Global Medical Radiation Detection, Monitoring & Safety Market - 2022-2029

Global Medical Radiation Detection, Monitoring & Safety Market - 2022-2029

Market Overview

Medical Radiation Detection, Monitoring & Safety Market size was valued US$ 1.0 billion in 2021 and is estimated to reach US$ 1.6 million by 2029, growing at a CAGR of 6.7% during the forecast period (2022-2029).

With the rising prevalence of cancer worldwide, diagnostic centers have started adopting the use of radiation therapies and nuclear medicines. These therapies release radioactive radiation, which is harmful to health and needs proper medical radiation detection, monitoring, and safety devices to radiation the environment's mediation. The radiation detection, monitoring & safety devices are mostly used in hospitals, ambulatory surgical centers (ASCs), and cancer centers.

Market Dynamics

The medical radiation detection, monitoring & safety market growth are majorly driven by the increasing use of radiation therapy and nuclear to diagnose various diseases.

Increasing use of radiation therapy and nuclear to diagnose various diseases are expected to drive market growth.

For instance, as per the World Nuclear Association, as of May 2020, over 40 million nuclear medicine procedures are performed annually, and the demand for radioisotopes is growing at a rate of 5%. Nearly 10,000 hospitals across the globe use them radioisotopes globe. In the US alone, annually, more than 20 million nuclear medicine procedures are performed. North America dominates the diagnostic radioisotopes market and accounts for half of the market share followed by Europe.

Besides, the rising number of cancer cases, an increase in the number of diagnostic imaging centers, and increasing safety awareness among people boost the market's growth. For instance, several different types of cancer are characterized by abnormal cell growth. According to WHO, the probability of developing cancer before age 75 is 14.4% in males and 15.0% in females. Based on data from 2013-2015, around 38.4% of men and women are diagnosed with cancer at some point during their lifetimes. As per the National Cancer Institute, the most common cancers (2018) are lung, breast cancer, prostate cancer melanoma of the skin, colon and rectum cancer, bladder cancer, non-Hodgkin lymphoma, kidney, and renal pelvis cancer, endometrial cancer, leukemia, pancreatic cancer, thyroid cancer, and liver cancer. Also, according to the National Cancer Institute, about 57% of new cancer cases in 2012 occurred in developing regions including Central America and parts of Africa and Asia; 65% of cancer deaths also occurred in these regions.

Lack and unavailability of skilled professionals, stringent regulation is expected to hamper the market growth.

However, the lack and unavailability of skilled professionals, stringent regulation compliance appliances for safety for radiation use, and delay in product approvals the government's stringent regulations government are factors hindering the market growth. The number of well-trained and competent medical physicists is still short of the desired requirement. According to the American Board of Radiology (ABR), between 2008 and 2010, on average, 177 medical physicists per year were given board certificates. In 2016, the number decreased below 200 to 196, and in 2017, it reached 155. The UK is also facing a shortage of radiologists. As per the Royal College of Radiologists (RCR), there is a shortage of at least 1,100 radiologists in the country in 2019.

COVID-19 Analysis

COVID-19 pandemic has impacted healthcare services globally. Many countries globally have seen non-urgent diagnostic imaging surgeries being postponed due to the pandemic. The American College of Radiation supports guidelines suggested by the CDC that advises medical facilities to reschedule non-urgent outpatient visits. Non-urgent procedures include non-urgent imaging and fluoroscopy procedures, such as screening mammography, lung cancer screening, non-urgent computed tomography (CT), ultrasound, magnetic resonance imaging (MRI), plain film X-ray exams, and other non-emergent or elective radiologic and radiologically guided exams and procedures.

Industry Analysis

The global medical radiation detection, monitoring & safety market provides in-depth analysis of the market based on various industry factors such as Porter’s Five Forces, Regulatory and Reimbursement Analysis, Supply Chain Analysis, Pricing Analysis, Technological Trends & Advancements, Epidemiology and Unmet Needs.

Segment Analysis/B>

Full-body protection segment is expected to hold the largest market share in global medical radiation detection, monitoring & safety market

Based on safety products, the full-body protection segment accounted for the largest share of the medical radiation safety market in 2021. Medical radiation safety products include hand safety, full-body protection, face protection, and others. The full-body Protection segment accounted for the largest market share in 2021, owing to the increasing number of radiological procedures performed and rising awareness among physicians, radiologists, and patients. The extensive applications of full-body protection safety products such as aprons, barriers & shields lead to a higher adoption rate. The prices associated with the mobile lead barrier ranges from US$ 5,260 to US$ 7,820. On the other hand, the hand and face protection safety products are expected to grow significantly over the forecast period, due to the rising need for safety in radioactive emission & usage.

Geographical Analysis

North America region holds the largest market share in the global medical radiation detection, monitoring & safety market

North America region is dominating the global medical radiation detection, monitoring & safety market accounting for the largest market share in 2021, owing to increasing awareness about radiation safety, a rising number of radio diagnostic procedures performed, and growing research and development of advanced radiation detection, monitoring, and safety products. Besides, due to the rising prevalence of cancer globally, diagnostic centres have adopted the use of radiation therapies and nuclear medicines. In the United States, colorectal cancer is the third leading cause of cancer-related deaths in men and women, and the second most common cause of cancer deaths combined globally. It is expected to about 106,180 new cases of colon cancer, 44,850 new cases of rectal cancer during 2022. he diagnosed incident colorectal cancer cases are expected to increase by 27.3% to 672,400 cases by 2037. In Mexico, cancer currently is one of the largest challenges in public health. According to the Cancer Statistics Center, there were 11,030 new cases were estimated in Mexico in 2022.

Competitive Landscape

The medical radiation detection, monitoring & safety market is highly fragmented and consists of a large number of players. Some of the key players which are contributing to the growth of the market are Fortive Corporation, Mirion Technologies, IBA Worldwide, Thermo Fisher Scientific, Sun Nuclear Corporation, Bertin Instruments, Radiation Detection Company Inc, Biodex Medical Systems, Inc, Centronic Ltd, Ludlum Measurements, Inc among others. The major players are adopting several growth strategies such as product launches, acquisitions, and collaborations, which are contributing to the growth of the medical radiation detection, monitoring & safety market globally. For instance,

In May 2019, Kromek had launched a new D3S SPRD (spectroscopic radiation detector) Personal Radiation Detector. It is palm size and a very cost-effective radioactive detection device. It can be connected and displayed on the mobile phone which makes it more effective. This product launch had expanded the product portfolio of the company.

In March 2019, Arktis Radiation Detectors Ltd had developed new flat panel gamma (FPG) detector. This detector will significantly improve the capability of detecting radioactive materials in various applications. These developments in the product have seen a positive response from their customers and have increased their sales and have expanded the customer base.

In March 2019, Thermo Fisher Scientific launched a new dosimetry monitoring service that enables medical and imaging facilities, dental offices, veterinary clinics, nuclear power plants, laboratories, and other facilities with radiation safety requirements to streamline the management of their safety programs.

In 2019, IBA Worldwide launched my iON, offering a unique environment for fast and precise cancer patient QA in proton therapy.

Key Companies to Watch

Fortive Corporation:

Overview: Fortive is an American diversified industrial technology conglomerate company headquartered in Everett, Washington. Fortive was spun off from Danaher in July 2016. Mitchell Rales and Steven M. Rales, Danaher's founders, retained board seats with Fortive after the separation.

Product Portfolio:

Colposcope CARL ZEISS KSK 150 FC: The Zeiss KSK is mobile colposcope that is equipped with video track for clear imaging and observation. It gives a proper and clear view of vulva, vagina and cervix. It supports illumination and magnification.

Key Developments: In 2019, ZEISS acquired Brunswick based GOM.

The global medical radiation detection, monitoring & safety market report would provide an access to an approx. 45+market data table, 40+figures and 180pages.


1. Methodology and Scope
1.1. Research Methodology
1.2. Research Objective and Scope of the Report
2. Market Definition and Overview
3. Executive Summary
3.1. Market Snippet by Detector Type
3.2. Market snippet by Detection and Monitoring Products
3.3. Market snippet by Safety Products
3.4. Market Snippet by End-User
3.5. Market Snippet by Region
4. Market Dynamics
4.1. Market Impacting Factors
4.2. Drivers
4.2.1. Rising adoption of nuclear medicine and radiation therapy for diagnosis and treatment
4.2.2. Increasing prevalence of cancer
4.3. Restraints:
4.3.1. Lack of skilled radiation professionals
4.4. Opportunity
4.5. Impact Analysis
5. Industry Analysis
5.1. Porter's Five Forces Analysis
5.2. Epidemiology
5.3. Supply Chain Analysis
5.4. Pricing Analysis
5.5. Technological Trends & Advancements
5.6. Regulatory Analysis
5.7. Unmet Needs
5.8. COVID-19 Impact
6. By Detector Type
6.1. Introduction
6.1.1. Market Size Analysis, and Y-o-Y Growth Analysis (%), By Detector Type Segment.
6.1.2. Market Attractiveness Index, By Detector Type Segment
6.2. Scintillators*
6.2.1. Introduction
6.2.2. Market Size Analysis, and Y-o-Y Growth Analysis (%)
6.2.3. Organic Scintillators
6.2.4. Inorganic Scintillators
6.3. Gas-filled Detectors
6.3.1. Proportional Counters
6.3.2. Geiger–Muller Counters
6.3.3. Ionization Chambers
6.3.3.1. Dosimeters
6.3.3.2. Radiation Survey Meters
6.4. Solid-State Detectors
6.4.1. Diamond Detectors
6.4.2. Semiconductor Detectors
6.4.2.1. Ionizing Radiation Detectors
6.4.2.2. Terahertz Radiation Detectors
7. By Detection & Monitoring Products
7.1. Introduction
7.1.1. Market Size Analysis, and Y-o-Y Growth Analysis (%), By Detection & Monitoring Products
7.1.2. Market Attractiveness Index, By Detection & Monitoring Products Segment
7.2. Environmental Radiation Monitors*
7.2.1. Introduction
7.2.2. Market Size Analysis, and Y-o-Y Growth Analysis (%)
7.3. Radioactive Material Monitors
7.4. Surface Contamination Monitors
7.5. Area Process Monitors
7.6. Personal Dosimeters
7.6.1. Passive Dosimeters
7.6.1.1. Thermoluminescent Dosimeters
7.6.1.2. Optically Stimulated Luminescence Dosimeters
7.6.1.3. Film Badges
7.6.2. Active Dosimeters
7.6.2.1. Self-reading Pocket Dosimeters
7.6.2.2. Pocket Electroscopes
7.7. Others
8. By Safety Products
8.1. Introduction
8.1.1. Market Size Analysis, and Y-o-Y Growth Analysis (%), By Safety Products Segment
8.1.2. Market Attractiveness Index, By Safety Products Segment
8.2. Hand Safety*
8.2.1.1. Introduction
8.2.1.2. Market Size Analysis, and Y-o-Y Growth Analysis (%)
8.2.2. Gloves
8.2.3. Attenuating sleeves
8.3. Full-body Protection
8.3.1. Aprons
8.3.2. Barriers and shields
8.4. Face Protection
8.4.1. Face masks
8.4.2. Eyewear
8.5. Others
9. By End-Users
9.1. Introduction
9.1.1. Market Size Analysis, and Y-o-Y Growth Analysis (%), By End-Users Segment
9.1.2. Market Attractiveness Index, By End-Users Segment
9.2. Hospitals*
9.2.1. Introduction
9.2.2. Market Size Analysis, and Y-o-Y Growth Analysis (%)
9.3. Imaging Centers
9.4. Radiation Therapy & Cancer Centers
9.5. Orthopedic Facilities
9.6. Others
10. By Region
10.1. Introduction
10.1.1. Market Size Analysis, and Y-o-Y Growth Analysis (%), By Region
10.1.2. Market Attractiveness Index, By Region
10.2. North America
10.2.1. Introduction
10.2.2. Key Region-Specific Dynamics
10.2.3. Market Size Analysis, and Y-o-Y Growth Analysis (%), By Detector Type
10.2.4. Market Size Analysis, and Y-o-Y Growth Analysis (%), By Detection and Monitoring Products.
10.2.5. Market Size Analysis, and Y-o-Y Growth Analysis (%), By Safety Products
10.2.6. Market Size Analysis, and Y-o-Y Growth Analysis (%), By End-User
10.2.7. Market Size Analysis, and Y-o-Y Growth Analysis (%), By Country
10.2.7.1. The U.S.
10.2.7.2. Canada
10.2.7.3. Mexico
10.3. Europe
10.3.1. Introduction
10.3.2. Key Region-Specific Dynamics
10.3.3. Market Size Analysis, and Y-o-Y Growth Analysis (%), By Detector Type
10.3.4. Market Size Analysis, and Y-o-Y Growth Analysis (%), By Detection and Monitoring Products.
10.3.5. Market Size Analysis, and Y-o-Y Growth Analysis (%), By Safety Products
10.3.6. Market Size Analysis, and Y-o-Y Growth Analysis (%), By End-User
10.3.7. Market Size Analysis, and Y-o-Y Growth Analysis (%), By Country
10.3.7.1. Germany
10.3.7.2. The U.K.
10.3.7.3. France
10.3.7.4. Italy
10.3.7.5. Spain
10.3.7.6. Rest of Europe
10.4. South America
10.4.1. Introduction
10.4.2. Key Region-Specific Dynamics
10.4.3. Market Size Analysis, and Y-o-Y Growth Analysis (%), By Detector Type
10.4.4. Market Size Analysis, and Y-o-Y Growth Analysis (%), By Detection and Monitoring Products.
10.4.5. Market Size Analysis, and Y-o-Y Growth Analysis (%), By Safety Products
10.4.6. Market Size Analysis, and Y-o-Y Growth Analysis (%), By End-User
10.4.7. Market Size Analysis, and Y-o-Y Growth Analysis (%), By Country
10.4.7.1. Brazil
10.4.7.2. Argentina
10.4.7.3. Rest of South America
10.5. Asia Pacific
10.5.1. Introduction
10.5.2. Key Region-Specific Dynamics
10.5.3. Market Size Analysis, and Y-o-Y Growth Analysis (%), By Detector Type
10.5.4. Market Size Analysis, and Y-o-Y Growth Analysis (%), By Detection and Monitoring Products.
10.5.5. Market Size Analysis, and Y-o-Y Growth Analysis (%), By Safety Products
10.5.6. Market Size Analysis, and Y-o-Y Growth Analysis (%), By End-User
10.5.7. Market Size Analysis, and Y-o-Y Growth Analysis (%), By Country
10.5.7.1. China
10.5.7.2. India
10.5.7.3. Japan
10.5.7.4. Australia
10.5.7.5. Rest of Asia Pacific
10.6. The Middle East and Africa
10.6.1. Introduction
10.6.2. Key Region-Specific Dynamics
10.6.3. Market Size Analysis, and Y-o-Y Growth Analysis (%), By Detector Type
10.6.4. Market Size Analysis, and Y-o-Y Growth Analysis (%), By Detection and Monitoring Products.
10.6.5. Market Size Analysis, and Y-o-Y Growth Analysis (%), By Safety Products
10.6.6. Market Size Analysis, and Y-o-Y Growth Analysis (%), By End-User
11. Competitive Landscape
11.1. Competitive Scenario
11.2. Market Positioning/Share Analysis
11.3. Mergers and Acquisitions Analysis
12. Company Profiles
12.1. Thermo Fisher Scientific, Inc.*
12.1.1. Company Overview
12.1.2. Product Portfolio and Description
12.1.3. Key Highlights
12.1.4. Financial Overview
12.2. Fortive Corporation
12.3. IBA Worldwide
12.4. Mirion Technologies, Inc.
12.5. Bertin Instruments
12.6. Radiation Detection Company Inc.
12.7. Sun Nuclear Corporation
12.8. Biodex Medical Systems, Inc.
12.9. Centronic Ltd.
12.10. Ludlum Measurements, Inc. (*List is not exhaustive)
13. DataM Intelligence
13.1. Appendix
13.2. About Us and Services
13.3. Contact Us

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