Summary

Gamma Irradiator Market Trends and Forecast
The future of the global gamma irradiator market looks promising with opportunities in the medical use and industrial use markets. The global gamma irradiator market is expected to grow with a CAGR of 7.3% from 2025 to 2031. The major drivers for this market are the rising investment in biotechnology & research field and the growing need for cancer treatment & radiotherapy application.

• Lucintel forecasts that, within the type category, horizontal is expected to witness higher growth over the forecast period.
• Within the application category, medical use is expected to witness higher growth.
• In terms of region, North America will remain the largest region over the forecast period.

Emerging Trends in the Gamma Irradiator Market
Growth in the gamma irradiator market is associated with technological innovation, modification of regulations, and increasing need for precision sterilization. The main focus of emerging trends involves safety, automation, and wider expansion into new fields such as tissue engineering and food sterilization. There is a partnership between the government and private sector to respond to the increasing needs of healthcare and industries. The shifts taking place in the market include the use of diigital technologies in irradiation processes, green technologies, and entry into new emerging economies. With the greater recognition of benefits tied to gamma irradiation, these trends are likely to support innovation and development in global markets, providing safer and more efficient sterilization solutions.
• Automation and Digitization of Gamma Irradiation: The Gamma Irradiators market is undergoing a transformation with the incorporation of Automation and digital technologies as a result of increased operational efficiency and accuracy. Automated systems reduce human interaction and, therefore, the risks and errors associated with the sterilization process. Integrated monitoring systems and remote controls allow for dosage adjustments to be made in real-time, streamlining the process. This shift guarantees the necessary consistency in sterilization quality for medical and pharmaceutical uses. In addition, digitization enhances documentation and compliance with the regulatory standards which is advantageous for the company. With increased throughput and reliability requirements from the industrial sector, automated and digitally operated gamma irradiators have become crucial components of contemporary sterilization infrastructure.
• Increased Need for Pharmaceutical Products: The need for advanced medical care and surgery, along with the upsurge in chronic health complications, has created a significant surge in the market for healthcare products that are sterile and risk-free. Furthermore, gamma radiation serves as a useful method for the sterilization of heat-sensitive items, which cannot withstand heat or chemical exfoliation. As a result, manufacturers are focusing on developing next-gen processes and devices that are capable of augmenting complex sterilization procedures. gamma irradiators serve as indispensable tools in the care supply chain as they ensure the safety of the patient and compliance with health regulations, and the capability to sterilize vast quantities of medical devices is a bonus.
• Concentration on Radiation Protection: Operators of gamma irradiation processes are becoming more concerned with the safety of radiation and environmental issues. Manufacturers of irradiators are designing 'green' irradiators with better radiation shielding and waste disposal systems. These innovations are meant to safeguard operators and cut down on radiation emissions. The research aimed at sustainable sterilization technologies has prompted the strive for low radioactive waste and recyclable constituents of the irradiators. One of the priorities, particularly in highly populated areas, is adherence to international safety standards. There is a growing preference for more effecient and environmentally friendly gamma irradiators among industries that need responsible and durable sterilization methods.
• Increase Development of Food Irradiation for Safety: Gamma irradiators are more widely adopted for food safety applications like the elimination of pathogens and extending the shelf life of food products. There is an increase in the global supply of food products and most economies are trying to provide long lasting, safe food products. This has increased investment in food irradiation technologies. Countries that have a developing food export industry are using gamma irradiators to meet international prerequisites. Gamma irradiation is a preferred method because it aids in preventing spoilage, pest elimination, and maintaining hygienic standards without degrading food quality. There is an increase in the availability of gamma irradiators in agriculture and food processing which broadens the spectrum of non health care and industrial applications for gamma irradiators.
• Adoption In Emerging Economies for Healthcare: Gamma irradiators are being rapidly adopted in emerging economies to improve the healthcare and agricultural output of the countries. Brazil and India are now developing domestic irradiation centers to cater to the growing health care needs of the people and to improve agricultural outputs for export. Gamma irradiators are essential for the rural hospitals in pestilent regions as they help in the sterilization of medical implements and others. New designs for compact and inexpensive irradiators are being made to reach out to serve remote regions. This is a positive trend for the radiation sterilization market as it introduces new areas to modern sterilization techniques, increasing prospects for manufacturers around the world.
Technological Innovations and the Gamma Irradiators market are being redefined due to the emergence of new verticals for sterilization processes; making it simple, efficient, and increasing market availability. Growth of dominantly new automations, safety, sustainability, and other potentials encourage the innovation and expansion of the market. Once more industries adapt gamma irradiation for pivotal operations, technological innovations will alter the growth and direction of the market.

Recent Developments in the Gamma Irradiator Market
The gamma irradiator market has changed considerably due to the increased need for sophisticated sterilization procedures in healthcare, food, and industrial applications. The landscape is changing with new developments in automation, safety, and the design of small systems. Other factors driving growth in the market include regulatory changes, technological collaborations, and the construction of new irradiation centers. Countries are investing in the modernization of their existing facilities to upgrade them to current terminal sterilization systems and ensure compliance with modern standards. These changes respond to global health needs, the pace of technological advancement, and the growing demand for safe and efficient irradiation solutions from different sectors.
• Development of Compact and Mobile Gamma Irradiators: Manufacturers aim to increase the portability of bike gamma irradiators for easier use in rural and remote healthcare regions. Portable units are especially useful for the sterilization of medical equipment in areas with no large-scale irradiation centers. Their development solves the problem of mobile and efficient sterilization in remote medical camps and in disaster relief operations. Compact systems increase the range of applications of gamma irradiation and improve access to sterilization services in underserved areas, which contributes to overall market demand and growth potential.
• Expansion in Automated Gamma Irradiation Facilities: More funding is being allocated to automated gamma irradiation facilities in the healthcare and pharmaceutical industries. Their automated systems operate with little to no human interference, which decreases the chances of functional mishaps. Robotics and digital controls allow precise dose administration and monitoring of different processes. This is indicative of the growing demand for rapid and uniform sterilization cycles. With automation, the rigid quality control measures that are required can be met while simultaneously improving turn around time for processes. This is critically important for companies that depend on constant and dependable sterilization services.
• Utilization of Gamma Irradiators in Innovative Medical: Gamma irradiators are now being used in routine medical research as well as in newer fields such as tissue engineering and material modification. Institutions use gamma sterilization for surgical and medical equipment, polymer modification, and new medical treatment development. There is a shift towards more experimental techniques that require exact dosages for precise irradiators. The shift towards the use of gamma irradiators for R&D purposes broadens their applicability scope while also enabling advancements in technologies which can result in the emerging next generation medical materials and solutions.
• Emphasis on Improvement of Safety and Compliance Features: Manufacturers are adding new safety features into gamma irradiators owing to increased international regulations on radiation protection. Operator safety is guaranteed through added shielding, automated shut-off features, and real-time radiation monitoring. These changes are important in areas where regulatory bodies have already begun tightening norms on radiation emitting equipment. While enhancing Gamma Irradiation Technology Compliance and Safety features protects the users, improves trust within the sensitive healthcare and food processing industries.
• Growing Food Irradiation Facilities: Promotion of food safety and quality for export is now starting new gamma irradiation centers dedicated for food processing. The facilities are used to mitigate any pathogens, insects, or contamination in agricultural products so that international standards of food safety are met. Public and Private sectors are joining forces to build large scale food irradiation infrastructure in countries with developed agriculture exports. The added coverage is going beyond the scope of Healthcare usage of gamma irradiators which is beneficial for newer brand manufacturers looking to tap into untapped markets.
These important developments are greatly impacting the Gamma Irradiators market in terms of fostering technological innovation, improving safety, and widening the scope of applications. The automation, portability, compliance with laws, and other factors make sure that gamma irradiators are still important in modern sterilization and researchwork. There is ample opportunity for future growth as the demand from the healthcare, industrial, and food industries is constantly evolving.

Strategic Growth Opportunities in the Gamma Irradiator Market
The gamma irradiator market is experiencing heightened demand due to the rising use in the medical, pharmaceutical, agricultural, and industrial arms. As industries look for more effective methods of material sterilization and modification, strategic growth opportunities are emerging. Growing global awareness regarding hygiene and safety, along with increasing regulatory requirements, is supporting demand for advanced irradiation techniques. Expanding into new applications like tissue engineering and pharmaceuticals provides some manufacturers the potential to gain further market share. This transition signifies the shift towards more adaptable, powerful, and safe gamma irradiation technologies that meet the changing demands of global industries.
• Sterilization of Medical Devices: Gamma irradiators continue to evolve in the medical sector, particularly regarding the sterilization of medical devices. The market for surgical instruments and implants as well as other medical disposables is moving towards greater efficiency while ensuring reliability in sterile medical product supply. The effectiveness of gamma irradiation to complex and delicate, heat-sensitive materials makes it a preferred method of sterilization. With the expansion of health care facilities in emerging economies, the need for gamma sterilization will continue to grow. Investment for high precision irradiators for medical devices will enable effective service to hospitals, clinics, and other health care vendors.
• Sterilization of Pharmaceutical Products: Gamma irradiators are indispensable when it comes to the sterilization of various pharmaceutical products such as syringes, packaging and other biologics. With the growth of the pharmaceutical industry comes the need for more advanced therapy and vaccine development, requiring wider application of thorough sterilization techniques. It is key to note that gamma irradiation makes viable sterile environments without chemicals and heat. Since this part of the industry is developing faster than others, focusing on pharmaceutical-grade irradiators with accurate dose control will help capture this market segment. Custom developed solutions for pharmaceutical companies also present opportunities for further growth.
• Agri-Food Product Egghead Sterilization: The gamma irradiators opportunities, food and agricultural product sterilization represents of the largest market. With the global focus on food safety and post-harvest losses, gamma irradiation is gaining acceptance for pest and pathogen free treatments. This is especially true for agriculture export crop producers who have to comply with international safety standards for perishables. Such requirements make gamma irradiators for food hygiene and safety surveillance systems indispensable. The need for high-quality packaged foods also warrants the establishment of large scale food irradiation facilities, creating market opportunities for Industrial Thermo Application Inc. (ITA).
• R&D Application Innovations: Gamma irradiators are gaining acceptance in the fields of medical research, material science, and biotechnology. Activities such as sterilization of laboratory equipment, modification of biomaterials, and creation of new medical therapies utilize gamma irradiation techniques. Experimenting with biological materials demands unique solutions from universities and medic-biotech companies. The production of adjustable lasers will respond to the needs and foster the advancement of numerous scientific disciplines.
• Industrial Material Processing and Sterilization: Gamma irradiators are becoming popular for use in the industrial material processing field, such as for the sterilization of packaging materials, cosmetics, and other consumer goods. The gamma radiation has a high desirability in the use in industry where quality and safety is significant since it does not change the material properties and it is able to remove contaminants. With increased industrial quality requirements, the processing of materials using gamma irradiation is expected to grow. There is an opportunity for manufacturers to partner with industrial clients and provide customized sterilization services that improve safety and quality of the products.
The expansion of gamma irradiators is driven by these growth opportunities targeting the healthcare, pharmaceutical, food, research, and industry sectors. There is emerging market demand, so it is crucial for businesses to act upon application-specific innovations and collaborate in order to strengthen their position in the market.

Gamma Irradiator Market Driver and Challenges
Various technological, economic, and regulatory factors both motivate and hinder growth in the gamma irradiator market. The market is expanding due to high demand for sterilization, food safety, and medical applications; however, high operational costs, complex regulations, and safety risks are barriers. There is significant opportunity due to advancements in automation and safety technology, as well as increasing global health and hygiene concerns. However, stringent regulations and the safe handling of radioactive materials continue to be vital problem areas. For companies seeking to innovate and succeed in the dynamic Gamma Irradiators market, understanding these drivers and challenges is important.
The factors responsible for driving the gamma irradiator market include:
1. Increased Market Segmentation of Sterile Medical: The Gamma Irradiators market is highly impacted by the growing demand of the sterilized medical and pharmaceutical products. Clinics, hospitals, and pharmacies need precision sterilized surgical tools, syringes, implants, and packaging for devices to ensure patient safety and comply with international regulations. Complex and heat sensitive devices can be effectively sterilized with gamma irradiation without damaging them. There is constant need of infection control, DEVELOPMENT in surgical procedures, and advancement in medical devices which require gamma sterilization. This results in a demand of enhancement in irradiation technology, capacity, and value to fulfill the needs of the healthcare sector.
2. Increased Concern for Sterilization of Food: Gamma Irradiators have increased in demand due to the need of food safety and stringent international guidelines pertaining to agricultural exports. Gamma irradiation is an effective method of getting rid of food pathogens, insects, and pests which increases the date of expiration without doing damage to the food’s taste or nutritional value. As standards for food safety increase, exporters are using gamma irradiation to comply with international guidelines. Countries all over the globe need safe and longlasting food products which will provide new opportunities for gamma service and device providers, and suppliers.
3. Progression of Gamma Irradiator Automation Technology: The gamma irradiators are being transformed into more sophisticated systems with the integration of automation features, digital management, modern safety protocols, and other technologies. Remote and shielded gamma irradiators enable real-time monitoring with precise dose calibration and greater safety to operators. This diminishes risks and enhances operational reliability. These advancements allow industries to better manage dominantly human radiation exposure while improving sterilization outcomes. The innovation is also opening the growth opportunities in the market by broadening the scope of an application for gamma irradiators, including industrial and research sterilization of products.
4. Compliance with Regulations and Safety Requirement: The adoption of certified and compliant gamma irradiators is accelerated with the incursion of international and local regulations. Agencies like the Food and Drug Administration (FDA) and International Atomic Energy Agency (IAEA) set stringent operational and safety restrictions for radiation-based devices which require manufacturers and users to abide. Companies are forced due to the requirements to invest in sophisticated gamma irradiators with stronger safety features. While the regulations create challenges, they also support the use of approved and extensively tested irradiation using well established technologies, increasing market trust and acceptance.
5. Use Expansion in Industrial and Research Domain: Increase in the use of gamma irradiators in the industrial sterilization and research areas is one of the gamma irradiator market driving factors. Currently, gamma irradiation is employed for the sterilization of surgical instruments, cosmetics, packaging materials, and even for the altering of polymers in medical, and food sectors. Research institutions use gamma irradiators for various purposes such as material testing, new drug development, and research on radiation effects. As industrial and scientific processes need meticulous and dependable methods of sterilization and alterations, gamma irradiators are gaining greater importance and widening the scope of the market.
Challenges in the gamma irradiator market are:
1. Elevated Costs Of Operation And Maintenance: One of the most important difficulties for the Gamma Irradiators market is the high costs of operation and maintenance. The continuous spending on security, radiation protection, trained personnel, and equipment maintenance leads to gamma irradiators' costs. Those costs which are related to the administration of radioactive isotopes such as Cobalt-60, for example its storage and replacement add to the total cost. Such high costs may prevent some smaller companies from adopting gamma irradiators which limits its market penetration and outreach especially within developing economies that have budgetary constraints.
2. Stricter Guidelines and Obtaining Permits: The operation and maintenance of gamma irradiators require advanced guiding frameworks ensuring the safe use of radiation technology. All relevant international and national laws must be adhered to, which can be costly in terms of setup and compliance. Licensing terms often comes with stringent defined safety evaluations, safety constructions, and accredited personnel in place. Such regulatory burdens are crucial towards ensuring the safety of the public, however, with no infrastructure, such guidelines pose a challenge towards entering the market, especially for novel organizations.
3. Safety Issues and Public Attitude towards Radiation: One of the most difficult issues revolves the danger brought about by radioactive components and the suboptimal design of gamma irradiators. Operators and the wider public are concerned about the potential for radiation leakage, accidents and unsafe handling. The general attitude towards radiation is linked to risks associated with nuclear energy, and therefore gamma irradiation for food processing is likely to face significant antagonistic acceptance. Solving the issues of safety will involve injecting public radiological education and advanced control arms, which also raises the cost alongside the actual complexity of gamma irradiators.
Technological innovation facilitates growth opportunities within the Gamma Irradiators industry, but the market is also constricted by operational costs, regulatory intricacies, and safety issues. High demand for sterilized products within healthcare, food, and pharmaceutical industries continues to escalate in parallel with market expansion. Despite the numerous advantages, troubling public safety perceptions and the need to comply with stringent regulations pose serious challenges. Ultimately, the Gamma irradiators market’s critical industrial and medical gaps will serve as motivators for innovation, illustrating how the market utilizes its resources.

List of Gamma Irradiator Companies
Companies in the market compete on the basis of product quality offered. Major players in this market focus on expanding their manufacturing facilities, R&D investments, infrastructural development, and leverage integration opportunities across the value chain. With these strategies gamma irradiator companies cater increasing demand, ensure competitive effectiveness, develop innovative products & technologies, reduce production costs, and expand their customer base. Some of the gamma irradiator companies profiled in this report include-
• Nordion
• Hopewell Designs
• Rad Source
• Sterigenics

Gamma Irradiator Market by Segment
The study includes a forecast for the global gamma irradiator market by type, application, and region.
Gamma Irradiator Market by Type [Value from 2019 to 2031]:
• Vertical
• Horizontal

Gamma Irradiator Market by Application [Value from 2019 to 2031]:
• Medical Use
• Industrial Use
• Others

Gamma Irradiator Market by Region [Value from 2019 to 2031]:
• North America
• Europe
• Asia Pacific
• The Rest of the World

Country Wise Outlook for the Gamma Irradiator Market
The global gamma irradiator market is growing in importance due to increased requirements in the medical, food safety and industrial fields. Gamma irradiators are extensively utilized for the purpose of sterilization, decontamination and even for various types of researches. Countries like USA, China, Germany, India, and Japan are focusing on expanding their production capabilities while adopting advanced technologies and complying with regulations. Due to these requirements, there is a great need for effective sterilization technologies. Furthermore, these countries are also witnessing increase in both public and private funding aimed at improving irradiation facilities and developing safe and efficient gamma irradiation systems. These actions are helpful for expansion, innovation and change in the overall market.
• United States: The United States Gamma Irradiators market remote has recorded growth in the public-private partnership model in medical device sterilization alongside the pharmaceutics product processing. The FDA has kept pushing gamma irradiation for use in weighty care applications which has sped up the updating of older irradiation plants. The market was also positively impacted by the rise in demands for sterilized medical products following the pandemic. Apart from that, the joint efforts between government and privatized bodies have enabled the research on next updated generation irradiators with enhanced safety and automation features. The increasing focus on the use of nuclear medicine and the new developments in research and development facilities are further increasing the use of gamma irradiators in various fields.
• China: It is expected that the chinese gamma irradiator market will grow as more healthcare and food safety products are fortified. The government has set a policy to improve sterilization facilities to cope with growing healthcare demands. There is a boom in local investment in the manufacturing capacities of the irradiators which makes the country less dependent on imported technologies. More and more irradiation centers are being opened for agrarian and industrial purposes, which increases domestic invention. Chinese firms are working with foreign firms mega to improve compliance with regulatory requirements. Supported with strong government policies, the country is expected to grow rapidly in the medical sterilization and food irradiation processes. Chinese market is expected to boom in these aspects.
• Germany: The country has been a step ahead in adapting the latest gamma irradiation technology because they have to adhere to strict EU sterilization requirements. German manufacturers are working towards industrial development of environmentally friendly and automatic gamma irradiators for use in the sterilization of medical devices and pharmaceuticals. The growing requirement of surgical and pharmaceutical grade sterile irradiated package has spurred growth in the development of innovations in irradiation technique. Germany is liberalizing more towards the going concern about the radiation shields and protection of the operator which has brought many benefits in the design. It is also increasingly investing in research in order to strengthen their lead in the european market by using gamma irradiation. This involves developing novel medical therapies and vaccine creation.
• India: The market for Indian gamma irradiators is transforming at a slower pace due to their applications in various domains such as health care, agriculture and food industries. The government is encouraging the development of domestic gamma irradiation facilities through the Bhabha Atomic Research Centre to help meet local requirements. New irradiation centers are emerging to cater to the growing need for sterilized medical goods and safer food packaging. There is an increasing number of PPPs (public private partnerships) to augment the technological development infrastructure. India is aiming at rural health care sterilization capacity enhancement, which creates opportunity for portable and compact gamma irradiators.
• Japan: Japan is adopting new advances in Gamma Irradiators Technology due to highly regulated safety measures and great usage of sterile medical devices. Japan is implementing the use of high grade precision and automated gamma irradiators with advanced monitoring systems for effective sterilization. There is a greater use of gamma irradiation in the pharmaceutical sector and also in tissue engineering. Japan is also looking into the use of gamma irradiation for decontamination and disaster recovery. Research institutions together with private companies are enabling a great degree of change. The emphasis placed on quality control in Japan and on international safety standards encourage the use of modern gamma irradiators.

Features of the Global Gamma Irradiator Market
Market Size Estimates: Gamma irradiator market size estimation in terms of value ($B).
Trend and Forecast Analysis: Market trends (2019 to 2024) and forecast (2025 to 2031) by various segments and regions.
Segmentation Analysis: Gamma irradiator market size by type, application, and region in terms of value ($B).
Regional Analysis: Gamma irradiator market breakdown by North America, Europe, Asia Pacific, and Rest of the World.
Growth Opportunities: Analysis of growth opportunities in different type, application, and regions for the gamma irradiator market.
Strategic Analysis: This includes M&A, new product development, and competitive landscape of the gamma irradiator market.
Analysis of competitive intensity of the industry based on Porter’s Five Forces model.

This report answers following 11 key questions:
Q.1. What are some of the most promising, high-growth opportunities for the gamma irradiator market by type (vertical and horizontal), application (medical use, industrial use, and others), and region (North America, Europe, Asia Pacific, and the Rest of the World)?
Q.2. Which segments will grow at a faster pace and why?
Q.3. Which region will grow at a faster pace and why?
Q.4. What are the key factors affecting market dynamics? What are the key challenges and business risks in this market?
Q.5. What are the business risks and competitive threats in this market?
Q.6. What are the emerging trends in this market and the reasons behind them?
Q.7. What are some of the changing demands of customers in the market?
Q.8. What are the new developments in the market? Which companies are leading these developments?
Q.9. Who are the major players in this market? What strategic initiatives are key players pursuing for business growth?
Q.10. What are some of the competing products in this market and how big of a threat do they pose for loss of market share by material or product substitution?
Q.11. What M&A activity has occurred in the last 5 years and what has its impact been on the industry?

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Table of Contents

Table of Contents

1. Executive Summary

2. Global Gamma Irradiator Market : Market Dynamics
2.1: Introduction, Background, and Classifications
2.2: Supply Chain
2.3: Industry Drivers and Challenges

3. Market Trends and Forecast Analysis from 2019 to 2031
3.1. Macroeconomic Trends (2019-2024) and Forecast (2025-2031)
3.2. Global Gamma Irradiator Market Trends (2019-2024) and Forecast (2025-2031)
3.3: Global Gamma Irradiator Market by Type
3.3.1: Vertical
3.3.2: Horizontal
3.4: Global Gamma Irradiator Market by Application
3.4.1: Medical Use
3.4.2: Industrial Use
3.4.3: Others

4. Market Trends and Forecast Analysis by Region from 2019 to 2031
4.1: Global Gamma Irradiator Market by Region
4.2: North American Gamma Irradiator Market
4.2.1: North American Market by Type: Vertical and Horizontal
4.2.2: North American Market by Application: Medical Use, Industrial Use, and Others
4.3: European Gamma Irradiator Market
4.3.1: European Market by Type: Vertical and Horizontal
4.3.2: European Market by Application: Medical Use, Industrial Use, and Others
4.4: APAC Gamma Irradiator Market
4.4.1: APAC Market by Type: Vertical and Horizontal
4.4.2: APAC Market by Application: Medical Use, Industrial Use, and Others
4.5: ROW Gamma Irradiator Market
4.5.1: ROW Market by Type: Vertical and Horizontal
4.5.2: ROW Market by Application: Medical Use, Industrial Use, and Others

5. Competitor Analysis
5.1: Product Portfolio Analysis
5.2: Operational Integration
5.3: Porter’s Five Forces Analysis

6. Growth Opportunities and Strategic Analysis
6.1: Growth Opportunity Analysis
6.1.1: Growth Opportunities for the Global Gamma Irradiator Market by Type
6.1.2: Growth Opportunities for the Global Gamma Irradiator Market by Application
6.1.3: Growth Opportunities for the Global Gamma Irradiator Market by Region
6.2: Emerging Trends in the Global Gamma Irradiator Market
6.3: Strategic Analysis
6.3.1: New Product Development
6.3.2: Capacity Expansion of the Global Gamma Irradiator Market
6.3.3: Mergers, Acquisitions, and Joint Ventures in the Global Gamma Irradiator Market
6.3.4: Certification and Licensing

7. Company Profiles of Leading Players
7.1: Nordion
7.2: Hopewell Designs
7.3: Rad Source
7.4: Sterigenics