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Global mRNA vaccine market is poised to grow at an impressive rate during the forecast period on account of the various benefits of mRNA vaccine over DNA vaccine in terms of production, safety, efficacy, and distribution, among others. Global mRNA Vaccine Market is driven by the rising incidence of cancer, genetic abnormalities, and viral infections. Approximately 10 million deaths, or nearly one in six deaths, happened due to cancer in 2020, making it one of the top causes of death globally. TAA (tumor-associated antigens), TSA (tumor-specific antigens), and their related cytokines can all be encoded and expressed by mRNA vaccines, which constitute a significant class of cancer vaccines. These vaccines are more adaptable to various diseases and patients because mRNA cancer vaccines can boost both humoral and cellular immunity. Besides, the sudden outbreak and spread of the COVID-19 pandemic and the success of Moderna's and Pfizer- BioNTech's vaccines against COVID-19 are expected to create new prospects for growth of the mRNA vaccine market in the coming years. This has, in turn, resulted in many biotechnology & pharmaceutical companies and academic & research institutions coming forward and starting research and development and launching clinical trials for the development of different types of mRNA vaccines, thereby creating lucrative opportunities for the growth of global mRNA vaccine market during the forecast period. According to clinicaltrials.gov, around 444 clinical studies related to mRNA Vaccines are in different phases of development being conducted across different parts of the globe.Speak directly to the analyst to clarify any post sales queries you may have.
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The important reason for encouraging extensive study and deployment of mRNA vaccines is their numerous distinctive benefits. One of the main causes for the development of mRNA vaccines is their convenience of production. Simple in form, its active component, RNA, is often produced in vitro utilizing linear DNA as a template. Through codon optimization, nucleoside modification, and an additional delivery method, the stability and translation efficiency of mRNA can be enhanced during this process to create a nucleic acid vaccine with high specificity and resilient stability. The vaccine's safety is another important aspect that encourages widespread use. There is no potential risk of infection or genetic damage because the mRNA does not integrate into the host genome.
mRNA vaccines create proteins that cause human bodies to generate an immune response. Since these vaccines don't involve live viruses, there is absolutely no risk of getting sick after receiving them. The body quickly breaks down mRNA, and cells don't readily take up foreign mRNA. Recent technological advancements have improved the stability of the mRNA molecule and wrapped the molecules in lipids to improve cell delivery effectiveness. These developments boost the production of spike protein in your cells, triggering a stronger immunological response.
Furthermore, owing to recent technological developments in enhanced translation, stability, and delivery methods, messenger RNAs have emerged as a promising therapeutic tool. In fact, mRNA vaccines have opened the door to new pharmacological fields and have become a significant therapeutic class. The development of vaccines is entering a new age because of these mRNA vaccines, which support next-generation vaccinations.
Industry expansion is anticipated to be supported during the projected time by increased investments in the development of cutting-edge and efficient mRNA vaccines. For instance, American mRNA therapeutic developer Arcturus Therapeutics established a Japanese company in Chiba Prefecture in April 2021 as part of a joint venture with Axcelead, Inc., and is currently building a production plant in Minamisoma City, Fukushima Prefecture. In the upcoming years, such investments are probably going to supplement market expansion.
Advantages of mRNA Vaccines
mRNA vaccine production has advantages over the other counterparts, when compared to the production of most vaccines, since it does not require the use of cell cultures. The risk of contamination is smaller than what is seen with other sophisticated vaccine manufacturing techniques because of its quick reaction time. Additionally, mRNA vaccines are safer due to their non-integrative nature and transitory expression within cells. Using lipid-encapsulated or naked forms of sequence-optimized mRNA, mRNA vaccines have produced potent immunity against infectious disease targets in animal models of influenza virus, Zika virus, rabies virus, and others, particularly in recent years.Increasing Research Activities to produce mRNA-based Vaccines
The numerous benefits mRNA offers over other therapeutic modalities, such as higher biological efficacy, enhanced potent immunogenicity, and versatile delivery platforms at low toxicity levels, are the main drivers of the ongoing research and development efforts being made in this field. The development of mRNA-based vaccines to prevent infectious or chronic diseases like diabetes, HIV, cancer, and cardiovascular diseases is the subject of extensive research. There are currently 430 clinical trials using mRNA vaccines to prevent diseases other than COVID-19. The majority of these clinical trials, according to an analysis by Clinicaltrials.gov, are conducted in the United States.A multivalent, mRNA-based vaccine that protects against all 20 known influenza virus subtypes has been created by researchers at the Perelman School of Medicine at the University of Pennsylvania. They take a different approach from earlier attempts to create a universal flu vaccine by including antigens unique to each subtype rather than just a smaller set of antigens shared by subtypes. The SARS-CoV-2 vaccines made by Pfizer and Moderna used the same mRNA technology as this strategy. Penn was a leader in the development of the mRNA technology used in those COVID-19 vaccines.
Market Segmentation
Global mRNA Vaccine Market can be segmented by mRNA type, by application, and by region. Based on mRNA type, the market can be divided into nucleoside-modified mRNA, unmodified mRNA, and self-amplifying mRNA. Based on application the market is divided into COVID-19 mRNA Vaccines, Non COVID-19 mRNA Vaccines, and others. Regionally, the mRNA Vaccine can be categorized into North America, Europe, Asia Pacific, South America, and Middle East & Africa.Market Players
Arcturus Therapeutics Holdings Inc., BioNTech SE, CureVac N.V., Daiichi Sankyo Company Limited., Ethris GmbH, GlaxoSmithKline plc, Gennova Biopharmaceuticals Ltd, Moderna, Inc., Pantherna Therapeutics GmbH, Providence Therapeutics, Silence Therapeutics, Translate Bio, VERSAMEB AG, Verve Therapeutics Inc., are some of the leading players operating in the Global mRNA Vaccine Market.Report Scope:
In this report, Global mRNA Vaccine Market has been segmented into the following categories, in addition to the industry trends, which have also been detailed below:Global mRNA Vaccine Market, By mRNA Type:
- Nucleoside-modified mRNA
- Unmodified mRNA
- Self-Amplifying mRNA
Global mRNA Vaccine Market, By Application:
- COVID-19 mRNA Vaccines
- Non COVID-19 mRNA Vaccines
- Others
Competitive Landscape
Company Profiles: Detailed analysis of the major companies present in Global mRNA Vaccine Market.Available Customizations:
With the given market data, the publisher offers customizations according to a company’s specific needs.This product will be delivered within 1-3 business days.
Table of Contents
1. Product Overview
2. Research Methodology
3. Executive Summary
4. Clinical Trial Analysis
6. Global mRNA Vaccine Market Outlook
7. North America mRNA Vaccine Market Outlook
8. Europe mRNA Vaccine Market Outlook
9. Asia-Pacific mRNA Vaccine Market Outlook
10. South America mRNA Vaccine Market Outlook
11. Middle East and Africa mRNA Vaccine Market Outlook
12. Market Dynamics
13. Market Trends & Developments
15. Porter’s Five Forces Analysis
16. Competitive Landscape
Companies Mentioned
- Arcturus Therapeutics Holdings Inc.
- BioNTech SE
- CureVac N.V.
- Daiichi Sankyo Company Limited.
- Ethris GmbH
- GlaxoSmithKline plc
- Gennova Biopharmaceuticals Ltd
- Moderna, Inc.
- Pantherna Therapeutics GmbH
- Providence Therapeutics
- Silence Therapeutics
- Translate Bio
- VERSAMEB AG
- Verve Therapeutics Inc.