Medical Radiation Detection Market Forecasts to 2030 – Global Analysis By Product (Personal Dosimeters, Area Process Monitors and Other Products), By Detector Type (Gas-filled Detectors, Scintillators and Solid-state Detectors), Safety Type, Application,

Medical Radiation Detection Market Forecasts to 2030 – Global Analysis By Product (Personal Dosimeters, Area Process Monitors and Other Products), By Detector Type (Gas-filled Detectors, Scintillators and Solid-state Detectors), Safety Type, Application, End User and By Geography


According to Stratistics MRC, the Global Medical Radiation Detection Market is accounted for $1034.24 million in 2023 and is expected to reach $1952.19 million by 2030 growing at a CAGR of 9.5% during the forecast period. Medical radiation detection involves the use of specialised devices to monitor, measure and detect ionising radiation levels in medical settings. These instruments ensure safety by tracking radiation exposure, assessing dosage during treatments like X-rays, CT scans, or radiation therapy and safeguarding both patients and healthcare professionals from potential overexposure to radiation.

According to NHS England, 42.7 million imaging tests were registered in England in March 2018, compared to 42.1 million in 2017, an increase of 1.4%.

Market Dynamics:

Driver:

Growing usage of nuclear medicine and radiation therapy

The increasing adoption of nuclear medicine and radiation therapy in diagnosing and treating various medical conditions has fueled the demand for advanced medical radiation detection technologies. These modalities, such as PET scans, SPECT scans, and radiation therapy, rely on ionising radiation. As their usage grows, there's a parallel need for precise and sensitive detection systems to monitor radiation levels, ensure accurate dosage delivery, and guarantee the safety of patients and healthcare workers. This surge propels innovation and investment in the medical radiation detection market for more efficient and reliable detection solutions.

Restraint:

High cost of equipment

Advanced technology and stringent regulatory standards drive up the expenses associated with developing, manufacturing, and maintaining radiation detection devices. These costs often trickle down to healthcare facilities, making it challenging for smaller clinics or resource-limited settings to afford cutting-edge detection systems. This financial barrier limits widespread adoption, hindering accessibility to state-of-the-art detection technology and potentially impacting the overall effectiveness of radiation safety measures in medical settings.

Opportunity:

Growing adoption of telehealth

The growing adoption of telehealth presents an opportunity in the medical radiation detection market due to its integration with remote diagnostics and treatments. As telehealth expands, there is a need for accurate radiation monitoring tools. These devices become crucial in ensuring patient safety by remotely assessing radiation exposure during telemedicine sessions involving imaging or radiation therapies. Innovations in radiation detection technologies catering to telehealth settings offer a chance for companies to develop portable, user-friendly, and precise detectors, thereby tapping into this evolving market demand.

Threat:

Lack of awareness in developing countries

Limited education and resources hinder the adoption of proper radiation safety measures and the understanding of detection technologies. This can lead to increased risks of overexposure to radiation for both patients and healthcare workers, impacting their health. Additionally, the absence of stringent regulations and insufficient infrastructure investment further exacerbate this issue, potentially resulting in higher incidences of radiation-related health complications and impeding the market's growth due to a lack of demand for advanced detection solutions.

Covid-19 Impact:

The COVID-19 pandemic has impacted the medical radiation detection market by disrupting healthcare services and delaying non-essential procedures. Supply chain disruptions affected the availability of detection devices, leading to potential shortages. Additionally, financial constraints on healthcare budgets slowed down the adoption of advanced detection technologies. The focus on pandemic-related priorities shifted attention away from radiation safety concerns, influencing market dynamics and growth during the crisis period.

The gas-filled detectors segment is expected to be the largest during the forecast period

Gas-filled detectors are projected to dominate the medical radiation detection market due to their high sensitivity, reliability and versatility in detecting various types of radiation. Their ability to precisely measure radiation levels in real-time across different medical procedures, such as X-rays and nuclear medicine, contributes to their widespread adoption. Additionally, advancements in gas-filled detector technology, offering improved efficiency and accuracy in radiation detection while ensuring cost-effectiveness, further solidify their position as the leading segment in the market's forecasted growth trajectory.

The full-body protection segment is expected to have the highest CAGR during the forecast period

The full-body protection segment is anticipated to demonstrate the highest CAGR due to escalating concerns regarding radiation exposure across medical procedures. Heightened awareness about the long-term risks of radiation has amplified the demand for comprehensive protective gear among healthcare professionals. As safety protocols become more stringent, the need for advanced, full-body protection, encompassing shielding garments and equipment, is increasing. This surge in demand for robust radiation shielding solutions, aimed at minimising radiation exposure, is projected to drive the segment's rapid growth.

Region with largest share:

North America is poised to claim the largest market share, owing to its advanced healthcare infrastructure, high adoption of cutting-edge technologies and stringent safety regulations. The region's well-established healthcare systems emphasise radiation safety protocols, propelling the demand for sophisticated detection devices. Additionally, the presence of key market players and continuous research and development activities contribute to the dominance of North America.

Region with highest CAGR:

The Asia-Pacific region is poised for substantial growth in the market due to rapid technological advancements, increasing healthcare infrastructure development and rising awareness about radiation safety measures, which are driving market expansion. Additionally, the growing prevalence of chronic diseases requiring radiation-based diagnostic and therapeutic procedures fuels demand. Moreover, governmental initiatives focusing on healthcare modernization and the adoption of advanced medical technologies further propel the market.

Key players in the market

Some of the key players in Medical Radiation Detection Market include AmRay Medical, Anritsu Infivis, Arrow-Tech, Inc., Berthold Technologies, Biodex Medical Systems, Eckert & Ziegler, Fluke Biomedical, IBA Dosimetry, Landauer, Inc., Ludlum Measurements, Inc., Mirion Technologies Inc, Polimaster, Radiation Detection Company, S.E. International, Inc., Saphymo, Sun Nuclear Corporation and Thermo Fisher Scientific.

Key Developments:

In November 2023, Mirion, announced that it will debut the new Instadose®VUE personal dosimeter, from its Dosimetry Services brand, at the 2023 Radiological Society of North America (RSNA) Meeting starting Sunday in Chicago, Illinois. Mirion Dosimetry Services joins Sun Nuclear, Capintec, and Biodex medical imaging brands in the Mirion Medical booth (#6328) at RSNA, which will feature products and services for occupational dosimetry, diagnostic imaging QA, nuclear medicine, and medical imaging tables and accessories.

In November 2023, Thermo Fisher Scientific Inc., the world leader in serving science, and Flagship Pioneering, the bioplatform innovation company, today announced the formation of a strategic partnership to develop and commercially scale multiproduct platforms on an accelerated basis.

In October 2023, Thermo Fisher Scientific Inc. (“Thermo Fisher”), the world leader in serving science, and Olink Holding AB (publ) (“Olink”), a leading provider of next-generation proteomics solutions, today announced that their respective boards of directors have approved Thermo Fisher’s proposal to acquire Olink for $26.00 per common share in cash, representing $26.00 per American Depositary Share (ADS) in cash. The transaction values Olink at approximately $3.1 billion which includes net cash of approximately $143 million.

Products Covered:
• Personal Dosimeters
• Area Process Monitors
• Environment Radiation Monitors
• Surface Contamination Monitors
• Radioactive Material Monitors
• Other Products
Detector Types Covered:
• Gas-filled Detectors• Scintillators
• Solid-state Detectors

Safety Types Covered:
• Full-body Protection
• Face Protection
• Hand Safety
• Other Safety Types

Applications Covered:
• Diagnostic Radiology
• Environmental Monitoring
• Interventional Radiology
• Nuclear Medicine
• Radiation Therapy
• Other Applications

End Users Covered:
• Hospitals
• Clinics
• Research Laboratories
• Government Agencies
• Other End Users

Regions Covered:
• North America
US
Canada
Mexico
• Europe
Germany
UK
Italy
France
Spain
Rest of Europe
• Asia Pacific
JapanChinaIndiaAustralia
New Zealand
South Korea
Rest of Asia Pacific• South America
Argentina
Brazil
Chile
Rest of South America
• Middle East & Africa
Saudi Arabia
UAE
Qatar
South Africa
Rest of Middle East & Africa

What our report offers:
- Market share assessments for the regional and country-level segments
- Strategic recommendations for the new entrants
- Covers Market data for the years 2021, 2022, 2023, 2026, and 2030
- Market Trends (Drivers, Constraints, Opportunities, Threats, Challenges, Investment Opportunities, and recommendations)
- Strategic recommendations in key business segments based on the market estimations
- Competitive landscaping mapping the key common trends
- Company profiling with detailed strategies, financials, and recent developments
- Supply chain trends mapping the latest technological advancements

Benchmarking of key players based on product portfolio, geographical presence, and strategic alliances


1 Executive Summary
2 Preface
2.1 Abstract
2.2 Stake Holders
2.3 Research Scope
2.4 Research Methodology
2.4.1 Data Mining
2.4.2 Data Analysis
2.4.3 Data Validation
2.4.4 Research Approach
2.5 Research Sources
2.5.1 Primary Research Sources
2.5.2 Secondary Research Sources
2.5.3 Assumptions
3 Market Trend Analysis
3.1 Introduction
3.2 Drivers
3.3 Restraints
3.4 Opportunities
3.5 Threats
3.6 Product Analysis
3.7 Application Analysis
3.8 End User Analysis
3.9 Emerging Markets
3.10 Impact of Covid-19
4 Porters Five Force Analysis
4.1 Bargaining power of suppliers
4.2 Bargaining power of buyers
4.3 Threat of substitutes
4.4 Threat of new entrants
4.5 Competitive rivalry
5 Global Medical Radiation Detection Market, By Product
5.1 Introduction
5.2 Personal Dosimeters
5.2.1 Passive Dosimeters
5.2.1.1 Optically Stimulated Luminescence (OSL) Dosimeters
5.2.1.2 Thermoluminescent Dosimeters (TLD)
5.2.1.3 Film Badges
5.2.2 Active Dosimeters
5.2.2.1 Electronic Dosimeters
5.2.2.2 Real-time Dosimeters
5.2.2.3 Direct-reading Dosimeters
5.3 Area Process Monitors
5.4 Environment Radiation Monitors
5.5 Surface Contamination Monitors
5.6 Radioactive Material Monitors
5.7 Other Products
6 Global Medical Radiation Detection Market, By Detector Type
6.1 Introduction
6.2 Gas-filled Detectors
6.2.1 Geiger-Muller Counters
6.2.2 Ionization Chambers
6.2.3 Proportional Counters
6.3 Scintillators
6.3.1 Inorganic Scintillators
6.3.2 Organic Scintillators
6.3.3 Gaseous Scintillators
6.3.4 Liquid Scintillators
6.4 Solid-state Detectors
6.4.1 Semiconductor Detectors
6.4.1.1 Silicon (Si) Detectors
6.4.1.2 Germanium (Ge) Detectors
6.4.1.3 Cadmium Telluride (CdTe) Detectors
6.4.2 Scintillation Detectors
6.4.2.1 Sodium Iodide (NaI(Tl)) Detectors
6.4.2.2 Bismuth Germanate (BGO) Detectors
6.4.3 Diamond Detectors
6.4.4 Other Solid-state Detectors
7 Global Medical Radiation Detection Market, By Safety Type
7.1 Introduction
7.2 Full-body Protection
7.2.1 Aprons
7.2.2 Barriers and Shields
7.3 Face Protection
7.3.1 Eye Wear
7.3.2 Face Masks
7.4 Hand Safety
7.4.1 Gloves
7.4.2 Attenuating Sleeves
7.5 Other Safety Types
8 Global Medical Radiation Detection Market, By Application
8.1 Introduction
8.2 Diagnostic Radiology
8.3 Environmental Monitoring
8.4 Interventional Radiology
8.5 Nuclear Medicine
8.6 Radiation Therapy
8.7 Other Applications
9 Global Medical Radiation Detection Market, By End User
9.1 Introduction
9.2 Hospitals
9.3 Clinics
9.4 Research Laboratories
9.5 Government Agencies
9.6 Other End Users
10 Global Medical Radiation Detection Market, By Geography
10.1 Introduction
10.2 North America
10.2.1 US
10.2.2 Canada
10.2.3 Mexico
10.3 Europe
10.3.1 Germany
10.3.2 UK
10.3.3 Italy
10.3.4 France
10.3.5 Spain
10.3.6 Rest of Europe
10.4 Asia Pacific
10.4.1 Japan
10.4.2 China
10.4.3 India
10.4.4 Australia
10.4.5 New Zealand
10.4.6 South Korea
10.4.7 Rest of Asia Pacific
10.5 South America
10.5.1 Argentina
10.5.2 Brazil
10.5.3 Chile
10.5.4 Rest of South America
10.6 Middle East & Africa
10.6.1 Saudi Arabia
10.6.2 UAE
10.6.3 Qatar
10.6.4 South Africa
10.6.5 Rest of Middle East & Africa
11 Key Developments
11.1 Agreements, Partnerships, Collaborations and Joint Ventures
11.2 Acquisitions & Mergers
11.3 New Product Launch
11.4 Expansions
11.5 Other Key Strategies
12 Company Profiling
12.1 AmRay Medical
12.2 Anritsu Infivis
12.3 Arrow-Tech, Inc.
12.4 Berthold Technologies
12.5 Biodex Medical Systems
12.6 Eckert & Ziegler
12.7 Fluke Biomedical
12.8 IBA Dosimetry
12.9 Landauer, Inc.
12.10 Ludlum Measurements, Inc.
12.11 Mirion Technologies Inc
12.12 Polimaster
12.13 Radiation Detection Company
12.14 S.E. International, Inc.
12.15 Saphymo
12.16 Sun Nuclear Corporation
12.17 Thermo Fisher Scientific
List of Tables
Table 1 Global Medical Radiation Detection Market Outlook, By Region (2021-2030) ($MN)
Table 2 Global Medical Radiation Detection Market Outlook, By Product (2021-2030) ($MN)
Table 3 Global Medical Radiation Detection Market Outlook, By Personal Dosimeters (2021-2030) ($MN)
Table 4 Global Medical Radiation Detection Market Outlook, By Passive Dosimeters (2021-2030) ($MN)
Table 5 Global Medical Radiation Detection Market Outlook, By Optically Stimulated Luminescence (OSL) Dosimeters (2021-2030) ($MN)
Table 6 Global Medical Radiation Detection Market Outlook, By Thermoluminescent Dosimeters (TLD) (2021-2030) ($MN)
Table 7 Global Medical Radiation Detection Market Outlook, By Film Badges (2021-2030) ($MN)
Table 8 Global Medical Radiation Detection Market Outlook, By Active Dosimeters (2021-2030) ($MN)
Table 9 Global Medical Radiation Detection Market Outlook, By Electronic Dosimeters (2021-2030) ($MN)
Table 10 Global Medical Radiation Detection Market Outlook, By Real-time Dosimeters (2021-2030) ($MN)
Table 11 Global Medical Radiation Detection Market Outlook, By Direct-reading Dosimeters (2021-2030) ($MN)
Table 12 Global Medical Radiation Detection Market Outlook, By Area Process Monitors (2021-2030) ($MN)
Table 13 Global Medical Radiation Detection Market Outlook, By Environment Radiation Monitors (2021-2030) ($MN)
Table 14 Global Medical Radiation Detection Market Outlook, By Surface Contamination Monitors (2021-2030) ($MN)
Table 15 Global Medical Radiation Detection Market Outlook, By Radioactive Material Monitors (2021-2030) ($MN)
Table 16 Global Medical Radiation Detection Market Outlook, By Other Products (2021-2030) ($MN)
Table 17 Global Medical Radiation Detection Market Outlook, By Detector Type (2021-2030) ($MN)
Table 18 Global Medical Radiation Detection Market Outlook, By Gas-filled Detectors (2021-2030) ($MN)
Table 19 Global Medical Radiation Detection Market Outlook, By Geiger-Muller Counters (2021-2030) ($MN)
Table 20 Global Medical Radiation Detection Market Outlook, By Ionization Chambers (2021-2030) ($MN)
Table 21 Global Medical Radiation Detection Market Outlook, By Proportional counters (2021-2030) ($MN)
Table 22 Global Medical Radiation Detection Market Outlook, By Scintillators (2021-2030) ($MN)
Table 23 Global Medical Radiation Detection Market Outlook, By Inorganic Scintillators (2021-2030) ($MN)
Table 24 Global Medical Radiation Detection Market Outlook, By Organic Scintillators (2021-2030) ($MN)
Table 25 Global Medical Radiation Detection Market Outlook, By Gaseous Scintillators (2021-2030) ($MN)
Table 26 Global Medical Radiation Detection Market Outlook, By Liquid Scintillators (2021-2030) ($MN)
Table 27 Global Medical Radiation Detection Market Outlook, By Solid-state Detectors (2021-2030) ($MN)
Table 28 Global Medical Radiation Detection Market Outlook, By Semiconductor Detectors (2021-2030) ($MN)
Table 29 Global Medical Radiation Detection Market Outlook, By Silicon (Si) Detectors (2021-2030) ($MN)
Table 30 Global Medical Radiation Detection Market Outlook, By Germanium (Ge) Detectors (2021-2030) ($MN)
Table 31 Global Medical Radiation Detection Market Outlook, By Cadmium Telluride (CdTe) Detectors (2021-2030) ($MN)
Table 32 Global Medical Radiation Detection Market Outlook, By Scintillation Detectors (2021-2030) ($MN)
Table 33 Global Medical Radiation Detection Market Outlook, By Sodium Iodide (NaI(Tl)) Detectors (2021-2030) ($MN)
Table 34 Global Medical Radiation Detection Market Outlook, By Bismuth Germanate (BGO) Detectors (2021-2030) ($MN)
Table 35 Global Medical Radiation Detection Market Outlook, By Diamond Detectors (2021-2030) ($MN)
Table 36 Global Medical Radiation Detection Market Outlook, By Other Solid-state Detectors (2021-2030) ($MN)
Table 37 Global Medical Radiation Detection Market Outlook, By Safety Type (2021-2030) ($MN)
Table 38 Global Medical Radiation Detection Market Outlook, By Full-body Protection (2021-2030) ($MN)
Table 39 Global Medical Radiation Detection Market Outlook, By Aprons (2021-2030) ($MN)
Table 40 Global Medical Radiation Detection Market Outlook, By Barriers and Shields (2021-2030) ($MN)
Table 41 Global Medical Radiation Detection Market Outlook, By Face Protection (2021-2030) ($MN)
Table 42 Global Medical Radiation Detection Market Outlook, By Eye Wear (2021-2030) ($MN)
Table 43 Global Medical Radiation Detection Market Outlook, By Face Masks (2021-2030) ($MN)
Table 44 Global Medical Radiation Detection Market Outlook, By Hand Safety (2021-2030) ($MN)
Table 45 Global Medical Radiation Detection Market Outlook, By Gloves (2021-2030) ($MN)
Table 46 Global Medical Radiation Detection Market Outlook, By Attenuating Sleeves (2021-2030) ($MN)
Table 47 Global Medical Radiation Detection Market Outlook, By Other Safety Types (2021-2030) ($MN)
Table 48 Global Medical Radiation Detection Market Outlook, By Application (2021-2030) ($MN)
Table 49 Global Medical Radiation Detection Market Outlook, By Diagnostic Radiology (2021-2030) ($MN)
Table 50 Global Medical Radiation Detection Market Outlook, By Environmental Monitoring (2021-2030) ($MN)
Table 51 Global Medical Radiation Detection Market Outlook, By Interventional Radiology (2021-2030) ($MN)
Table 52 Global Medical Radiation Detection Market Outlook, By Nuclear Medicine (2021-2030) ($MN)
Table 53 Global Medical Radiation Detection Market Outlook, By Radiation Therapy (2021-2030) ($MN)
Table 54 Global Medical Radiation Detection Market Outlook, By Other Applications (2021-2030) ($MN)
Table 55 Global Medical Radiation Detection Market Outlook, By End User (2021-2030) ($MN)
Table 56 Global Medical Radiation Detection Market Outlook, By Hospitals (2021-2030) ($MN)
Table 57 Global Medical Radiation Detection Market Outlook, By Clinics (2021-2030) ($MN)
Table 58 Global Medical Radiation Detection Market Outlook, By Research Laboratories (2021-2030) ($MN)
Table 59 Global Medical Radiation Detection Market Outlook, By Government Agencies (2021-2030) ($MN)
Table 60 Global Medical Radiation Detection Market Outlook, By Other End Users (2021-2030) ($MN)
Note: Tables for North America, Europe, APAC, South America, and Middle East & Africa Regions are also represented in the same manner as above.

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