Summary

Pseudorabies Virus Vaccine Market Trends and Forecast
The future of the global pseudorabies virus vaccine market looks promising with opportunities in government tenders and market sales markets. The global pseudorabies virus vaccine market is expected to grow with a CAGR of 5.5% from 2025 to 2031. The major drivers for this market are the growing emphasis on the health and well-being of livestock and the awareness of pseudorabies and its detrimental impact on pig farming.

• Lucintel forecasts that, within the type category, the inactivated vaccine will remain the largest segment over the forecast period due to the growing demand for vaccines with enhanced safety profiles, as inactivated vaccines eliminate the risk of reversion to virulence.
• Within the application category, market sales are expected to witness higher growth due to the constant demand for vaccines across both private and commercial sectors.
• In terms of region, North America is expected to witness the highest growth over the forecast period.
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Emerging Trends in the Pseudorabies Virus Vaccine Market
With changes on the horizon in the pseudorabies virus vaccine market, comes a shift to a new paradigm of vaccine design, distribution, as well as adoption. Such changes are the result of new developments in vaccines, market access strategies, and vaccine implementation into animal health management systems. Below, we highlight five key trends that are currently shaping the future of the pseudorabies virus vaccine market.
• Growth in Vaccine Development: The market for pseudorabies virus vaccines is now seeing remarkable transformations in technology. It is increasingly common to see the evolution of recombinant vaccines and subunit vaccines that are more target-specific while having fewer adverse effects. Such vaccines are expected to focus on specific PRV strains and provide stronger immunization coverage while having fewer adverse effects. Long-lasting immunity while avoiding the risk of clinical disease makes recombinant vaccines particularly appealing for mass usage, which campaigns work well such as rabies in pigs. This is now a trend that is transforming outcomes of vaccination and will most probably broaden acceptability in the future.
• Move to Elimination Strategies: In recent years, there has been a pronounced shift toward the adoption of national PRV eradication plans, particularly in Germany, the USA, and China. Both state and industry authorities are increasingly committed to the abolition of PRV using comprehensive vaccination programs. This trend manifests itself in areas of intensive pig farming, as PRV outbreaks tend to spread quickly. Vaccination is being incorporated into the broader framework of disease eradication strategies that also include surveillance, biosecurity measures, and movement control as part of the disease eradication efforts. This strategy is expected to lower the disease burden and safeguard the global pork value chain.
• Growing Usage of Vaccine Platforms in Developing Areas: The pseudorabies virus vaccine adoption rate is increasing in developing regions, most especially in Asia and Africa, due to the expansion of the swine industry and the necessity to control the disease. India, for instance, and also Indonesia and Vietnam are ramping up their vaccination campaigns against PRV outbreaks based on such advantages as low-cost vaccines and government subsidies. This is being due to the increase in proliferation of local manufacturers of the vaccine who are able to provide alternative vaccines that are relevant to the region. This trend is enhancing the global coverage and distribution of the vaccines towards achieving wide-area coverage among both commercial farmers and subsistence smallholder farmers of the vaccine.
• Emphasis on Biosecurity and Disease Management: In swine farming, there is an increasing focus on bio-vaccination and other measures related to disease management besides vaccination. This trend demonstrates the need for combining vaccination with other biosecurity and health measures, which include sanitation of the farm, restrictions of movements, and monitoring of the pigs. Enhanced biosecurity measures are very important in prevention of exposure and spread of PRV on the farms, thus making proper vaccination effective. As the level of understanding of biosecurity measures increases, the levels of farm operators wanting to undertake PRV vaccination on their farms will consequently increase, which enhances better control of the disease and risk exposure in pork production.
• Increased Demand for More Effective Vaccines: Improving pseudorabies virus vaccine efficacy for regions with endemic PRV or frequent outbreaks has become a priority. Producers are looking for vaccines that induce prolonged herd immunity, lower transmission rates, and immunity against various strains of the virus. This has prompted the launch of more advanced vaccine formulations, including multistrain and modified vaccines containing adjuvants. Higher efficacy of the vaccines improves the productivity of pig farming practices since the disease burden is reduced and repeated vaccinations are minimized, only to once or twice in the lifespan of the farmer.
The changes being brought by these trends—new technologies in vaccine development, eradication of viruses, increased uptake in developing countries, incorporation of biosecurity measures, and targeting improved efficacy—will transform the pseudorabies virus vaccine market. These trends may signify changing strategies in vaccination that are more comprehensive, sustainable, and user-friendly, with attempts to not only control the disease but also its TB in the future. As a result, the global pseudorabies virus vaccine market is changing to meet the needs of the swine industry in terms of provision of healthy herds and sustainable production practices across the globe.

Recent Developments in the Pseudorabies Virus Vaccine Market
A number of key developments have taken place in the global pseudorabies virus vaccine market, which have resulted in a transformation in the manner in which the virus is controlled in the swine industry. These developments include improved vaccine formulation, regulatory approvals, market penetration, and incorporation into the national policy for disease control. Below, we examine five current advancements in the development and control of PRV infection that have featured most recently.
• The Creation of Recombinant and Subunit Vaccines: In the past few years, new ideas of vaccines have emerged, such as recombinant and subunit vaccines, that are more specific and are less likely to produce negative effects on the body. These vaccines are suitable as they aim to protect against PRV without the risks of causing disease or other immunity complications. The use of recombinant vaccines has been successful in active and long-term immunity and in the extent of virus transmission. Countries such as the U.S., China, and Germany with major PRV control problems are employing this technology.
• State-MOP Sponsored PRV Eradication Program: Some countries, including Germany and the United States, have antecedently conducted large and mass vaccination campaigns, followed by surveillance and biosecurity measures as means of eradicating pseudorabies virus (PRV). Most of the programs sponsored by the government have been effective in the enhancement of control and reduction of PRV outbreak cases. Similar eradication strategies in Europe have, however, encouraged the introduction of general vaccination practices, which have effectively reduced PRV contact in the commercial swine populations.
• Expansion of PRV Vaccination in Emerging Markets: The pseudorabies virus vaccine market is moving toward emerging markets like India and Southeast Asia, with an expanding swine industry. With increasing commercial farming, these areas are witnessing a surge in PRV outbreaks, and vaccines are more widely available due to local manufacturing and government backing. Therefore, vaccination programs are helping reduce the economic burden of the disease on farmers in these areas. The expansion has also been made easier by the availability of reasonably priced vaccines suitable for the region.
• Adoption of PRV Vaccines in Wild Pig Populations: The use of vaccines among wild pig populations, which serve as natural reservoirs of the virus, is a new development in the control of PRV. The use of vaccination in wild swine populations has been demonstrated to be an effective strategy for controlling the interaction of PRV in regions where wild pigs have contact with domesticated swine. This trend is already underway in Germany, the U.S., and Japan, where the virus is maintained in wild pig populations.
• Enhanced Focus on R&D for Vaccines: Both private companies and governments have noticeably increased their investments through research and development (R&D) of more efficient pseudorabies virus vaccines. These investments are aimed at the diversification of vaccine design, formulation, delivery, and creating vaccines that provide cross-protection against a number of PRV variants. This research is especially important for developing more efficient and cheaper vaccines for areas with high prevalence of PRV and less developed veterinary infrastructure.
According to the historical review, advancements in vaccine technology, licensing, and attributes, global licensing, and funding efforts have made recent changes to the international PRV market—Electronic Index of Porcine Reproductive Virus Vaccine, Economic Activity Landscape, and National News Story. These improvements have complemented the global objective of controlling PRV and enhancing the sustainability of the pork industry as a whole. With continued improvement in the efficacy, distribution, and availability of vaccines designed for PRV, future adoption rates are likely to be higher.

Strategic Growth Opportunities in the Pseudorabies Virus Vaccine Market
There is a growing need to control disease occurrences in swine populations around the globe, and this trend is likely to facilitate the expansion of the global pseudorabies virus vaccine market. Global pork production and large-scale commercial farming of pigs, along with the agricultural industries, are greatly affected by the PRV virus, or Aujeszky’s disease. But with advancements in vaccine creation and their acceptance growing, there are new areas for heightened growth in various applications. This includes finding better ways to increase vaccine effectiveness, as well as identifying and penetrating new geographical areas that have markets where these vaccines still are needed in places where the disease is still significantly affecting the agricultural economies. In this section, we describe five such market opportunities.
• Penetration into New Markets: Emerging markets, including India, Southeast Asia, and Africa, are potential growth pockets for the pseudorabies virus vaccine market. Since these areas have expanding pig farming sectors, the incidence of disease outbreaks is also expanding. With rising vaccination trends, countries have sought and are still seeking to vaccinate their swine in a bid to control the virus. As these countries understand the economic costs of PRV and with help from international agencies, the adoption of vaccines will become the norm. Since local producers can produce cheap vaccines, their use on smallholder and commercial farms will be widespread without restrictions, and this will considerably boost market growth in these areas.
• Vaccination of Wild Pigs: PRV is still endemic in many countries where wild pigs serve as an important reservoir for the viruses, through which outbreaks are introduced back into domestic pig herds. Targeting wild pig populations with a vaccine creates a strategic penetration initiative to prevent the virus from spreading any further. Countries like Germany, the US, and Japan have considered the option of vaccinating wild swine populations with core vaccination strategies. This strategy may lead to long-term gains in the PRV management approach by lowering cross-infection rates between feral and domesticated pigs. It also creates an interesting scenario for vaccine manufacturers as they would have an avenue to explore additional applications.
• Incorporation of Recombinase and Subunit Vaccines: Another opportunity for growth within the range of pseudorabies virus vaccines is the transition to subunit or recombinant products, which are currently in development. These technological advancements have greater advantages over target limitations, adverse reactions or effects, and memory response duration than classical vaccines. It is possible to make recombinant vaccines that focus on the PRV strains, and it is of particular importance in regions with new or evolved viral strains. Their usage is progressively extending within areas where animal health regulations are very stringent, like Europe and North America, and once their effectiveness is established, they will have greater global acceptance.
• Incorporation of Vaccines into Programs: Many countries have begun focusing their efforts on the control and eradication of PRV, targeting regions especially in Europe and North America, which are already implementing mass vaccination programs. The insertion of vaccines into the course of national programs for disease eradication embodies a good opportunity for growth on the part of vaccine manufacturers. These activities include mass vaccination campaigns, monitoring, and biosecurity measures. Pharmacological enterprises, jointly with governments, are working on funding and logistical strategies to enable complete vaccination, which raises demand for pseudorabies virus vaccines sustainably in the future.
• Increase in the Use of Multi-strain Vaccines: Many companies now see that the best way to offer PRV protection is to invest in a multi-strain vaccine for the virus since these PRV strains keep changing. Multi-strain vaccines present broader coverage and can be invaluable in places where many PRV strains exist. They are also working on making vaccines that combine many strains so the consumer does not need several different vaccine injections or forms. This need is especially acute in countries where large numbers of different pigs are present, and the market for these vaccines is poised for rapid growth as a result.
These strategic expansion opportunities are redefining the pseudorabies virus vaccine market by responding to emerging challenges in disease control, vaccine effectiveness, and geographical reach. The market is benefitting from higher uptake in developing countries, the possibility of control of feral pig populations, improvement in existing and development of new vaccines, and incorporation of vaccination drives into national disease control programs. This trend is expected to also impact existing veterinary and swine industry practices, as the global market for pseudorabies virus vaccines is expected to expand significantly.

Pseudorabies Virus Vaccine Market Driver and Challenges
There are several factors that impact the global market for the pseudorabies virus vaccine, such as technological, economic, and regulatory. In spite of increasing awareness regarding the health and economic impacts of PRV and expanding vaccine manufacturing capabilities, there exist issues. These include regulatory barriers, immunogenicity and efficacy of the vaccine, geographical inequities in distribution, promotion, and effective implementation of vaccination programs. It is important to analyze these drivers and challenges in understanding the future architectural framework of the pseudorabies virus vaccine market in times to come.
The factors responsible for driving the pseudorabies virus vaccine market include:
1. Technological Improvements in Vaccine Formulations: The other major driver of the pseudorabies virus vaccine market includes the rate at which vaccine technology improves over time. The availability and development of recombinant vaccines, subunit vaccines, and better adjuvants ensure that vaccine safety and efficacy are improving. These kinds of new technologies provide for appropriate immunization, decreased toxicity, and extended longevity of immunity. This, in turn, provokes farmers and veterinarians to implement vaccine programs in particular where PRV is frequently observed. It is expected that due to the advancement of vaccine technology, the advanced vaccines market will grow at a rapid rate.
2. Support Formulation Towards Disease Eradication Programs by the Government: The spread of PRV and initiatives with emphases on control, management, and even total eradication is another major market driver. Activities in national PRV eradication programs, notably in Europe and North America, include the vaccination of the concerned populations on a large scale, active monitoring, and also funding of R&D activities. Plus, governments provide subsidies and other inducements to farmers who vaccinate their herds, thus enhancing the penetration of the vaccine. These programs are important in increasing the demand for pseudorabies virus vaccines and in developing a more sustainable market for vaccine manufacturers.
3. Heightened PRV Awareness Opens Up: Another factor that is driving vaccine deployment is the increasing awareness of the financial costs that follow an outbreak of PRV. Pigs affected by the diseases caused by PV suffer a direct loss of populations and the associated outbreak costs. A change, however, has occurred in the swine industry, which has increasingly become more commercially developed, and hence farmers will be more willing to purchase vaccines as part of disease management programs. This awareness is driving growth in developed and emerging markets where PRV is more of a threat.
4. Rising Trend of Pork Consumption: The increasing number of pork consumers around the world, especially in China, India, and Southeast Asia, has necessitated improved PRV management strategies. There is also a need to prevent swine herds from parasites such as PRV due to the rising market for pork. Healthy pigs through vaccination are important to maintain a consistent supply of pork products in the market. As the demand in the global market for pork continues to rise, vaccines against PRV are expected to be in demand, which will, in turn, encourage manufacturers to come up with new innovations to cater to the wider market.
5. Changing Scope through Technological Advancement: The integration of precision livestock farming and active disease surveillance in animal health practices is equally propelling the market for pseudorabies virus vaccines. These technologies help farmers to efficiently manage their herds’ health, spot outbreaks at an early stage, and carry out focused vaccination initiatives. Incorporating vaccination into these developed systems enhances herd immunity and minimizes disease outbreaks, which is making pseudorabies virus vaccine acceptance widespread, especially in the tech-advanced farming regions.

Challenges in the Pseudorabies Virus Vaccine market are:
1. Government Regulations and Time for Vaccine Authorization: One of the most significant barriers to the pseudorabies virus vaccine market is the time-consuming bureaucracy of the regulatory approval process for vaccine manufacturers. Vaccine manufacturers are subject to complex regulatory requirements and regulatory approval processes regardless of the geographic region. This usually hinders the introduction of new vaccines to the market, especially in low-resource economies that have less developed regulatory frameworks. Slow regulatory approval processes may also constrain an entire market’s capacity to introduce newer pseudorabies virus vaccines against newly emerging strains or respond rapidly to outbreaks.
2. Challenge Impact: There is a problem in PRV strain variability that pseudorabies virus vaccine manufacturers consider a problem in the sense that vaccines obtained in the past may not be able to defend all of the PRV populations in circulation at a certain moment. The concept of vaccination against several strains of PRV viruses seems rather important but very hard. The continuing appearance of new viruses has such a consequence as the ongoing need for changes in vaccine formulations. Furthermore, there are considerable hurdles in this endeavor, especially when addressing the challenge of achieving adequate levels of protection to PRV viruses without a vaccine update or booster shots being given out on a regular basis.
3. The Struggle with Vaccine Distribution: Most distributed pseudorabies virus vaccines encounter a common problem of distribution in areas with factors causing low levels of infrastructure development. The need for cold chain management, limited means of transportation, and geographic factors delay the transmission of vaccines to remote locations where PRV outbreaks are more common. This problem is particularly acute in developing countries, which have high swine populations but low veterinary infrastructure. Distribution challenges have to be resolved if large-scale vaccination efforts for the prevention of future outbreaks are to be attained.
The global market of pseudorabies virus vaccine, on the other hand, continues to evolve owing to technological advances and government interventions, along with PRV economic impacts coming to the fore. But for this market evolution to not only happen but to also be sustained, other factors such as regulatory constraints, changes in strains and their subsequent resistance towards the vaccine, and other factors hindering logistics should be addressed. These aspects will seek to promote or replace existing markets since there will always be the presence of architectures following the designs of other markets.

List of Pseudorabies Virus Vaccine 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 leveraging integration opportunities across the value chain. With these strategies, pseudorabies virus vaccine companies cater to increasing demand, ensure competitive effectiveness, develop innovative products and technologies, reduce production costs, and expand their customer base. Some of the pseudorabies virus vaccine companies profiled in this report include:
• Merck
• Merial Limited
• Boehringer Ingelheim Animal Health
• Zoetis
• Hipra
• Haley
• Tianbang

Pseudorabies Virus Vaccine Market by Segment
The study includes a forecast for the global pseudorabies virus vaccine market by type, application, and region.
Pseudorabies Virus Vaccine Market by Type [Value from 2019 to 2031]:
• Inactivated Vaccine
• Naturally Deficient Attenuated Vaccine
• Genetic Engineering Vaccine

Pseudorabies Virus Vaccine Market by Application [Value from 2019 to 2031]:
• Government Tender
• Market Sales

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

Country Wise Outlook for the Pseudorabies Virus Vaccine Market
The global pseudorabies virus vaccine market has evolved significantly owing to studies that have brought to light PRV as a cost-devastating concern for the pig industry. PRV, sometimes referred to as Aujeszky’s disease, is a disease known to lead to the decimation of pig populations and hence disrupt production and economically strain producers. Fortunately, progress has been made in the formulation of vaccines, issuance of relevant permits, and establishing vaccination tactics. Enlisted below are developments in some of the key markets, which include the United States, China, Germany, India, and Japan, all of which are important in the context of pseudorabies virus vaccines.
• United States: In the United States, the application of pseudorabies virus vaccine usage has been on the rise as more people become cognizant of the disease's threat to commercial pig farming. Research into new vaccines, modified live vaccines (MLV), and recombinant vaccines that the USDA has endorsed are aimed at widening the protection base while decreasing the side effects. These strategies intend to avert outbreaks of the virus, whose losses would include high mortality among pigs and adverse effects on the pork industry as a whole. There were a number of these efforts: the USDA, in collaboration with the industry, developed control strategies for PRV based on vaccination, biosecurity, and monitoring.
• China: As one of the largest pork producers in the world, China was able to put in place effective immunization programs aimed at controlling PRV. PRV has a variety of strains in China’s vast domestic swine population, so development of locally produced vaccines has been prioritized. The Chinese administration has poured significant resources into developing effective vaccines, as they are paramount in curtailing outbreaks that threaten pork production. Recent years have also seen the introduction of better vaccines in China that can lower the incidence of PRV in both commercial and smallholder pig farming systems.
• Germany: Germany has been the leader in the control of transmissible diseases in swine, including PRV. The country has been able to reach several achievements in producing suitable vaccines for both wild and domestic pig populations. Germany's veterinary authorities have collaborated with drug manufacturers in patented research towards creating recombinant pseudorabies virus vaccines that protect from potential strains rather than providing broad coverage. Germany, in addition, incorporated such PRV vaccination into a wider animal health plan, enhancing overall control of diseases threatening the pork sector. National eradication programs have been key to the control of PRV outbreaks.
• India: India’s approach to controlling PRV infection has been distinct owing to its vast and heterogeneous pig sector, consisting predominantly of smallholder farms. Nevertheless, over the last few years, there has been a growing acceptance of PRV vaccination in both the government and private sectors. As a policy, the Indian government has controlled the prices of vaccines to target smallholders residing in semi-urban and rural areas. In addition, India has witnessed the production of indigenous pseudorabies virus vaccines, which are inexpensive and developed to serve the needs of its larger swine population. These efforts are directed towards increasing biosecurity measures and reducing the costs of PRV outbreaks in the country.
• Japan: Japan has been effective in controlling outbreaks of PRV via vaccination as well as by employing biosecurity practices. The country has been active in both vaccine development and uptake to control the spread of PRV among its swine population. Japan’s objectives include having vaccination aspects incorporated into broader disease management programs or plans. The combination of vaccines into one product, used in a defined way, separated only by a certain period of time, is much more effective than the use of traditional vaccines alone. In addition, the various vaccination programs developed by Japan’s regulatory frameworks and animal health surveillance systems are aimed at minimizing PRV risks on both large-scale commercial farms and smallholder units.
Features of the Global Pseudorabies Virus Vaccine Market
Market Size Estimates: Pseudorabies virus vaccine market size estimation in terms of value ($B).
Trend and Forecast Analysis: Market trends (2019 to 2024) and forecast (2025 to 2031) by various segments and regions.
Segmentation Analysis: Pseudorabies virus vaccine market size by type, application, and region in terms of value ($B).
Regional Analysis: Pseudorabies virus vaccine market breakdown by North America, Europe, Asia Pacific, and the Rest of the World.
Growth Opportunities: Analysis of growth opportunities in different types, applications, and regions for the pseudorabies virus vaccine market.
Strategic Analysis: This includes M&A, new product development, and the competitive landscape of the pseudorabies virus vaccine market.
Analysis of the competitive intensity of the industry based on Porter’s Five Forces model.
This report answers the following 11 key questions:
Q.1. What are some of the most promising, high-growth opportunities for the pseudorabies virus vaccine market by type (inactivated vaccine, naturally deficient attenuated vaccine, and genetic engineering vaccine), application (government tender and market sales), 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. Market Overview
2.1 Background and Classifications
2.2 Supply Chain

3. Market Trends & Forecast Analysis
3.1 Macroeconomic Trends and Forecasts
3.2 Industry Drivers and Challenges
3.3 PESTLE Analysis
3.4 Patent Analysis
3.5 Regulatory Environment
3.6 Global Pseudorabies Virus Vaccine Market Trends and Forecast

4. Global Pseudorabies Virus Vaccine Market by Type
4.1 Overview
4.2 Attractiveness Analysis by Type
4.3 Inactivated Vaccine: Trends and Forecast (2019-2031)
4.4 Naturally Deficient Attenuated Vaccine: Trends and Forecast (2019-2031)
4.5 Genetic Engineering Vaccine: Trends and Forecast (2019-2031)

5. Global Pseudorabies Virus Vaccine Market by Application
5.1 Overview
5.2 Attractiveness Analysis by Application
5.3 Government Tender: Trends and Forecast (2019-2031)
5.4 Market Sales: Trends and Forecast (2019-2031)

6. Regional Analysis
6.1 Overview
6.2 Global Pseudorabies Virus Vaccine Market by Region

7. North American Pseudorabies Virus Vaccine Market
7.1 Overview
7.2 North American Pseudorabies Virus Vaccine Market by Type
7.3 North American Pseudorabies Virus Vaccine Market by Application
7.4 United States Pseudorabies Virus Vaccine Market
7.5 Mexican Pseudorabies Virus Vaccine Market
7.6 Canadian Pseudorabies Virus Vaccine Market

8. European Pseudorabies Virus Vaccine Market
8.1 Overview
8.2 European Pseudorabies Virus Vaccine Market by Type
8.3 European Pseudorabies Virus Vaccine Market by Application
8.4 German Pseudorabies Virus Vaccine Market
8.5 French Pseudorabies Virus Vaccine Market
8.6 Spanish Pseudorabies Virus Vaccine Market
8.7 Italian Pseudorabies Virus Vaccine Market
8.8 United Kingdom Pseudorabies Virus Vaccine Market

9. APAC Pseudorabies Virus Vaccine Market
9.1 Overview
9.2 APAC Pseudorabies Virus Vaccine Market by Type
9.3 APAC Pseudorabies Virus Vaccine Market by Application
9.4 Japanese Pseudorabies Virus Vaccine Market
9.5 Indian Pseudorabies Virus Vaccine Market
9.6 Chinese Pseudorabies Virus Vaccine Market
9.7 South Korean Pseudorabies Virus Vaccine Market
9.8 Indonesian Pseudorabies Virus Vaccine Market

10. ROW Pseudorabies Virus Vaccine Market
10.1 Overview
10.2 ROW Pseudorabies Virus Vaccine Market by Type
10.3 ROW Pseudorabies Virus Vaccine Market by Application
10.4 Middle Eastern Pseudorabies Virus Vaccine Market
10.5 South American Pseudorabies Virus Vaccine Market
10.6 African Pseudorabies Virus Vaccine Market

11. Competitor Analysis
11.1 Product Portfolio Analysis
11.2 Operational Integration
11.3 Porter’s Five Forces Analysis
• Competitive Rivalry
• Bargaining Power of Buyers
• Bargaining Power of Suppliers
• Threat of Substitutes
• Threat of New Entrants
11.4 Market Share Analysis

12. Opportunities & Strategic Analysis
12.1 Value Chain Analysis
12.2 Growth Opportunity Analysis
12.2.1 Growth Opportunities by Type
12.2.2 Growth Opportunities by Application
12.3 Emerging Trends in the Global Pseudorabies Virus Vaccine Market
12.4 Strategic Analysis
12.4.1 New Product Development
12.4.2 Certification and Licensing
12.4.3 Mergers, Acquisitions, Agreements, Collaborations, and Joint Ventures

13. Company Profiles of the Leading Players Across the Value Chain
13.1 Competitive Analysis
13.2 Merck
• Company Overview
• Pseudorabies Virus Vaccine Business Overview
• New Product Development
• Merger, Acquisition, and Collaboration
• Certification and Licensing
13.3 Merial Limited
• Company Overview
• Pseudorabies Virus Vaccine Business Overview
• New Product Development
• Merger, Acquisition, and Collaboration
• Certification and Licensing
13.4 Boehringer Ingelheim Animal Health
• Company Overview
• Pseudorabies Virus Vaccine Business Overview
• New Product Development
• Merger, Acquisition, and Collaboration
• Certification and Licensing
13.5 Zoetis
• Company Overview
• Pseudorabies Virus Vaccine Business Overview
• New Product Development
• Merger, Acquisition, and Collaboration
• Certification and Licensing
13.6 Hipra
• Company Overview
• Pseudorabies Virus Vaccine Business Overview
• New Product Development
• Merger, Acquisition, and Collaboration
• Certification and Licensing
13.7 Haley
• Company Overview
• Pseudorabies Virus Vaccine Business Overview
• New Product Development
• Merger, Acquisition, and Collaboration
• Certification and Licensing
13.8 Tianbang
• Company Overview
• Pseudorabies Virus Vaccine Business Overview
• New Product Development
• Merger, Acquisition, and Collaboration
• Certification and Licensing

14. Appendix
14.1 List of Figures
14.2 List of Tables
14.3 Research Methodology
14.4 Disclaimer
14.5 Copyright
14.6 Abbreviations and Technical Units
14.7 About Us
14.8 Contact Us

List of Figures

Chapter 1
Figure 1.1: Trends and Forecast for the Global Pseudorabies Virus Vaccine Market
Chapter 2
Figure 2.1: Usage of Pseudorabies Virus Vaccine Market
Figure 2.2: Classification of the Global Pseudorabies Virus Vaccine Market
Figure 2.3: Supply Chain of the Global Pseudorabies Virus Vaccine Market
Figure 2.4: Driver and Challenges of the Pseudorabies Virus Vaccine Market
Chapter 3
Figure 3.1: Trends of the Global GDP Growth Rate
Figure 3.2: Trends of the Global Population Growth Rate
Figure 3.3: Trends of the Global Inflation Rate
Figure 3.4: Trends of the Global Unemployment Rate
Figure 3.5: Trends of the Regional GDP Growth Rate
Figure 3.6: Trends of the Regional Population Growth Rate
Figure 3.7: Trends of the Regional Inflation Rate
Figure 3.8: Trends of the Regional Unemployment Rate
Figure 3.9: Trends of Regional Per Capita Income
Figure 3.10: Forecast for the Global GDP Growth Rate
Figure 3.11: Forecast for the Global Population Growth Rate
Figure 3.12: Forecast for the Global Inflation Rate
Figure 3.13: Forecast for the Global Unemployment Rate
Figure 3.14: Forecast for the Regional GDP Growth Rate
Figure 3.15: Forecast for the Regional Population Growth Rate
Figure 3.16: Forecast for the Regional Inflation Rate
Figure 3.17: Forecast for the Regional Unemployment Rate
Figure 3.18: Forecast for Regional Per Capita Income
Chapter 4
Figure 4.1: Global Pseudorabies Virus Vaccine Market by Type in 2019, 2024, and 2031
Figure 4.2: Trends of the Global Pseudorabies Virus Vaccine Market ($B) by Type
Figure 4.3: Forecast for the Global Pseudorabies Virus Vaccine Market ($B) by Type
Figure 4.4: Trends and Forecast for Inactivated Vaccine in the Global Pseudorabies Virus Vaccine Market (2019-2031)
Figure 4.5: Trends and Forecast for Naturally Deficient Attenuated Vaccine in the Global Pseudorabies Virus Vaccine Market (2019-2031)
Figure 4.6: Trends and Forecast for Genetic Engineering Vaccine in the Global Pseudorabies Virus Vaccine Market (2019-2031)
Chapter 5
Figure 5.1: Global Pseudorabies Virus Vaccine Market by Application in 2019, 2024, and 2031
Figure 5.2: Trends of the Global Pseudorabies Virus Vaccine Market ($B) by Application
Figure 5.3: Forecast for the Global Pseudorabies Virus Vaccine Market ($B) by Application
Figure 5.4: Trends and Forecast for Government Tender in the Global Pseudorabies Virus Vaccine Market (2019-2031)
Figure 5.5: Trends and Forecast for Market Sales in the Global Pseudorabies Virus Vaccine Market (2019-2031)
Chapter 6
Figure 6.1: Trends of the Global Pseudorabies Virus Vaccine Market ($B) by Region (2019-2024)
Figure 6.2: Forecast for the Global Pseudorabies Virus Vaccine Market ($B) by Region (2025-2031)
Chapter 7
Figure 7.1: Trends and Forecast for the North American Pseudorabies Virus Vaccine Market (2019-2031)
Figure 7.2: North American Pseudorabies Virus Vaccine Market by Type in 2019, 2024, and 2031
Figure 7.3: Trends of the North American Pseudorabies Virus Vaccine Market ($B) by Type (2019-2024)
Figure 7.4: Forecast for the North American Pseudorabies Virus Vaccine Market ($B) by Type (2025-2031)
Figure 7.5: North American Pseudorabies Virus Vaccine Market by Application in 2019, 2024, and 2031
Figure 7.6: Trends of the North American Pseudorabies Virus Vaccine Market ($B) by Application (2019-2024)
Figure 7.7: Forecast for the North American Pseudorabies Virus Vaccine Market ($B) by Application (2025-2031)
Figure 7.8: Trends and Forecast for the United States Pseudorabies Virus Vaccine Market ($B) (2019-2031)
Figure 7.9: Trends and Forecast for the Mexican Pseudorabies Virus Vaccine Market ($B) (2019-2031)
Figure 7.10: Trends and Forecast for the Canadian Pseudorabies Virus Vaccine Market ($B) (2019-2031)
Chapter 8
Figure 8.1: Trends and Forecast for the European Pseudorabies Virus Vaccine Market (2019-2031)
Figure 8.2: European Pseudorabies Virus Vaccine Market by Type in 2019, 2024, and 2031
Figure 8.3: Trends of the European Pseudorabies Virus Vaccine Market ($B) by Type (2019-2024)
Figure 8.4: Forecast for the European Pseudorabies Virus Vaccine Market ($B) by Type (2025-2031)
Figure 8.5: European Pseudorabies Virus Vaccine Market by Application in 2019, 2024, and 2031
Figure 8.6: Trends of the European Pseudorabies Virus Vaccine Market ($B) by Application (2019-2024)
Figure 8.7: Forecast for the European Pseudorabies Virus Vaccine Market ($B) by Application (2025-2031)
Figure 8.8: Trends and Forecast for the German Pseudorabies Virus Vaccine Market ($B) (2019-2031)
Figure 8.9: Trends and Forecast for the French Pseudorabies Virus Vaccine Market ($B) (2019-2031)
Figure 8.10: Trends and Forecast for the Spanish Pseudorabies Virus Vaccine Market ($B) (2019-2031)
Figure 8.11: Trends and Forecast for the Italian Pseudorabies Virus Vaccine Market ($B) (2019-2031)
Figure 8.12: Trends and Forecast for the United Kingdom Pseudorabies Virus Vaccine Market ($B) (2019-2031)
Chapter 9
Figure 9.1: Trends and Forecast for the APAC Pseudorabies Virus Vaccine Market (2019-2031)
Figure 9.2: APAC Pseudorabies Virus Vaccine Market by Type in 2019, 2024, and 2031
Figure 9.3: Trends of the APAC Pseudorabies Virus Vaccine Market ($B) by Type (2019-2024)
Figure 9.4: Forecast for the APAC Pseudorabies Virus Vaccine Market ($B) by Type (2025-2031)
Figure 9.5: APAC Pseudorabies Virus Vaccine Market by Application in 2019, 2024, and 2031
Figure 9.6: Trends of the APAC Pseudorabies Virus Vaccine Market ($B) by Application (2019-2024)
Figure 9.7: Forecast for the APAC Pseudorabies Virus Vaccine Market ($B) by Application (2025-2031)
Figure 9.8: Trends and Forecast for the Japanese Pseudorabies Virus Vaccine Market ($B) (2019-2031)
Figure 9.9: Trends and Forecast for the Indian Pseudorabies Virus Vaccine Market ($B) (2019-2031)
Figure 9.10: Trends and Forecast for the Chinese Pseudorabies Virus Vaccine Market ($B) (2019-2031)
Figure 9.11: Trends and Forecast for the South Korean Pseudorabies Virus Vaccine Market ($B) (2019-2031)
Figure 9.12: Trends and Forecast for the Indonesian Pseudorabies Virus Vaccine Market ($B) (2019-2031)
Chapter 10
Figure 10.1: Trends and Forecast for the ROW Pseudorabies Virus Vaccine Market (2019-2031)
Figure 10.2: ROW Pseudorabies Virus Vaccine Market by Type in 2019, 2024, and 2031
Figure 10.3: Trends of the ROW Pseudorabies Virus Vaccine Market ($B) by Type (2019-2024)
Figure 10.4: Forecast for the ROW Pseudorabies Virus Vaccine Market ($B) by Type (2025-2031)
Figure 10.5: ROW Pseudorabies Virus Vaccine Market by Application in 2019, 2024, and 2031
Figure 10.6: Trends of the ROW Pseudorabies Virus Vaccine Market ($B) by Application (2019-2024)
Figure 10.7: Forecast for the ROW Pseudorabies Virus Vaccine Market ($B) by Application (2025-2031)
Figure 10.8: Trends and Forecast for the Middle Eastern Pseudorabies Virus Vaccine Market ($B) (2019-2031)
Figure 10.9: Trends and Forecast for the South American Pseudorabies Virus Vaccine Market ($B) (2019-2031)
Figure 10.10: Trends and Forecast for the African Pseudorabies Virus Vaccine Market ($B) (2019-2031)
Chapter 11
Figure 11.1: Porter’s Five Forces Analysis of the Global Pseudorabies Virus Vaccine Market
Figure 11.2: Market Share (%) of Top Players in the Global Pseudorabies Virus Vaccine Market (2024)
Chapter 12
Figure 12.1: Growth Opportunities for the Global Pseudorabies Virus Vaccine Market by Type
Figure 12.2: Growth Opportunities for the Global Pseudorabies Virus Vaccine Market by Application
Figure 12.3: Growth Opportunities for the Global Pseudorabies Virus Vaccine Market by Region
Figure 12.4: Emerging Trends in the Global Pseudorabies Virus Vaccine Market

List of Tables

Chapter 1
Table 1.1: Growth Rate (%, 2023-2024) and CAGR (%, 2025-2031) of the Pseudorabies Virus Vaccine Market by Type and Application
Table 1.2: Attractiveness Analysis for the Pseudorabies Virus Vaccine Market by Region
Table 1.3: Global Pseudorabies Virus Vaccine Market Parameters and Attributes
Chapter 3
Table 3.1: Trends of the Global Pseudorabies Virus Vaccine Market (2019-2024)
Table 3.2: Forecast for the Global Pseudorabies Virus Vaccine Market (2025-2031)
Chapter 4
Table 4.1: Attractiveness Analysis for the Global Pseudorabies Virus Vaccine Market by Type
Table 4.2: Market Size and CAGR of Various Type in the Global Pseudorabies Virus Vaccine Market (2019-2024)
Table 4.3: Market Size and CAGR of Various Type in the Global Pseudorabies Virus Vaccine Market (2025-2031)
Table 4.4: Trends of Inactivated Vaccine in the Global Pseudorabies Virus Vaccine Market (2019-2024)
Table 4.5: Forecast for Inactivated Vaccine in the Global Pseudorabies Virus Vaccine Market (2025-2031)
Table 4.6: Trends of Naturally Deficient Attenuated Vaccine in the Global Pseudorabies Virus Vaccine Market (2019-2024)
Table 4.7: Forecast for Naturally Deficient Attenuated Vaccine in the Global Pseudorabies Virus Vaccine Market (2025-2031)
Table 4.8: Trends of Genetic Engineering Vaccine in the Global Pseudorabies Virus Vaccine Market (2019-2024)
Table 4.9: Forecast for Genetic Engineering Vaccine in the Global Pseudorabies Virus Vaccine Market (2025-2031)
Chapter 5
Table 5.1: Attractiveness Analysis for the Global Pseudorabies Virus Vaccine Market by Application
Table 5.2: Market Size and CAGR of Various Application in the Global Pseudorabies Virus Vaccine Market (2019-2024)
Table 5.3: Market Size and CAGR of Various Application in the Global Pseudorabies Virus Vaccine Market (2025-2031)
Table 5.4: Trends of Government Tender in the Global Pseudorabies Virus Vaccine Market (2019-2024)
Table 5.5: Forecast for Government Tender in the Global Pseudorabies Virus Vaccine Market (2025-2031)
Table 5.6: Trends of Market Sales in the Global Pseudorabies Virus Vaccine Market (2019-2024)
Table 5.7: Forecast for Market Sales in the Global Pseudorabies Virus Vaccine Market (2025-2031)
Chapter 6
Table 6.1: Market Size and CAGR of Various Regions in the Global Pseudorabies Virus Vaccine Market (2019-2024)
Table 6.2: Market Size and CAGR of Various Regions in the Global Pseudorabies Virus Vaccine Market (2025-2031)
Chapter 7
Table 7.1: Trends of the North American Pseudorabies Virus Vaccine Market (2019-2024)
Table 7.2: Forecast for the North American Pseudorabies Virus Vaccine Market (2025-2031)
Table 7.3: Market Size and CAGR of Various Type in the North American Pseudorabies Virus Vaccine Market (2019-2024)
Table 7.4: Market Size and CAGR of Various Type in the North American Pseudorabies Virus Vaccine Market (2025-2031)
Table 7.5: Market Size and CAGR of Various Application in the North American Pseudorabies Virus Vaccine Market (2019-2024)
Table 7.6: Market Size and CAGR of Various Application in the North American Pseudorabies Virus Vaccine Market (2025-2031)
Table 7.7: Trends and Forecast for the United States Pseudorabies Virus Vaccine Market (2019-2031)
Table 7.8: Trends and Forecast for the Mexican Pseudorabies Virus Vaccine Market (2019-2031)
Table 7.9: Trends and Forecast for the Canadian Pseudorabies Virus Vaccine Market (2019-2031)
Chapter 8
Table 8.1: Trends of the European Pseudorabies Virus Vaccine Market (2019-2024)
Table 8.2: Forecast for the European Pseudorabies Virus Vaccine Market (2025-2031)
Table 8.3: Market Size and CAGR of Various Type in the European Pseudorabies Virus Vaccine Market (2019-2024)
Table 8.4: Market Size and CAGR of Various Type in the European Pseudorabies Virus Vaccine Market (2025-2031)
Table 8.5: Market Size and CAGR of Various Application in the European Pseudorabies Virus Vaccine Market (2019-2024)
Table 8.6: Market Size and CAGR of Various Application in the European Pseudorabies Virus Vaccine Market (2025-2031)
Table 8.7: Trends and Forecast for the German Pseudorabies Virus Vaccine Market (2019-2031)
Table 8.8: Trends and Forecast for the French Pseudorabies Virus Vaccine Market (2019-2031)
Table 8.9: Trends and Forecast for the Spanish Pseudorabies Virus Vaccine Market (2019-2031)
Table 8.10: Trends and Forecast for the Italian Pseudorabies Virus Vaccine Market (2019-2031)
Table 8.11: Trends and Forecast for the United Kingdom Pseudorabies Virus Vaccine Market (2019-2031)
Chapter 9
Table 9.1: Trends of the APAC Pseudorabies Virus Vaccine Market (2019-2024)
Table 9.2: Forecast for the APAC Pseudorabies Virus Vaccine Market (2025-2031)
Table 9.3: Market Size and CAGR of Various Type in the APAC Pseudorabies Virus Vaccine Market (2019-2024)
Table 9.4: Market Size and CAGR of Various Type in the APAC Pseudorabies Virus Vaccine Market (2025-2031)
Table 9.5: Market Size and CAGR of Various Application in the APAC Pseudorabies Virus Vaccine Market (2019-2024)
Table 9.6: Market Size and CAGR of Various Application in the APAC Pseudorabies Virus Vaccine Market (2025-2031)
Table 9.7: Trends and Forecast for the Japanese Pseudorabies Virus Vaccine Market (2019-2031)
Table 9.8: Trends and Forecast for the Indian Pseudorabies Virus Vaccine Market (2019-2031)
Table 9.9: Trends and Forecast for the Chinese Pseudorabies Virus Vaccine Market (2019-2031)
Table 9.10: Trends and Forecast for the South Korean Pseudorabies Virus Vaccine Market (2019-2031)
Table 9.11: Trends and Forecast for the Indonesian Pseudorabies Virus Vaccine Market (2019-2031)
Chapter 10
Table 10.1: Trends of the ROW Pseudorabies Virus Vaccine Market (2019-2024)
Table 10.2: Forecast for the ROW Pseudorabies Virus Vaccine Market (2025-2031)
Table 10.3: Market Size and CAGR of Various Type in the ROW Pseudorabies Virus Vaccine Market (2019-2024)
Table 10.4: Market Size and CAGR of Various Type in the ROW Pseudorabies Virus Vaccine Market (2025-2031)
Table 10.5: Market Size and CAGR of Various Application in the ROW Pseudorabies Virus Vaccine Market (2019-2024)
Table 10.6: Market Size and CAGR of Various Application in the ROW Pseudorabies Virus Vaccine Market (2025-2031)
Table 10.7: Trends and Forecast for the Middle Eastern Pseudorabies Virus Vaccine Market (2019-2031)
Table 10.8: Trends and Forecast for the South American Pseudorabies Virus Vaccine Market (2019-2031)
Table 10.9: Trends and Forecast for the African Pseudorabies Virus Vaccine Market (2019-2031)
Chapter 11
Table 11.1: Product Mapping of Pseudorabies Virus Vaccine Suppliers Based on Segments
Table 11.2: Operational Integration of Pseudorabies Virus Vaccine Manufacturers
Table 11.3: Rankings of Suppliers Based on Pseudorabies Virus Vaccine Revenue
Chapter 12
Table 12.1: New Product Launches by Major Pseudorabies Virus Vaccine Producers (2019-2024)
Table 12.2: Certification Acquired by Major Competitor in the Global Pseudorabies Virus Vaccine Market