI-powered and real-time radiation monitoring systems will enhance safety standards.
  3. Rising investment in healthcare infrastructure will create significant demand for radiation detection solutions.
  4. Portable and wearable radiation detection devices are likely to gain popularity due to ease of use and mobility.
  5. Integration of data analytics for enhanced radiation monitoring accuracy will become a key trend.
  6. Stringent government regulations and safety standards will continue to drive the adoption of advanced safety technologies.
  7. Partnerships and collaborations between healthcare institutions and technology providers will boost market expansion.
  8. High initial costs may limit adoption in smaller healthcare facilities, creating opportunities for cost-effective innovations.
  9. Increased awareness about radiation safety will fuel demand for modern monitoring and detection systems.
  10. The market will remain competitive, with key players focusing on innovation and customer-centric solutions to gain an edge.

CHAPTER NO. 1 : INTRODUCTION ERROR! BOOKMARK NOT DEFINED.

1.1.1. Report Description Error! Bookmark not defined.

Purpose of the Report Error! Bookmark not defined.

USP & Key Offerings 19

1.1.2. Key Benefits for Stakeholders 19

1.1.3. Target Audience 20

1.1.4. Report Scope 20

CHAPTER NO. 2 : EXECUTIVE SUMMARY 21

2.1. Medical Radiation Detection, Monitoring & Safety Market Snapshot 21

2.1.1. CANADA Medical Radiation Detection, Monitoring & Safety Market, 2018 – 2032 (USD Million) 22

CHAPTER NO. 3 : GEOPOLITICAL CRISIS IMPACT ANALYSIS 23

3.1. Russia-Ukraine and Israel-Palestine War Impacts 23

CHAPTER NO. 4 : MEDICAL RADIATION DETECTION, MONITORING & SAFETY MARKET – INDUSTRY ANALYSIS 24

4.1. Introduction 24

4.2. Market Drivers 25

4.2.1. Increasing usage of radiation therapy for cancer treatment 25

4.2.2. Rising adoption of safety measures and stringent regulations for radiation protection 26

4.3. Market Restraints 27

4.3.1. High cost associated with advanced radiation detection and monitoring devices 27

4.4. Market Opportunities 28

4.4.1. Growing demand for radiation safety solutions in emerging economies 28

4.5. Porter’s Five Forces Analysis 29

4.6. Buying Criteria 30

CHAPTER NO. 5 : IMPORT EXPORT ANALYSIS 31

5.1. Import Analysis by CANADA 31

5.1.1. CANADA Medical Radiation Detection, Monitoring & Safety Market Import Volume/Revenue, By CANADA, 2018 – 2023 31

5.2. Export Analysis by CANADA 32

5.2.1. CANADA Medical Radiation Detection, Monitoring & Safety Market Export Volume/Revenue, By CANADA, 2018 – 2023 32

CHAPTER NO. 6 : DEMAND SUPPLY ANALYSIS 33

6.1. Demand Analysis by CANADA 33

6.1.1. CANADA Medical Radiation Detection, Monitoring & Safety Market Demand Volume/Revenue, By CANADA, 2018 – 2023 33

6.2. Supply Analysis by CANADA 34

6.2.1. CANADA Medical Radiation Detection, Monitoring & Safety Market Supply Volume/Revenue, By CANADA, 2018 – 2023 34

CHAPTER NO. 7 : PRODUCTION ANALYSIS 35

7.1. Production Analysis by CANADA 35

7.1.1. CANADA Medical Radiation Detection, Monitoring & Safety Market Production Volume/Revenue, By CANADA, 2018 – 2023 35

CHAPTER NO. 8 : PRICE ANALYSIS 36

8.1. Price Analysis by Type 36

8.1.1. CANADA Medical Radiation Detection, Monitoring & Safety Market Price, By Type, 2018 – 2023 36

8.1.2. CANADA Type Market Price, By Type, 2018 – 2023 36

CHAPTER NO. 9 : RAW MATERIALS ANALYSIS 37

9.1. Key Raw Materials and Suppliers 37

9.2. Key Raw Materials Price Trend 37

CHAPTER NO. 10 : MANUFACTURING COST ANALYSIS 38

10.1. Manufacturing Cost Analysis 38

10.2. Manufacturing Process 38

CHAPTER NO. 11 : ANALYSIS COMPETITIVE LANDSCAPE 39

11.1. Company Market Share Analysis – 2023 39

11.2. Value Chain Analysis 39

11.2.1. CANADA Medical Radiation Detection, Monitoring & Safety Market: Company Market Share, by Volume, 2023 40

11.2.2. CANADA Medical Radiation Detection, Monitoring & Safety Market: Company Market Share, by Revenue, 2023 41

11.2.3. CANADA Medical Radiation Detection, Monitoring & Safety Market: Top 6 Company Market Share, by Revenue, 2023 41

11.2.4. CANADA Medical Radiation Detection, Monitoring & Safety Market: Top 3 Company Market Share, by Revenue, 2023 42

11.3. CANADA Medical Radiation Detection, Monitoring & Safety Market Company Volume Market Share, 2023 43

11.4. CANADA Medical Radiation Detection, Monitoring & Safety Market Company Revenue Market Share, 2023 44

11.5. Company Assessment Metrics, 2023 44

11.5.1. Stars 44

11.5.2. Emerging Leaders 44

11.5.3. Pervasive Players 44

11.5.4. Participants 44

11.6. Start-ups /SMEs Assessment Metrics, 2023 44

11.6.1. Progressive Companies 45

11.6.2. Responsive Companies 45

11.6.3. Dynamic Companies 45

11.6.4. Starting Blocks 45

11.7. Strategic Developments 46

11.7.1. Acquisitions & Mergers 46

New Product Launch 46

CANADA Expansion 46

11.8. Key Players Product Matrix 47

CHAPTER NO. 12 : PESTEL & ADJACENT MARKET ANALYSIS 48

12.1. PESTEL 48

12.1.1. Political Factors 48

12.1.2. Economic Factors 48

12.1.3. Social Factors 48

12.1.4. Technological Factors 48

12.1.5. Environmental Factors 48

12.1.6. Legal Factors 48

12.2. Adjacent Market Analysis 48

CHAPTER NO. 13 : MEDICAL RADIATION DETECTION, MONITORING & SAFETY MARKET – BY TYPE SEGMENT ANALYSIS 49

13.1. Medical Radiation Detection, Monitoring & Safety Market Overview, by Type Segment 49

13.1.1. Medical Radiation Detection, Monitoring & Safety Market Revenue Share, By Type, 2023 & 2032 50

13.1.2. Medical Radiation Detection, Monitoring & Safety Market Attractiveness Analysis, By Type 51

13.1.3. Incremental Revenue Growth Opportunity, by Type, 2024 – 2032 51

13.1.4. Medical Radiation Detection, Monitoring & Safety Market Revenue, By Type, 2018, 2023, 2027 & 2032 52

13.2. Gas-Filled Detectors 53

13.3. Scintillators 54

13.4. Solid-State Detectors 55

CHAPTER NO. 14 : MEDICAL RADIATION DETECTION, MONITORING & SAFETY MARKET – BY APPLICATION SEGMENT ANALYSIS 56

14.1. Medical Radiation Detection, Monitoring & Safety Market Overview, by Application Segment 56

14.1.1. Medical Radiation Detection, Monitoring & Safety Market Revenue Share, By Application, 2023 & 2032 57

14.1.2. Medical Radiation Detection, Monitoring & Safety Market Attractiveness Analysis, By Application 58

14.1.3. Incremental Revenue Growth Opportunity, by Application, 2024 – 2032 58

14.1.4. Medical Radiation Detection, Monitoring & Safety Market Revenue, By Application, 2018, 2023, 2027 & 2032 59

14.2. Radiation Therapy 60

14.3. Diagnostic Imaging 61

14.4. Nuclear Medicine 62

CHAPTER NO. 15 : MEDICAL RADIATION DETECTION, MONITORING & SAFETY MARKET – BY END-USER SEGMENT ANALYSIS 63

15.1. Medical Radiation Detection, Monitoring & Safety Market Overview, by End-user Segment 63

15.1.1. Medical Radiation Detection, Monitoring & Safety Market Revenue Share, By End-user, 2023 & 2032 64

15.1.2. Medical Radiation Detection, Monitoring & Safety Market Attractiveness Analysis, By End-user 65

15.1.3. Incremental Revenue Growth Opportunity, by End-user, 2024 – 2032 65

15.1.4. Medical Radiation Detection, Monitoring & Safety Market Revenue, By End-user, 2018, 2023, 2027 & 2032 66

15.2. Hospitals 67

15.3. Diagnostic Centers 68

15.4. Ambulatory Surgical Centers 69

CHAPTER NO. 16 : MEDICAL RADIATION DETECTION, MONITORING & SAFETY MARKET – CANADA ANALYSIS 70

16.1. Type 70

16.1.1. CANADA Medical Radiation Detection, Monitoring & Safety Market Revenue, By Type, 2018 – 2023 (USD Million) 70

16.2. CANADA Medical Radiation Detection, Monitoring & Safety Market Revenue, By Type, 2024 – 2032 (USD Million) 70

16.3. Application 71

16.3.1. CANADA Medical Radiation Detection, Monitoring & Safety Market Revenue, By Application, 2018 – 2023 (USD Million) 71

16.3.2. CANADA Medical Radiation Detection, Monitoring & Safety Market Revenue, By Application, 2024 – 2032 (USD Million) 71

16.4. End-user 72

16.4.1. CANADA Medical Radiation Detection, Monitoring & Safety Market Revenue, By End-user, 2018 – 2023 (USD Million) 72

16.4.2. CANADA Medical Radiation Detection, Monitoring & Safety Market Revenue, By End-user, 2024 – 2032 (USD Million) 72

CHAPTER NO. 17 : COMPANY PROFILES 73

17.1. Mirion Technologies, Inc. 73

17.1.1. Company Overview 73

17.1.2. Product Portfolio 73

17.1.3. Swot Analysis 73

17.1.4. Business Strategy 74

17.1.5. Financial Overview 74

17.2. Thermo Fisher Scientific Inc. 75

17.3. Fluke Biomedical 75

17.4. Landauer, Inc. 75

17.5. Sun Nuclear Corporation 75

17.6. Ludlum Measurements, Inc. 75

17.7. Biodex Medical Systems, Inc. 75

17.8. Canberra Industries, Inc. (Mirion Technologies) 75

17.9. Infab Corporation 75

17.10. LabLogic Systems Ltd. 75

List of Figures

FIG NO. 1. CANADA Medical Radiation Detection, Monitoring & Safety Market Revenue, 2018 – 2032 (USD Million) 22

FIG NO. 2. Porter’s Five Forces Analysis for CANADA Medical Radiation Detection, Monitoring & Safety Market 29

FIG NO. 3. CANADA Medical Radiation Detection, Monitoring & Safety Market Import Volume/Revenue, By CANADA, 2018 – 2023 31

FIG NO. 4. CANADA Medical Radiation Detection, Monitoring & Safety Market Export Volume/Revenue, By CANADA, 2018 – 2023 32

FIG NO. 5. CANADA Medical Radiation Detection, Monitoring & Safety Market Demand Volume/Revenue, By CANADA, 2018 – 2023 33

FIG NO. 6. CANADA Medical Radiation Detection, Monitoring & Safety Market Supply Volume/Revenue, By CANADA, 2018 – 2023 34

FIG NO. 7. CANADA Medical Radiation Detection, Monitoring & Safety Market Production Volume/Revenue, By CANADA, 2018 – 2023 35

FIG NO. 8. CANADA Medical Radiation Detection, Monitoring & Safety Market Price, By Type, 2018 – 2023 36

FIG NO. 9. Raw Materials Price Trend Analysis, 2018 – 2023 37

FIG NO. 10. Manufacturing Cost Analysis 38

FIG NO. 11. Manufacturing Process 38

FIG NO. 12. Value Chain Analysis for CANADA Medical Radiation Detection, Monitoring & Safety Market 39

FIG NO. 13. Company Share Analysis, 2023 40

FIG NO. 14. Company Share Analysis, 2023 41

FIG NO. 15. Company Share Analysis, 2023 41

FIG NO. 16. Company Share Analysis, 2023 42

FIG NO. 17. Medical Radiation Detection, Monitoring & Safety Market – Company Volume  Market Share, 2023 43

FIG NO. 18. Medical Radiation Detection, Monitoring & Safety Market – Company Revenue Market Share, 2023 44

FIG NO. 19. Medical Radiation Detection, Monitoring & Safety Market Revenue Share, By Type, 2023 & 2032 50

FIG NO. 20. Market Attractiveness Analysis, By Type 51

FIG NO. 21. Incremental Revenue Growth Opportunity by Type, 2024 – 2032 51

FIG NO. 22. Medical Radiation Detection, Monitoring & Safety Market Revenue, By Type, 2018, 2023, 2027 & 2032 52

FIG NO. 23. CANADA Medical Radiation Detection, Monitoring & Safety Market for Gas-Filled Detectors, Revenue (USD Million) 2018 – 2032 53

FIG NO. 24. CANADA Medical Radiation Detection, Monitoring & Safety Market for Scintillators, Revenue (USD Million) 2018 – 2032 54

FIG NO. 25. CANADA Medical Radiation Detection, Monitoring & Safety Market for Solid-State Detectors, Revenue (USD Million) 2018 – 2032 55

FIG NO. 26. Medical Radiation Detection, Monitoring & Safety Market Revenue Share, By Application, 2023 & 2032 57

FIG NO. 27. Market Attractiveness Analysis, By Application 58

FIG NO. 28. Incremental Revenue Growth Opportunity by Application, 2024 – 2032 58

FIG NO. 29. Medical Radiation Detection, Monitoring & Safety Market Revenue, By Application, 2018, 2023, 2027 & 2032 59

FIG NO. 30. CANADA Medical Radiation Detection, Monitoring & Safety Market for Radiation Therapy, Revenue (USD Million) 2018 – 2032 60

FIG NO. 31. CANADA Medical Radiation Detection, Monitoring & Safety Market for Diagnostic Imaging, Revenue (USD Million) 2018 – 2032 61

FIG NO. 32. CANADA Medical Radiation Detection, Monitoring & Safety Market for Nuclear Medicine, Revenue (USD Million) 2018 – 2032 62

FIG NO. 33. Medical Radiation Detection, Monitoring & Safety Market Revenue Share, By End-user, 2023 & 2032 64

FIG NO. 34. Market Attractiveness Analysis, By End-user 65

FIG NO. 35. Incremental Revenue Growth Opportunity by End-user, 2024 – 2032 65

FIG NO. 36. Medical Radiation Detection, Monitoring & Safety Market Revenue, By End-user, 2018, 2023, 2027 & 2032 66

FIG NO. 37. CANADA Medical Radiation Detection, Monitoring & Safety Market for Hospitals, Revenue (USD Million) 2018 – 2032 67

FIG NO. 38. CANADA Medical Radiation Detection, Monitoring & Safety Market for Diagnostic Centers, Revenue (USD Million) 2018 – 2032 68

FIG NO. 39. CANADA Medical Radiation Detection, Monitoring & Safety Market for Ambulatory Surgical Centers, Revenue (USD Million) 2018 – 2032 69

 

Frequently Asked Questions

What is the current size of the Canada Medical Radiation Detection, Monitoring & Safety Market?

The Canada Medical Radiation Detection, Monitoring & Safety market was valued at USD 113.14 million in 2023 and is projected to reach USD 191.67 million by 2032, growing at a compound annual growth rate (CAGR) of 6.81%.

What factors are driving the growth of the Canada Medical Radiation Detection, Monitoring & Safety Market?

Growth drivers include the increasing adoption of radiation-based medical procedures, rising awareness of radiation exposure risks, and stringent government regulations enforcing safety standards. Additionally, advancements in portable and AI-integrated radiation detection technologies, coupled with investments in healthcare infrastructure, are propelling the market forward.

What are the key segments within the Canada Medical Radiation Detection, Monitoring & Safety Market?

The market is segmented by:
• Type: Gas-filled detectors, scintillators, and solid-state detectors.
• Application: Radiation therapy, diagnostic imaging, and nuclear medicine.
• End-User: Hospitals, diagnostic centers, and ambulatory surgical centers.
• Geography: Key provinces include Ontario, Quebec, Western Canada, British Columbia, and Atlantic Canada.

What are some challenges faced by the Canada Medical Radiation Detection, Monitoring & Safety Market?

Challenges include the high cost of advanced radiation detection systems, limiting adoption in smaller healthcare facilities, and a shortage of skilled personnel to operate and maintain these technologies. Additionally, limited training resources in remote and rural areas hinder the effective implementation of radiation safety protocols.

Who are the major players in the Canada Medical Radiation Detection, Monitoring & Safety Market?

Key players include Mirion Technologies, Inc., Thermo Fisher Scientific Inc., Fluke Biomedical, Landauer, Inc., Sun Nuclear Corporation, Ludlum Measurements, Inc., Biodex Medical Systems, Inc., Canberra Industries, Inc. (Mirion Technologies), Infab Corporation, and LabLogic Systems Ltd. These companies focus on technological innovation and strategic partnerships to strengthen their market presence.

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