Plant-based Vaccines Market (Type: Bacterial Vaccine, Viral Vaccine, and Others; Plant Source: Tobacco, Potato, and Others; and Application: Against Infectious Agents, Anti-Cancer, and Against Autoimmune Disorders) - Global Industry Analysis, Size, Share, Growth, Trends, and Forecast, 2021-2030

Description

Plant-based Vaccines Hold Strong Prospects for Developing COVID-19 Antibodies

Researchers are undertaking significant R&D efforts to identify the viability of plant-based vaccines to combat the spread of COVID-19. Companies in the plant-based vaccines market are under great scrutiny for using plants in the production of vaccines, monoclonal antibodies, and immunomodulatory proteins to reduce morbidity and mortality associated with the novel coronavirus. Plant-based vaccines are considered generally stable, safe, and effective against potential infections.

Plant molecular farming hold promising potentials for the rapid production of biologics on an industrial scale. Companies in the plant-based vaccines market are capitalizing on this opportunity during the pandemic to increase research expenditure in plant biopharming in addition to its prospective applications for developing effective vaccines and antibodies to counter COVID-19.

Obstacles in Development of 3rd Generation Vaccines Affecting Market Growth

The plant-based vaccines market is projected to expand at a favorable CAGR of 7.38% during the assessment period. However, manufacturers are facing obstacles in the development of 3rd generation vaccines. Hence, companies are taking progressive steps to produce effective vaccines against human and animal-associated diseases by increasing their research expenditure. As such, high cost production and time-consuming production of traditional vaccines are translating into revenue opportunities for companies in the plant-based vaccines market.

The plant-based vaccine technology is based on the insertion of the encoded protein with the desired gene for the specific disease into the plant genome by several methods. The most popular method for the production of vaccines by plant is Agrobacterium mediated gene transformation, which is genetically modified with plant viruses and used to generate plant vaccines.

Low Up-front Investment, Time Efficiency Helpful in Plant-based Vaccine Production

Plant-based production saves months in initial setup time compared with competing recombinant protein methods. iBio’s FastPharming® system is gaining recognition for using plants as bioreactors, which eliminates the need for expensive and labor-intensive cell line development with respect to traditional vaccines. Such factors are contributing to the growth of the plant-based vaccines market.

The required up-front investment for plant-based vaccine production is less expensive as compared to mammalian cell culture systems. Tight control of posttranslational modifications (PTMs) is being made possible with robust plant-based expression technologies, owing to increased molecule quality and potency.

Companies Consider Technicalities for Production of Recombinant Vaccine Antigens in Plant Systems

The plant-based vaccine production for humans and animals has been under serious consideration to overcome issues associated with biosafety, cost, and distribution. Plant biotechnology is bringing new insights to vaccines research through gene transfer strategies to plants and improvements in amount, isolation, and purification for the production of recombinant vaccine against antigens in plants.

Significant increase in world population and emergence of epidemic & pandemic diseases are key drivers of the plant-based vaccines market. Since plant produce complex proteins similar to other eukaryotic systems, researchers are modifying these proteins with the help of clinical trials. Companies in the plant-based vaccines market are taking into consideration the plant transformation and the production of recombinant protein in plants for the production of recombinant vaccine antigens in plant systems.

Analysts’ Viewpoint

Novel diseases, such as COVID-19, Ebola, and Zika, among others, are fueling the requirement of dynamic vaccine research and investment using plant systems. The plant-based vaccines market is undergoing a significant change with plant-based expression technologies that help to reduce cost and time associated with traditional vaccines. However, manufacturers are facing challenges in the development of 3rd generation vaccines. Hence, companies should use enhanced technologies that include electroporation, sonication, and biolistic methods to develop 3rd generation plant vaccines. These methods are helping in the production of edible vaccines that suit the convenience of individuals and effective against human and animal-associated diseases.

Plant-based Vaccines Market: Overview

According to Transparency Market Research’s latest research report on the global plant-based vaccines market for the historical period of 2017–2019 and the forecast period of 2021–2031, increase in incidence of infections, government initiatives for expansion of vaccination coverage, and government funding for vaccine development are projected to drive the global plant-based vaccines market in the near future

According to the report, the global plant-based vaccines market was valued at US$ 1.10 Bn in 2020, and it is anticipated to expand at a CAGR of 7.38% from 2021 to 2031

Increase in Incidence of Infections: Key Driver

Emerging and re-emerging infectious diseases are deemed to be a public health threat worldwide. A need for constant awareness and readiness, and preparedness to deal with infectious disease outbreaks, which may cause a dangerous threat to the public, has been observed.

According to the BioMed Central Ltd (part of Springer Nature), the Centers for Diseases Control and Prevention defined syndromic surveillance (SS) as surveillance using health-related data that precedes diagnosis and signals a sufficient probability of a case or an outbreak to warrant further public health response

Furthermore, high prevalence of infectious diseases, such as hepatitis, tuberculosis, retroviral infections, and endocrine disorders, viz., diabetes, thyroid disorders, etc., is likely to drive the demand for rapid diagnostics test readers during the forecast period

According to the World Health Organization, in 2016, more than 71 million people were affected with hepatitis C infection globally. Moreover, according to the HIV.gov website, around 36.7 million people were living with HIV/AIDS worldwide by the end of 2016.

Thus, high prevalence and rise in incidence rate of infectious diseases across the globe is a key driver of the market

Increase in Incidence Rate of Influenza: Major Driver

Influenza is a respiratory infection caused by influenza viruses and spreads easily. Influenza viruses undergo constant genetic change, which has substantial impact on induced immunity and considerations for vaccine composition.

According to the World Health Organization (WHO), when an infected person coughs or sneezes, droplets containing viruses (infectious droplets) are dispersed into the air and can spread up to one meter, and infect persons in close proximity who breathe these droplets in

People should cover their mouth and nose with a tissue while coughing and wash their hands regularly in order to prevent transmission

Hence, increase in incidence rate of influenza drives the global plant-based vaccines market

Plant-based Vaccines Market: Competition Landscape

This report profiles major players operating in the global plant-based vaccines market based on various attributes such as company overview, financial overview, product portfolio, business strategies, and recent developments

The global plant-based vaccines market is moderately fragmented, with the presence of a large number of leading players in the global market and several small players in regional markets. The top players hold a major share of the global plant-based vaccines market.

Prominent players operating in the global plant-based vaccines market include

  • Creative Biolabs
  • Medicago Inc.
  • iBio
  • Fraunhofer Center for Manufacturing Innovation
  • ICON
  • EEA Consulting Engineers
  • Protalix
  • Kentucky BioProcessing, Inc.

The report on the global plant-based vaccines market discusses individual strategies, followed by company profiles of providers of plant-based vaccines. The competition landscape section has been included in the report to provide readers with a dashboard view and a company market share analysis of key players operating in the global plant-based vaccines market.

Key Questions Answered in Plant-based Vaccines Market Report

  • What is the scope of growth of plant-based vaccines and providers in the global plant-based vaccines market and its segments?
  • What will be the Y-o-Y growth of the global plant-based vaccines market between 2020 and 2030?
  • What is the influence of changing trends in technologies on the global plant-based vaccines market?
  • Will North America continue to be the most profitable market for plant-based vaccines providers?
  • Which factors will hamper the global plant-based vaccines market during the forecast period?
  • Which are the leading companies in the global plant-based vaccines market?

Plant-based Vaccines Market – Segmentation

Type

  • Bacterial Vaccine
  • Viral Vaccine
  • Others

Plant Source

  • Tobacco
  • Potato
  • Others

Application

  • Against Infectious Agents
  • Anti-Cancer
  • Against Autoimmune Disorders

Region

  • North America
  • Europe
  • Asia Pacific
  • Latin America
  • Middle East & Africa

TABLE OF CONTENT

1. Preface

    1.1. Market Definition and Scope

    1.2. Market Segmentation

    1.3. Key Research Objectives

    1.4. Research Highlights

2. Assumptions and Research Methodology

3. Executive Summary : Global Plant-based Vaccines Market

4. Market Overview

    4.1. Introduction

        4.1.1. Type Definition

        4.1.2. Industry Evolution / Developments

    4.2. Overview

    4.3. Market Dynamics

        4.3.1. Drivers

        4.3.2. Restraints

        4.3.3. Opportunities

    4.4. Global Plant-based Vaccines Market Analysis and Forecast, 2017–2030

        4.4.1. Market Revenue Projections (US$ Mn)

5. Key Insights

    5.1. Pipeline Analysis

    5.2. Key Industry Events (Mergers, Acquisitions, Partnerships, Collaborations, etc.)

    5.3. COVID-19 Pandemics Impact on Industry (Value Chain and Short / Mid / Long Term Impact)

    5.4. Overview of Plant-based Vaccines

6. Global Plant-based Vaccines Market Analysis and Forecast, by Type

    6.1. Introduction & Definition

    6.2. Key Findings / Developments

    6.3. Global Plant-based Vaccines Market Value (US$ Mn) Forecast, by Type, 2017–2030

        6.3.1. Bacterial Vaccine

        6.3.2. Viral Vaccine

        6.3.3. Others

    6.4. Global Plant-based Vaccines Market Attractiveness, by Type

7. Global Plant-based Vaccines Market Analysis and Forecast, by Plant source

    7.1. Introduction & Definition

    7.2. Key Findings / Developments

    7.3. Global Plant-based Vaccines Market Value (US$ Mn) Forecast, by Plant source, 2017–2030

        7.3.1. Tobacco

        7.3.2. Potato

        7.3.3. Others

    7.4. Global Plant-based Vaccines Market Attractiveness, by Plant source

8. Global Plant-based Vaccines Market Analysis and Forecast, by Application

    8.1. Introduction & Definition

    8.2. Key Findings / Developments

    8.3. Global Plant-based Vaccines Market Value (US$ Mn) Forecast, by Application, 2017–2030

        8.3.1. Against Infectious Agents

        8.3.2. Anti-Cancer

        8.3.3. Against Autoimmune Disorders

    8.4. Global Plant-based Vaccines Market Attractiveness, by Application

9. Global Plant-based Vaccines Market Analysis and Forecast, by Region

    9.1. Key Findings

    9.2. Global Plant-based Vaccines Market Value (US$ Mn) Forecast, by Region

        9.2.1. North America

        9.2.2. Europe

        9.2.3. Asia Pacific

        9.2.4. Latin America

        9.2.5. Middle East & Africa

    9.3. Global Plant-based Vaccines Market Attractiveness, by Country/Region

10. North America Plant-based Vaccines Market Analysis and Forecast

    10.1. Introduction

        10.1.1. Key Findings

    10.2. North America Plant-based Vaccines Market Value (US$ Mn) Forecast, by Type, 2017–2030

        10.2.1. Bacterial Vaccine

        10.2.2. Viral Vaccine

        10.2.3. Others

    10.3. North America Plant-based Vaccines Market Value (US$ Mn) Forecast, by Plant source, 2017–2030

        10.3.1. Tobacco

        10.3.2. Potato

        10.3.3. Others

    10.4. North America Plant-based Vaccines Market Value (US$ Mn) Forecast, by Application, 2017–2030

        10.4.1. Against Infectious Agents

        10.4.2. Anti-Cancer

        10.4.3. Against Autoimmune Disorders

    10.5. North America Plant-based Vaccines Market Value (US$ Mn) Forecast, by Country, 2017–2030

        10.5.1. U.S.

        10.5.2. Canada

    10.6. North America Plant-based Vaccines Market Attractiveness Analysis

        10.6.1. By Type

        10.6.2. By Plant source

        10.6.3. By Application

        10.6.4. By Country

11. Europe Plant-based Vaccines Market Analysis and Forecast

    11.1. Introduction

        11.1.1. Key Findings

    11.2. Europe Plant-based Vaccines Market Value (US$ Mn) Market Value  Forecast, by Type, 2017–2030

        11.2.1. Bacterial Vaccine

        11.2.2. Viral Vaccine

        11.2.3. Others

    11.3. Europe Plant-based Vaccines Market Value (US$ Mn) Forecast, by Plant source, 2017–2030

        11.3.1. Tobacco

        11.3.2. Potato

        11.3.3. Others

    11.4. Europe Plant-based Vaccines Market Value (US$ Mn) Forecast, by Application, 2017–2030

        11.4.1. Against Infectious Agents

        11.4.2. Anti-Cancer

        11.4.3. Against Autoimmune Disorders

    11.5. Europe Plant-based Vaccines Market Value (US$ Mn) Forecast, by Country/Sub-region, 2017–2030

        11.5.1. Germany

        11.5.2. U.K.

        11.5.3. France

        11.5.4. Spain

        11.5.5. Italy

        11.5.6. Rest of Europe

    11.6. Europe Plant-based Vaccines Market Attractiveness Analysis

        11.6.1. By Type

        11.6.2. By Plant source

        11.6.3. By Application

        11.6.4. By Country/Sub-region

12. Asia Pacific Plant-based Vaccines Market Analysis and Forecast

    12.1. Introduction

        12.1.1. Key Findings

    12.2. Asia Pacific Plant-based Vaccines Market Value (US$ Mn) Forecast, by Type, 2017–2030

        12.2.1. Bacterial Vaccine

        12.2.2. Viral Vaccine

        12.2.3. Others

    12.3. Asia Pacific Plant-based Vaccines Market Value (US$ Mn) Forecast, by Plant source, 2017–2030

        12.3.1. Tobacco

        12.3.2. Potato

        12.3.3. Others

    12.4. Asia Pacific Plant-based Vaccines Market Value (US$ Mn) Forecast, by Application, 2017–2030

        12.4.1. Against Infectious Agents

        12.4.2. Anti-Cancer

        12.4.3. Against Autoimmune Disorders

    12.5. Asia Pacific Plant-based Vaccines Market Value (US$ Mn) Forecast, by Country/Sub-region, 2017–2030

        12.5.1. China

        12.5.2. Japan

        12.5.3. India

        12.5.4. Australia & New Zealand

        12.5.5. Rest of Asia Pacific

    12.6. Asia Pacific Plant-based Vaccines Market Attractiveness Analysis

        12.6.1. By Type

        12.6.2. By Plant source

        12.6.3. By Application

        12.6.4. By Country/Sub-region

13. Latin America Plant-based Vaccines Market Analysis and Forecast

    13.1. Introduction

        13.1.1. Key Findings

    13.2. Latin America Plant-based Vaccines Market Value (US$ Mn) Forecast, by Type, 2017–2030

        13.2.1. Bacterial Vaccine

        13.2.2. Viral Vaccine

        13.2.3. Others

    13.3. Latin America Plant-based Vaccines Market Value (US$ Mn) Forecast, by Plant source, 2017–2030

        13.3.1. Tobacco

        13.3.2. Potato

        13.3.3. Others

    13.4. Latin America Plant-based Vaccines Market Value (US$ Mn) Forecast, by Application, 2017–2030

        13.4.1. Against Infectious Agents

        13.4.2. Anti-Cancer

        13.4.3. Against Autoimmune Disorders

    13.5. Latin America Plant-based Vaccines Market Value (US$ Mn) Forecast, by Country/Sub-region, 2017–2030

        13.5.1. Brazil

        13.5.2. Mexico

        13.5.3. Rest of Latin America

    13.6. Latin America Plant-based Vaccines Market Attractiveness Analysis

        13.6.1. By Type

        13.6.2. By Plant source

        13.6.3. By Application

        13.6.4. By Country/Sub-region

14. Middle East & Africa Plant-based Vaccines Market Analysis and Forecast

    14.1. Introduction

        14.1.1. Key Findings

    14.2. Middle East & Africa Plant-based Vaccines Market Value (US$ Mn) Forecast, by Type, 2017–2030

        14.2.1. Bacterial Vaccine

        14.2.2. Viral Vaccine

        14.2.3. Others

    14.3. Middle East & Africa Plant-based Vaccines Market Value (US$ Mn) Forecast, by Plant source, 2017–2030

        14.3.1. Tobacco

        14.3.2. Potato

        14.3.3. Others

    14.4. Middle East & Africa Plant-based Vaccines Market Value (US$ Mn) Forecast, by Application, 2017–2030

        14.4.1. Against Infectious Agents

        14.4.2. Anti-Cancer

        14.4.3. Against Autoimmune Disorders

    14.5. Middle East & Africa Plant-based Vaccines Market Value (US$ Mn) Forecast, by Country/Sub-region, 2017–2030

        14.5.1. GCC Countries

        14.5.2. South Africa

        14.5.3. Rest of Middle East & Africa

    14.6. Middle East & Africa Plant-based Vaccines Market Attractiveness Analysis

        14.6.1. By Type

        14.6.2. By Plant source

        14.6.3. By Application

        14.6.4. By Country/Sub-region

15. Competition Landscape

    15.1. Market Player – Competition Matrix (By Tier and Size of companies)

    15.2. Market Share Analysis By Company (2020)

    15.3. Company Profiles

        15.3.1. Creative Biolabs

            15.3.1.1. Company Overview

            15.3.1.2. Company Financials

            15.3.1.3. Growth Strategies

            15.3.1.4. SWOT Analysis

        15.3.2. Medicago Inc.

            15.3.2.1. Company Overview

            15.3.2.2. Company Financials

            15.3.2.3. Growth Strategies

            15.3.2.4. SWOT Analysis

        15.3.3. iBio

            15.3.3.1. Company Overview

            15.3.3.2. Company Financials

            15.3.3.3. Growth Strategies

            15.3.3.4. SWOT Analysis

        15.3.4. Fraunhofer Center for Manufacturing Innovation

            15.3.4.1. Company Overview

            15.3.4.2. Company Financials

            15.3.4.3. Growth Strategies

            15.3.4.4. SWOT Analysis

        15.3.5. ICON

            15.3.5.1. Company Overview

            15.3.5.2. Company Financials

            15.3.5.3. Growth Strategies

            15.3.5.4. SWOT Analysis

        15.3.6. EEA Consulting Engineers

            15.3.6.1. Company Overview

            15.3.6.2. Company Financials

            15.3.6.3. Growth Strategies

            15.3.6.4. SWOT Analysis

        15.3.7. Protalix

            15.3.7.1. Company Overview

            15.3.7.2. Company Financials

            15.3.7.3. Growth Strategies

            15.3.7.4. SWOT Analysis

        15.3.8. Kentucky BioProcessing, Inc.

            15.3.8.1. Company Overview

            15.3.8.2. Company Financials

            15.3.8.3. Growth Strategies

            15.3.8.4. SWOT Analysis

        15.3.9. Other Prominent Key Players

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