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BiologicsGene Therapeutics & RNAi

PUBLISHER: Roots Analysis | PRODUCT CODE: 1236732

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PUBLISHER: Roots Analysis | PRODUCT CODE: 1236732

Non-Viral Transfection Reagents and Systems Market (2nd Edition) by Type of Non-Viral Transfection Method, End-User, Application Areas and Key Geographical Regions: Industry Trends and Global Forecasts, 2023-2035

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Description

Table of Contents

List of Tables

INTRODUCTION

Nucleic acid-based therapies have been demonstrated to be capable of targeting genetic blueprints in order to enable treatment of a range of disease indications. Over the years, an increasing number of nucleic acid-based therapies have received regulatory approval, highlighting the therapeutic potential and growing popularity of this class of therapeutics. Consequently, this has created increased demand for vectors, which can effectively deliver such therapies. In this context, it is important to note that, conventionally, the production of such therapies was primarily dependent on viral vectors. However, despite the remarkable success in research and development of viral vectors, there are still certain limitations associated with their use. The challenges in use of viral vectors can be attributed to the complications related to immunogenicity and cytotoxicity, cost-intensive development process, and quantity of genetic material, which can be transported in a single run. To mitigate these concerns, innovators are switching to non-viral gene delivery vehicles for the purpose of transfection. Non-viral transfection refers to the targeted delivery of genetic material into a wide variety of cells, using non-viral vectors as the preferred type of carriers. In order to support the growing demand for nucleic acid-based therapies, novel non-viral transfection reagents and systems, which are deemed to be highly suitable for in vitro intracellular delivery, are being developed. Further, considering the growing demand for non-viral vectors and prevalent trends associated with reagents and systems, we believe that this market is likely to witness a steady growth over the coming years.

SCOPE OF THE REPORT

The Non-Viral Transfection Reagents and Systems Market (2nd Edition) - Distribution by Type of Non-Viral Transfection Method (Chemical Methods and Physical Methods), End-User (Academic and Research Institutions, Pharmaceutical Companies and Other End-Users), Application Area (Clinical Applications and Research Applications) and Key Geographical Regions (North America, Europe, Asia-Pacific and Rest of the World): Industry Trends and Global Forecasts, 2023-2035 report features an extensive study of the current market landscape and future opportunity for the players involved in the development of non-viral transfection reagents and systems. The report answers many key questions related to this domain.

Growing Demand for Non-Viral Transfection Reagents and Systems

Non-viral transfection, owing to its multiple benefits, has emerged as a promising alternative for conventional transfection approaches. Advantages offered by this technique include shorter transfection timelines, higher biological efficiency, reduced toxicity levels and versatile nucleic acid delivery. It is worth highlighting that non-viral transfection reagents and systems are anticipated to become a reliable and powerful tool for artificial introduction of genetic materials. At present, several innovator companies are engaged in the development of transfection reagents and systems.

Current Market Landscape of Non-Viral Transfection Reagent and System Developers

The market landscape of non-viral transfection reagent and system developers features a mix of close to 100 large, mid-sized and small companies, which have the required expertise to offer various reagents and systems for non-viral transfection, across different scales of operation. Of these, close to 60 companies have the ability to develop over 185 transfection reagents and transfection kits, that can be used for delivery of genetic materials (DNA, RNA, nucleic acids and proteins). It is worth mentioning that more than 50% of the companies offer lipid-based carrier transfection reagents. Moreover, majority of the transfection reagents are being used for delivery of DNA.

Market Size of Non-Viral Transfection Reagents and Systems Market

Driven by the rising interest in research and development activities and the growing demand for non-viral transfection-based products, the non-viral transfection reagents and systems market is anticipated to witness a noteworthy growth in the foreseen future. Specifically, in terms of type of product, the market is anticipated to be driven by chemical methods of non-viral transfection. Further, in the near future, close to 70% of the market is anticipated to be occupied by the players based in North America and Europe.

Who are the Key Players in the Non-Viral Transfection Reagents and Systems Market

Examples of players engaged in this domain (which have also been captured in this report) include Altogen Biosystems, Bio-Rad Laboratories, BEX, BTX (A subsidiary of Harvard Bioscience), Imunon (Formerly known as Celsion), Genprex, Inovio Pharmaceuticals, MaxCyte, MilliporeSigma, Nepa Gene, OZ Biosciences and Thermo Fisher Scientific.

The study presents an in-depth analysis, across different geographies, highlighting the capabilities of various stakeholders engaged in this domain. Amongst other elements, the report includes:

  • An executive summary of the insights captured during our research. It offers a high-level view on the current state of non-viral transfection reagents and systems market and its likely evolution in the mid-long term.
  • A general overview of non-viral transfection reagents and systems, highlighting details on transfection methods and its applications, such as advanced therapy medicinal product development, gene silencing, bioproduction of therapeutic protein and stem cell engineering. It also provides information on the different methods of transfection (viral and non-viral), types of viral vectors (AAV, adenoviral, lentiviral, retroviral and others), along with details on chemical methods (lipoplexes, polyplexes, lipoplexes and others) and physical methods (electroporation, gene gun, sonoporation, magnetofection and others) of transfection.
  • A detailed assessment of the overall market landscape of the companies developing non-viral transfection reagents, based on several relevant parameters, such as type of carrier used (lipid-based carrier, polymer-based carrier, protein-based carrier, nanotechnology-based carrier, calcium phosphate-based carrier and minicircle-based carrier), compatible cell type (human cell, monkey cell, murine cell and other cell), type of molecule delivered (DNA and RNA), and serum compatibility (serum free and serum compatibility). It also features information on the non-viral transfection reagent developers, highlighting the year of establishment, company size and location of headquarters.
  • A detailed assessment of the overall market landscape of the companies developing electroporation-based non-viral transfection systems. The relevant parameters used for the assessment include, compatible cell type (human mammalian cells and other mammalian cells) and type of molecule delivered (DNA and RNA). It also features information on the electroporation transfection systems developers, highlighting the year of establishment, company size and location of headquarters.
  • A detailed assessment of the overall market landscape of the companies developing other non-viral transfection systems. The relevant parameters used for the assessment include, compatible cell type (human mammalian cells and other mammalian cells) and type of molecule delivered (DNA and RNA). It also features information on the other non-viral transfection systems developers, highlighting the year of establishment, company size and location of headquarters.
  • An in-depth company competitiveness analysis of non-viral transfection reagent and system developers based in North America, Europe and Asia-Pacific. The analysis compares various developers based on developer strength (in terms of years of experience and company size) and product portfolio strength (type of carrier used, compatible cell type, type of molecule delivered and serum compatibility).
  • A detailed technology competitiveness analysis of electroporation transfection systems and other non-viral transfection systems, taking into consideration the developer strength (based on the year of establishment and company size of developer) and product portfolio strength (in terms of compatible cell type and type of molecule delivered).
  • Tabulated profiles of key players engaged in the development of non-viral transfection reagents and systems (shortlisted based on the type of carrier used, compatible cell type, type of molecule delivered and serum compatibility). Each profile includes a brief overview of the company, financial information (if available), recent developments and an informed future outlook.
  • An in-depth analysis of over 80 cell (including TCR and CAR-T cell) and gene therapy developers that are likely to partner with non-viral transfection reagent and system developers, based on several relevant parameters, such as pipeline maturity (which takes into account the phase of development), developer strength (in terms of number of employees), pipeline strength (based on the number of non-viral transfection reagents in pipeline), and type of therapy.
  • A review of the various non-viral focused initiatives undertaken by big pharma players (shortlisted on the basis of the revenues generated in 2021), featuring various insightful representations, based on year of initiative, type of initiative (in terms of collaborations and funding), type of therapy (in terms of cell and gene therapies) and target therapeutic area.
  • An in-depth analysis of close to 870 patents that have been filed / granted related to non-viral transfection systems, since 2019, highlighting key trends associated with these patents, across type of patent, publication year, application year, geography, type of applicant, CPC symbols, emerging focus areas, leading players (in terms of number of patents granted / filed). In addition, the chapter includes a detailed patent benchmarking and an insightful valuation analysis.
  • A detailed analysis of more than 450 peer-reviewed, scientific articles focused on non-viral transfection reagents and systems that have been published since 2015, based on year of publication, type of publication, type of molecule delivered, target therapeutic area, key focus areas, popular cells and cell lines. The chapter also highlights the leading publishers across different geographies, key journals (in terms of number of articles published).
  • An insightful framework to understand the pricing strategy of the non-viral transfection reagents offered by a company, along with its competitive position in the market. In addition, it presents the equation devised to calculate the likely price of non-viral transfection reagents based upon their characteristics.

One of the key objectives of the report was to understand the primary growth drivers and estimate the future opportunity within the market. Based on several parameters, such as annual number of transfections, share of non-viral systems within the transfections market, cost per transfection and expected annual growth rate across various geographies, we have provided an informed estimates of the likely evolution of the market in the mid to long term, for the period 2023-2035. Our year-wise projections of the current and future opportunity have further been segmented based on relevant parameters, such as type of non-viral transfection method (chemical method, and physical method), end-user (academic and research institutions, pharmaceutical companies and other end-users), application area (clinical applications and research applications) and key geographical regions (North America, Europe, Asia-Pacific and Rest of the World). In order to account for future uncertainties associated with some of the key parameters and to add robustness to our model, we have provided three market forecast scenarios, portraying the conservative, base and optimistic scenarios of the industry's evolution.

The opinions and insights presented in the report were influenced by discussions held with stakeholders in this domain. The report features detailed transcript of interview held with the industry stakeholders.

All actual figures have been sourced and analyzed from publicly available information forums and primary research discussions. Financial figures mentioned in this report are in USD, unless otherwise specified.

RESEARCH METHODOLOGY

The data presented in this report has been gathered via secondary and primary research. For all our projects, we conduct interviews / surveys with experts in the area (academia, industry, medical practice and other associations) to solicit their opinions on emerging trends in the market. This is primarily useful for us to draw out our own opinion on how the market will evolve across different regions and technology segments. Wherever possible, the available data has been checked for accuracy from multiple sources of information.

The secondary sources of information include:

  • Annual reports
  • Investor presentations
  • SEC filings
  • Industry databases
  • News releases from company websites
  • Government policy documents
  • Industry analysts' views

While the focus has been on forecasting the market till 2035, the report also provides our independent view on various emerging trends in the industry. This opinion is solely based on our knowledge, research and understanding of the relevant market, gathered from various secondary and primary sources of information.

KEY QUESTIONS ANSWERED

Question 1: How is the research and development (R&D) activity evolving in the non-viral transfection reagents and systems domain?

Answer: Presently, the non-viral transfection reagents and systems market represents one of the fastest expanding segments of the biopharmaceutical domain. The increasing number of patents (~870 patents in past four years) and publications (~455 publications in past seven years) focused on non-viral vectors demonstrate the continued innovation being carried out in this domain.

Question 2: How many companies offer non-viral transfection reagents and systems?

Answer: At present, close to 100 companies have the required capabilities to offer non-viral transfection reagents and systems across different scales of operation. Further, several developers are entering into strategic alliances in order to consolidate their presence in this field and enhance their existing capabilities related to non-viral transfection systems.

Question 3: What are the different types of initiatives being undertaken by big pharma players for the manufacturing of non-viral transfection reagents and systems?

Answer: More than 10 big pharma players have undertaken several collaborative initiatives related to various transfection reagents and systems. 70% of the collaborations inked by big pharma players in this domain have been focused on research and development.

Question 4: Which segment is likely to have the largest share in the non-viral transfection reagents and systems market?

Answer: Presently, chemical-based transfection method dominates the non-viral transfection reagents and systems market. However, the market is anticipated to be driven by electroporation-based transfection methods, in the foreseen future.

Question 5: How is the non-viral transfection reagents and systems market likely to evolve in the coming years?

Answer: The non-viral transfection reagents and systems market is projected to grow at a CAGR of ~10% in the coming years. Currently, in terms of end-user, the market is likely to be driven by research institutions, followed by pharmaceutical companies. Specifically, in terms of geographical regions, the non-viral reagents and systems market in Europe is anticipated to grow at a relatively faster pace (~13%), in the long term.

CHAPTER OUTLINES

  • Chapter 1 is a preface providing an introduction to the full report, Non-Viral Transfection Reagents and Systems Market (2nd Edition), 2023-2035.
  • Chapter 2 is an executive summary of the insights captured during our research. It offers a high-level view on the current state of non-viral transfection reagents and systems market and its likely evolution in the mid-long term.
  • Chapter 3 provides a general overview of non-viral transfection reagents and systems, highlighting details on transfection and its applications, such as advanced therapy medicinal product development, gene silencing, bioproduction of therapeutic protein and stem cell engineering. It also provides information on the different methods of transfection (viral and non-viral), types of viral vectors (AAV, adenoviral, lentiviral, retroviral and others), along with details on chemical methods (lipoplexes, polyplexes, lipoplexes and others) and physical methods (electroporation, gene gun, sonoporation, magnetofection and others) of transfection.
  • Chapter 4 highlights a detailed assessment of the overall market landscape of the companies developing non-viral transfection reagents, based on several relevant parameters, such as type of carrier used (lipid-based carrier, polymer-based carrier, protein-based carrier, nanotechnology-based carrier, calcium phosphate-based carrier and minicircle-based carrier), compatible cell type (human cell, monkey cell, murine cell and other cell), type of molecule delivered (DNA and RNA), and serum compatibility (serum free and serum compatibility). It also features information on the non-viral transfection reagent developers, highlighting the year of establishment, company size and location of headquarters.
  • Chapter 5 includes a detailed assessment of the overall market landscape of the companies developing electroporation-based non-viral transfection systems. The relevant parameters used for the assessment include, compatible cell type (human mammalian cells and other mammalian cells) and type of molecule delivered (DNA and RNA). It also features information on the electroporation based-transfection systems developers, highlighting the year of establishment, company size and location of headquarters.
  • Chapter 6 includes a detailed assessment of the overall market landscape of the companies developing other non-viral transfection systems. The relevant parameters used for the assessment include, compatible cell type (human mammalian cells and other mammalian cells) and type of molecule delivered (DNA and RNA). It also features information on the other non-viral transfection systems developers, highlighting the year of establishment, company size and location of headquarters.
  • Chapter 7 includes an in-depth company competitiveness analysis of non-viral transfection reagent and system developers based in North America, Europe and Asia-Pacific. The analysis compares various developers based on developer strength (in terms of years of experience and company size) and product portfolio strength (type of carrier used, compatible cell type, type of molecule delivered and serum compatibility).
  • Chapter 8 presents a detailed technology competitiveness analysis of electroporation-based transfection systems and other non-viral transfection systems, taking into consideration the developer strength (based on the year of establishment and company size of developer) and product portfolio strength (in terms of compatible cell type and type of molecule delivered).
  • Chapter 9 presents tabulated profiles of key players engaged in the development of non-viral transfection reagents and systems (shortlisted based on the type of carrier used, compatible cell type, type of molecule delivered and serum compatibility). Each profile includes a brief overview of the company, financial information (if available), recent developments and an informed future outlook.
  • Chapter 10 presents an in-depth analysis of over 80 cell (including TCR and CAR-T cell) and gene therapy developers that are likely to partner with non-viral transfection reagent and system developers, based on several relevant parameters, such as pipeline maturity (which takes into account the phase of development), developer strength (in terms of number of employees), pipeline strength (based on the number of non-viral transfection reagents in pipeline), and type of therapy.
  • Chapter 11 provides a review of the various non-viral focused initiatives undertaken by big pharma players (shortlisted on the basis of the revenues generated in 2021), featuring various insightful representations, based on year of initiative, type of initiative (in terms of collaborations and funding), type of therapy (in terms of cell and gene therapies) and target therapeutic area.
  • Chapter 12 features an in-depth analysis of close to 900 patents that have been filed / granted related to non-viral transfection systems, since 2019, highlighting key trends associated with these patents, across type of patent, publication year, application year, geography, type of applicant, CPC symbols, emerging focus areas, leading players (in terms of number of patents granted / filed). In addition, the chapter includes a detailed patent benchmarking and an insightful valuation analysis.
  • Chapter 13 features a detailed analysis of more than 450 peer-reviewed, scientific articles focused on non-viral transfection reagents and systems that have been published since 2015, based on year of publication, type of publication, type of molecule delivered, target therapeutic area, key focus areas, popular cells and cell lines. The chapter also highlights the leading publishers across different geographies, key journals (in terms of number of articles published).
  • Chapter 14 presents an insightful framework to understand the pricing strategy of the non-viral transfection reagents offered by a company, along with its competitive position in the market. In addition, it presents the equation devised to calculate the likely price of non-viral transfection reagents based upon their characteristics.
  • Chapter 15 features the likely distribution of the future opportunity across, non-viral transfection systems (chemical method and physical method ), end-user (academic and research institutions, pharmaceutical companies and other end-users), application area (clinical application and research application) and geographical regions (North America, Europe, Asia-Pacific and rest of the world). In order to account for future uncertainties associated with some of the key parameters and to add robustness to our model, we have provided three market forecast scenarios, portraying the conservative, base and optimistic scenarios of the industry's evolution.
  • Chapter 16 summarizes the entire report. It presents a list of key takeaways and offers our independent opinion on the current market scenario. Further, it summarizes the various evolutionary trends that are likely to influence the future of this market.
  • Chapter 17 provides the transcripts of interviews conducted with key stakeholders in this industry.
  • Chapter 18 is an appendix, that contains tabulated data and numbers for all the figures provided in the report.
  • Chapter 19 is an appendix, that provides the list of companies and organizations mentioned in the report.
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Product Code: RA100420

TABLE OF CONTENTS

1. PREFACE

  • 1.1. Chapter Overview
  • 1.2. Key Insights
  • 1.3. Scope of the Report
  • 1.4. Research Methodology
  • 1.5. Frequently Asked Questions
  • 1.6. Chapter Outlines

2. EXECUTIVE SUMMARY

3. INTRODUCTION

  • 3.1. Chapter Overview
  • 3.2. Introduction to Transfection
  • 3.3. Methods of Transfection
    • 3.3.1. Viral Transfection Systems
      • 3.3.1.1. Types of Viral Transfection Vectors
        • 3.3.1.1.1. Adeno-associated Virus-based Vectors
        • 3.3.1.1.2. Adenovirus-based Vectors
        • 3.3.1.1.3. Herpes Virus-based Vectors
        • 3.3.1.1.4. Lentivirus-based Vectors
        • 3.3.1.1.5. Retroviral-based Vectors
    • 3.3.2. Non-Viral Transfection Systems
      • 3.3.2.1. Chemical-based Transfection
        • 3.3.2.1.1. Lipoplexes-based Transfection
        • 3.3.2.1.2. Polyplexes-based Transfection
        • 3.3.2.1.3. Lipo-polyplexes-based Transfection
        • 3.3.2.1.4. Dendrimer-based Transfection
        • 3.3.2.1.5. Cell Penetrating Peptide-based Transfection
      • 3.3.2.2. Physical Transfection Systems
        • 3.3.2.2.1. Electroporation-based Transfection
        • 3.3.2.2.2. Gene Gun-based Transfection
        • 3.3.2.2.3. Sonoporation-based Transfection
        • 3.3.2.2.4. Microinjection-based Transfection
        • 3.3.2.2.5. Magnetofection-based Transfection
  • 3.4. Applications of Transfection
    • 3.4.1. Advanced Therapeutic Medicinal Product Development
    • 3.4.2. Gene Silencing
    • 3.4.3. Generation of Stable Cell Lines
    • 3.4.4. Large-scale Protein Production
    • 3.4.5. Stem Cell Engineering
  • 3.5. Future Perspectives

4. NON-VIRAL TRANSFECTION REAGENTS: MARKET LANDSCAPE

  • 4.1. Chapter Overview
  • 4.2. List of Non-Viral Transfection Reagents
    • 4.2.1. Analysis by Type of Carrier Used
    • 4.2.2. Analysis by Compatible Cell Type
    • 4.2.3. Analysis by Type of Molecule Delivered
    • 4.2.4. Analysis by Serum Compatibility
  • 4.3 List of Non-Viral Transfection Reagent Developers
    • 4.3.1. Analysis by Year of Establishment
    • 4.3.2. Analysis by Company Size
    • 4.3.3. Analysis by Location of Headquarters (Region-wise)
    • 4.3.4. Analysis by Location of Headquarters (Country-wise)

5. ELECTROPORATION-BASED TRANSFECTION SYSTEMS: MARKET LANDSCAPE

  • 5.1. Chapter Overview
  • 5.2. List of Electroporation-based Transfection Systems
    • 5.2.1. Analysis by Compatible Cell Type
    • 5.2.2. Analysis by Type of Molecule Delivered
  • 5.3. List of Electroporation-based Transfection System Developers
    • 5.3.1. Analysis by Year of Establishment
    • 5.3.2. Analysis by Company Size
    • 5.2.3. Analysis by Location of Headquarters (Region -wise)
    • 5.3.4. Analysis by Location of Headquarters (Country-wise)

6. OTHER NON-VIRAL TRANSFECTION SYSTEMS: MARKET LANDSCAPE

  • 6.1. Chapter Overview
  • 6.2. List of Other Non-Viral Transfection Systems
    • 6.2.1. Analysis by Compatible Cell Type
    • 6.2.2. Analysis by Type of Molecule Delivered
  • 6.3. List of Other Non-Viral Transfection System Developers
    • 6.3.1. Analysis by Year of Establishment
    • 6.3.2. Analysis by Company Size
    • 6.3.3. Analysis by Location of Headquarters (Region-wise)
    • 6.3.4. Analysis by Location of Headquarters (Country-wise)

7. COMPANY COMPETITIVENESS ANALYSIS

  • 7.1. Chapter Overview
  • 7.2. Methodology and Key Parameters
  • 7.3. Non-Viral Transfection Reagent Developers: Company Competitiveness Analysis
    • 7.3.1. Non-Viral Transfection Reagent Developers based in North America
    • 7.3.2. Non-Viral Transfection Reagent Developers based in Europe
    • 7.3.3. Non-Viral Transfection Reagent Developers based in Asia-Pacific and Rest of the World

8. TECHNOLOGY COMPETITIVENESS ANALYSIS

  • 8.1. Chapter Overview
  • 8.2. Methodology and Key Parameters
  • 8.3. Electroporation-based Transfection Systems: Technology Competitiveness Analysis
    • 8.3.1. Technologies Offered by Players based in North America
    • 8.3.2. Technologies Offered by Players based in Europe
    • 8.3.3. Technologies Offered by Players based in Asia-Pacific and Rest of the World
  • 8.4. Other Non-Viral Transfection Systems: Technology Competitiveness Analysis
    • 8.4.1. Technologies Offered by Players based in North America
    • 8.4.2. Technologies Offered by Players based in Europe
    • 8.4.3. Technologies Offered by Players based in Asia-Pacific and Rest of the World

9. COMPANY PROFILES

  • 9.1. Chapter Overview
  • 9.2. Non-Viral Transfection Reagent Developers
    • 9.2.1. MilliporeSigma
      • 9.2.1.1. Company Overview
      • 9.2.1.2. Financial Information
      • 9.2.1.3. Recent Developments and Future Outlook
    • 9.2.2. OZ Biosciences
      • 9.2.2.1. Company Overview
      • 9.2.2.2. Recent Developments and Future Outlook
    • 9.2.3. Thermo Fisher Scientific
      • 9.2.3.1. Company Overview
      • 9.2.3.2. Financial Information
      • 9.2.3.3. Recent Development and Future Outlook
  • 9.3. Electroporation-based Transfection System Developers
    • 9.3.1. BEX
      • 9.3.1.1. Company Overview
      • 9.3.1.2. Recent Developments and Future Outlook
    • 9.3.2. Bio-Rad Laboratories
      • 9.3.2.1. Company Overview
      • 9.3.2.2. Financial Information
      • 9.3.2.3. Recent Developments and Future Outlook
    • 9.3.3. BTX (A subsidiary of Harvard Bioscience)
      • 9.3.3.1. Company Overview
      • 9.3.3.2. Recent Developments and Future Outlook
    • 9.3.4. MaxCyte
      • 9.3.4.1. Company Overview
      • 9.3.4.2. Financial Information
      • 9.3.4.3. Recent Developments and Future Outlook
    • 9.3.5. NepaGene
      • 9.3.5.1. Company Overview
      • 6.3.5.2. Recent Developments and Future Outlook
  • 9.4. Other Non-Viral Transfection System Developers
    • 9.4.1. Imunon (Formerly known as Celsion)
      • 9.4.1.1. Company Overview
      • 9.4.1.2. Recent Developments and Future Outlook
    • 9.4.2. Genprex
      • 9.4.2.1. Company Overview
      • 9.4.2.2. Financial Information
      • 9.4.2.3. Recent Developments and Future Outlook
    • 9.4.3. Inovio Pharmaceuticals
      • 9.4.3.1. Company Overview
      • 9.4.3.2. Financial Information
      • 9.4.3.3. Recent Developments and Future Outlook

10. POTENTIAL STRATEGIC PARTNERS

  • 10.1. Chapter Overview
  • 10.2. Scope and Methodology
  • 10.3. Non-Viral Transfection System Developers: Potential Strategic Partners in North America
    • 10.3.1. Most Likely Partners
    • 10.3.2. Likely Partners
    • 10.3.3. Less Likely Partners
    • 10.3.4. Least Likely Partners
  • 10.4. Non-Viral Transfection System Developers: Potential Strategic Partners in Europe
    • 10.4.1. Most Likely Partners
    • 10.4.2. Likely Partners
    • 10.4.3. Less Likely Partners
  • 10.5. Non-Viral Transfection System Developers: Potential Strategic Partners in Asia-Pacific and Rest of the World
    • 10.5.1. Most Likely Partners
    • 10.5.2. Likely Partners
    • 10.5.3. Less Likely Partners

11. BIG PHARMA INITIATIVES

  • 11.1. Chapter Overview
  • 11.2. Scope and Methodology
  • 11.3. None-Viral Transfection Reagents and System Developers: Big Pharma Initiatives
    • 11.3.1. Analysis by Year of Initiative
    • 11.3.2. Analysis by Number of Initiative
    • 11.3.3. Analysis by Type of Initiative
    • 11.3.4. Analysis by Type of Therapy
    • 11.3.5. Analysis by Target Therapeutic Area

12. PATENT ANALYSIS

  • 12.1. Chapter Overview
  • 12.2. Scope and Methodology
  • 12.3. Non-Viral Transfection Reagents and Systems: Patent Analysis
    • 12.3.1. Analysis by Publication Year
    • 12.3.2. Analysis by Application Year
    • 12.3.3. Analysis by Patent Jurisdiction
    • 12.3.4. Analysis by Type of Applicant
    • 12.3.5. Analysis by CPC Sections
    • 12.3.6. Analysis by Emerging Focus Areas (Word Cloud Representation)
    • 12.3.7. Leading Players: Analysis by Number of Patents
  • 12.4. Non-Viral Transfection Reagents and Systems: Patent Benchmarking Analysis
    • 12.4.1. Analysis by Patent Characteristics (CPC Symbols)
    • 12.4.2. Analysis by Geography
  • 12.5. Non-Viral Transfection Reagents and Systems: Patent Valuation Analysis

13. PUBLICATION ANALYSIS

  • 13.1. Chapter Overview
  • 13.2. Scope and Methodology
  • 13.3. Non-Viral Transfection Reagents and Systems: Recent Publications
  • 13.4. Analysis by Year of Publication
  • 13.5. Analysis by Type of Publication
  • 13.6. Analysis by Type of Molecule Delivered
  • 13.7. Analysis by Target Therapeutic Area
  • 13.8. Analysis by Key Focus Areas (Word Cloud Representation)
  • 13.9. Analysis by Prominent Cells and Cell Lines (Word Cloud Representation)
  • 13.10 Leading Publishers: Analysis by Number of Publications
  • 13.11. Prominent Journals: Analysis by Number of Publications
  • 13.12. Prominent Copyright Holders: Analysis by Number of Publications
  • 13.13 Key Funding Institutes: Analysis by Number of Publications

14. ROOTS ANALYSIS PRICING STRATEGY FRAMEWORK

  • 14.1. Chapter Overview
  • 14.2 Roots Analysis Framework
    • 14.2.1. Methodology
    • 14.2.2. Theoretical Framework and Price Evaluation Hypothesis
    • 14.2.3. Results and Interpretation
      • 14.2.3.1. Product Price Evaluation Matrix: Based on Transfection Efficiency
      • 14.2.3.2. Product Price Evaluation Matrix: Based on Compatible Cell Type
      • 14.2.3.3. Product Price Evaluation Matrix: Based on Type of Carrier Used
      • 14.2.3.4. Product Price Evaluation Matrix: Based on Type of Molecule Delivered
      • 14.2.3.5. Product Price Evaluation Matrix: Based on Serum Compatibility
  • 14.3. Concluding Remarks

15. MARKET SIZING AND OPPORTUNITY ANALYSIS

  • 15.1. Chapter Overview
  • 15.2. Forecast Methodology and Key Assumptions
  • 15.3. Non-Viral Transfection Reagents and Systems Market, 2023-2035
  • 15.4. Non-Viral Transfection Reagents and Systems Market: Analysis by Type of Non-Viral Transfection Method, 2023 and 2035
  • 15.5. Non-Viral Transfection Reagents and Systems Market: Analysis by End-User, 2023 and 2035
  • 15.6. Non-Viral Transfection Reagents and Systems Market: Analysis by Application Area, 2023 and 2035
  • 15.7. Non-Viral Transfection Reagents and Systems Market: Analysis by Key Geographical Regions, 2023 and 2035
    • 15.7.1. Non-Viral Transfection Reagents and Systems Market in North America, 2023-2035
      • 15.7.1.1. Non-Viral Transfection Reagents and Systems Market in North America: Analysis by Type of End-User, 2023-2035
        • 15.7.1.1.1. Non-Viral Transfection Reagents and Systems Market in North America for Pharmaceutical Companies, 2023-2035
        • 15.7.1.1.2. Non-Viral Transfection Reagents and Systems Market in North America for Academic and Research Institutions, 2023-2035
        • 15.7.1.1.3. Non-Viral Transfection Reagents and Systems Market in North America for Other End-Users, 2023-2035
      • 15.7.1.2. Non-Viral Transfection Reagents and Systems Market in North America: Analysis by Application Area, 2023-2035
        • 15.7.1.2.1. Non-Viral Transfection Reagents and Systems Market in North America for Research Applications, 2023-2035
        • 15.7.1.2.2. Non-Viral Transfection Reagents and Systems Market in North America for Clinical Applications, 2023-2035
    • 15.7.2. Non-Viral Transfection Reagents and Systems Market in Europe, 2023-2035
      • 15.7.2.1. Non-Viral Transfection Reagents and Systems Market in Europe: Analysis by Type of End-User, 2023-2035
        • 15.7.2.1.1. Non-Viral Transfection Reagents and Systems Market in Europe for Pharmaceutical Companies, 2023-2035
        • 15.7.2.1.2. Non-Viral Transfection Reagents and Systems Market in Europe for Academic and Research Institutions, 2023-2035
        • 15.7.2.1.3. Non-Viral Transfection Reagents and Systems Market in Europe for Other End-Users, 2023-2035
      • 15.7.2.2. Non-Viral Transfection Reagents and Systems Market in Europe: Analysis by Application Area, 2023-2035
        • 15.7.2.2.1. Non-Viral Transfection Reagents and Systems Market in Europe for Research Applications, 2023-2035
        • 15.7.2.2.2. Non-Viral Transfection Reagents and Systems Market in Europe for Clinical Applications, 2023-2035
    • 15.7.3. Non-Viral Transfection Reagents and Systems Market in Asia-Pacific, 2023-2035
      • 15.7.3.1. Non-Viral Transfection Reagents and Systems Market in Asia-Pacific: Analysis by Type of End-User, 2023-2035
        • 15.7.3.1.1. Non-Viral Transfection Reagents and Systems Market in Asia-Pacific for Pharmaceutical Companies, 2023-2035
        • 15.7.3.1.2. Non-Viral Transfection Reagents and Systems Market in Asia-Pacific for Academic and Research Institutions, 2023-2035
        • 15.7.3.1.3. Non-Viral Transfection Reagents and Systems Market in Asia-Pacific for Other End-Users, 2023-2035
      • 15.7.3.2. Non-Viral Transfection Reagents and Systems Market in Asia-Pacific: Analysis by Application Area, 2023-2035
        • 15.7.3.2.1. Non-Viral Transfection Reagents and Systems Market in Asia-Pacific for Research Applications, 2023-2035
        • 15.7.3.2.2. Non-Viral Transfection Reagents and Systems Market in Asia-Pacific for Clinical Applications, 2023-2035
    • 15.7.4. Non-Viral Transfection Reagents and Systems Market in Rest of the World, 2023-2035
      • 15.7.4.1. Non-Viral Transfection Reagents and Systems Market in Rest of the World: Analysis by Type of End-User, 2023-2035
        • 15.7.4.1.1. Non-Viral Transfection Reagents and Systems Market in Rest of the World for Pharmaceutical Companies, 2023-2035
        • 15.7.4.1.2. Non-Viral Transfection Reagents and Systems Market in Rest of the World for Academic and Research Institutions, 2023-2035
        • 15.7.4.1.3. Non-Viral Transfection Reagents and Systems Market in Rest of the World for Other End-Users, 2023-2035
      • 15.7.4.2. Non-Viral Transfection Reagents and Systems Market in Rest of the World: Analysis by Application Area, 2023-2035
        • 15.7.4.2.1. Non-Viral Transfection Reagents and Systems Market in Rest of the World for Research Applications, 2023-2035
        • 15.7.4.2.2. Non-Viral Transfection Reagents and Systems Market in Rest of the World for Clinical Applications, 2023-2035

16. EXECUTIVE INSIGHTS

17. CONCLUSION

18. APPENDIX I: TABULATED DATA

19. APPENDIX II: LIST OF COMPANIES AND ORGANIZATIONS

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Product Code: RA100420

LIST OF TABLES

  • Table 3.1. Specifications of Viral Vectors
  • Table 4.1. Non-Viral Transfection Reagents: Information on Type of Carrier Used, Compatible Cell Type and Volume of Reagent (per unit)
  • Table 4.2. Non-Viral Transfection Reagents: Information on Type of Molecule Delivered, Serum Compatibility and Transfection Efficiency
  • Table 4.3. Non-Viral Transfection Reagents: Information on Storage Temperature, Number of Transfections Per Unit Volume of Reagent and Cost of Reagent (USD)
  • Table 4.4. Non-Viral Transfection Reagent Developers: Information on Year of Establishment, Company Size and Location of Headquarters
  • Table 5.1. Electroporation-based Transfection Systems: Information on Compatible Cell Type and Type of Molecule Delivered
  • Table 5.2. Electroporation-based Transfection Systems: Information Output Voltage, Pulse and Cost of System (USD)
  • Table 5.3. Electroporation-based Transfection System Developers: Information on Year of Establishment, Company Size and Location of Headquarters
  • Table 6.1. Other Non-Viral Transfection Systems: Information on Compatible Cell Type and Type of Molecule Delivered
  • Table 6.2 Other Non-Viral Transfection System Developers: Information on Year of Establishment, Company Size and Location of Headquarters
  • Table 9.1. List of Companies Profiled
  • Table 9.2. Altogen Biosystems: Company Snapshot
  • Table 9.3. Altogen Biosystems: Recent Developments and Future Outlook
  • Table 9.4. Millipore Sigma: Company Snapshot
  • Table 9.5. Millipore Sigma: Recent Developments and Future Outlook
  • Table 9.6. OZ Biosciences: Company Snapshot
  • Table 9.7. OZ Biosciences: Recent Developments and Future Outlook
  • Table 9.8. Thermo Fisher Scientific: Company Snapshot
  • Table 9.9. Thermo Fisher Scientific: Recent Developments and Future Outlook
  • Table 9.10. BEX: Company Snapshot
  • Table 9.11. BEX: Recent Developments and Future Outlook
  • Table 9.12. Bio-Rad Laboratories: Company Snapshot
  • Table 9.13. Bio-Rad Laboratories: Recent Developments and Future Outlook
  • Table 9.14. BTX: Company Snapshot
  • Table 9.15. BTX: Recent Developments and Future Outlook
  • Table 9.16. MaxCyte: Company Snapshot
  • Table 9.17. MaxCyte: Recent Developments and Future Outlook
  • Table 9.18. NepaGene: Company Snapshot
  • Table 9.19. NepaGene: Recent Developments and Future Outlook
  • Table 9.20. Imunon: Company Snapshot
  • Table 9.21. Imunon: Recent Developments and Future Outlook
  • Table 9.22. Genprex: Company Snapshot
  • Table 9.23. Genprex: Recent Developments and Future Outlook
  • Table 9.24. Inovio Pharmaceuticals: Company Snapshot
  • Table 9.25. Inovio Pharmaceuticals: Recent Developments and Future Outlook
  • Table 10.1. Most Likely Partners: Non-Viral Vector-based Therapy Developers Headquartered in North America
  • Table 10.2. Likely Partners: Non-Viral Vector-based Therapy Developers Headquartered in North America
  • Table 10.3. Less Likely Partners: Non-Viral Vector-based Therapy Developers Headquartered in North America
  • Table 10.4. Least Likely Partners: Non-Viral Vector-based Therapy Developers Headquartered in North America
  • Table 10.5. Most Likely Partners: Non-Viral Vector-based Therapy Developers Headquartered in Europe
  • Table 10.6. Likely Partners: Non-Viral Vector-based Therapy Developers Headquartered in Europe
  • Table 10.7. Less Likely Partners: Non-Viral Vector-based Therapy Developers Headquartered in Europe
  • Table 10.8. Most Likely Partners: Non-Viral Vector-based Therapy Developers Headquartered in Asia-Pacific and Rest of the World
  • Table 10.9. Likely Partners: Non-Viral Vector-based Therapy Developers Headquartered in Asia-Pacific and Rest of the World
  • Table 10.10. Less Likely Partners: Non-Viral Vector-based Therapy Developers Headquartered in Asia-Pacific and Rest of the World
  • Table 11.1. Big Pharma Initiatives: List of Non-Viral Transfection Focused Initiatives
  • Table 12.1. Patent Analysis: Top CPC Sections
  • Table 12.2. Patent Analysis: Top CPC Symbols
  • Table 12.3. Patent Analysis: Top CPC Codes
  • Table 12.4. Patent Analysis: Summary of Benchmarking Analysis
  • Table 12.5. Patent Analysis: List of Leading Patents (by Highest Relative Valuation)
  • Table 14.1. Product Price Evaluation Matrix: Based on Transfection Efficiency
  • Table 14.2. Product Price Evaluation Matrix: Based on Compatible Cell Type
  • Table 14.3. Product Price Evaluation Matrix: Based on Type of Carrier Used
  • Table 14.4. Product Price Evaluation Matrix: Based on Type of Molecule Delivered
  • Table 14.5. Product Price Evaluation Matrix: Based on Serum Compatibility
  • Table 18.1. Non-Viral Transfection Reagents: Distribution by Type of Carrier Used
  • Table 18.2. Non-Viral Transfection Reagents: Distribution by Compatible Cell Type
  • Table 18.3. Non-Viral Transfection Reagents: Distribution by Type of Molecule Delivered
  • Table 18.4. Non-Viral Transfection Reagents: Distribution by Serum Compatibility
  • Table 18.5. Non-Viral Transfection Reagent Developers: Distribution by Year of Establishment
  • Table 18.6. Non-Viral Transfection Reagent Developers: Distribution by Company Size
  • Table 18.7. Non-Viral Transfection Reagent Developers: Distribution by Location of Headquarters (Region-wise)
  • Table 18.8. Non-Viral Transfection Reagent Developers: Distribution by Location of Headquarters (Country-wise)
  • Table 18.9. Electroporation-based Transfection Systems: Distribution by Compatible Cell Type
  • Table 18.10. Electroporation-based Transfection Systems: Distribution by Type of Molecule Delivered
  • Table 18.11. Electroporation-based Transfection System Developers: Distribution by Year of Establishment
  • Table 18.12. Electroporation-based Transfection System Developers: Distribution by Company Size
  • Table 18.13. Electroporation-based Transfection System Developers: Distribution by Location of Headquarters (Region-wise)
  • Table 18.14. Electroporation-based Transfection System Developers: Distribution by Location of Headquarters (Country-wise)
  • Table 18.15. Other Non-Viral Transfection Systems: Distribution by Compatible Cell Type
  • Table 18.16. Other Non-Viral Transfection Systems: Distribution by Type of

Molecule Delivered

  • Table 18.17. Other Non-Viral Transfection Systems: Distribution by Year of

Establishment

  • Table 18.18. Other Non-Viral Transfection System Developers: Distribution by Company Size
  • Table 18.19. Other Non-Viral Transfection System Developers: Distribution by Location of Headquarters (Region-wise)
  • Table 18.20. Other Non-Viral Transfection System Developers: Distribution by Location of Headquarters (Country-wise)
  • Table 18.21 MilliporeSigma: Annual Revenues, 2016-H1 2022 (USD Billion)
  • Table 18.22 Thermo Fisher Scientific: Annual Revenues, 2016- H1 2022 (USD Billion)
  • Table 18.23 Bio-Rad Laboratories: Annual Revenues, 2016- H1 2022 (USD Million)
  • Table 18.24 MaxCyte: Annual Revenues, 2016- H1 2022 (USD Million)
  • Table 18.25 Genprex: Annual Revenues, 2016- H1 2022 (USD Million)
  • Table 18.26 Inovio Pharmaceuticals: Annual Revenues, 2016- H1 2022 (USD Million)
  • Table 18.27 Big Pharma Initiatives: Cumulative Distribution by Year of Initiative
  • Table 18.28 Big Pharma Initiatives: Distribution by Number of Initiatives
  • Table 18.29 Big Pharma Initiatives: Distribution by Type of Initiative
  • Table 18.30 Big Pharma Initiatives: Distribution by Type of Therapy
  • Table 18.31 Big Pharma Initiatives: Distribution by Target Therapeutic Area
  • Table 18.32 Patent Analysis: Distribution by Type of Patent
  • Table 18.33 Patent Analysis: Distribution by Publication Year
  • Table 18.34 Patent Analysis: Distribution by Application Year
  • Table 18.35 Patent Analysis: Distribution by Patent Jurisdiction
  • Table 18.36 Patent Analysis: Distribution by Type of Applicant
  • Table 18.37 Patent Analysis: Distribution by CPC Sections
  • Table 18.38 Leading Players (Industry): Distribution by Number of Patents
  • Table 18.39 Leading Players (Non-Industry): Distribution by Number of Patents
  • Table 18.40 Patent Benchmarking: Distribution by Patent Characteristics
  • Table 18.41 Patent Analysis (Leading Industry Players): Benchmarking by CPC Symbols
  • Table 18.42 Patent Analysis: Distribution by Patent Age
  • Table 18.43 Non-Viral Transfection Reagents and Systems: Patent Valuation
  • Table 18.44 Publication Analysis: Cumulative Year-wise Trend
  • Table 18.45 Publication Analysis: Distribution by Type of Publication
  • Table 18.46 Publication Analysis: Distribution by Type of Molecule Delivered
  • Table 18.47 Publication Analysis: Distribution by Target Therapeutic Area
  • Table 18.48 Leading Publishers: Distribution by Number of Publications
  • Table 18.49 Prominent Journals: Distribution by Number of Publications
  • Table 18.50 Prominent Copyright Holders: Distribution by Number of Publications
  • Table 18.51 Key Funding Institutes: Distribution by Number of Publications
  • Table 18.52 Overall Non-Viral Transfection Reagents and Systems Market, Conservative, Base and Optimistic Scenario, 2023-2035 (USD Million)
  • Table 18.53 Non-Viral Transfection Systems Market, Conservative, Base and Optimistic Scenario: Distribution by Type of Non-Viral Transfection Method, 2023 and 2035 (USD Million)
  • Table 18.54 Non-Viral Transfection Systems Market, Conservative, Base and Optimistic Scenario: Distribution by End-User, 2023 and 2035 (USD Million)
  • Table 18.55 Non-Viral Transfection Systems Market, Conservative, Base and Optimistic Scenario: Distribution by Application Area, 2023 and 2035 (USD Million)
  • Table 18.56 Non-Viral Transfection Systems Market, Conservative, Base and Optimistic Scenario: Distribution by Key Geographical Regions, 2023 and 2035 (USD Million)
  • Table 18.57 Non-Viral Transfection Systems Market in North America, Conservative, Base and Optimistic Scenario, 2023-2035 (USD Million)
  • Table 18.58 Non-Viral Transfection Systems Market in North America for Pharmaceutical Companies, Conservative, Base and Optimistic Scenario, 2023-2035 (USD Million)
  • Table 18.59 Non-Viral Transfection Systems Market in North America for Academic and Research Institutions, Conservative, Base and Optimistic Scenario, 2023-2035 (USD Million)
  • Table 18.60 Non-Viral Transfection Systems Market in North America for Other End-Users, Conservative, Base and Optimistic Scenario, 2023-2035 (USD Million)
  • Table 18.61 Non-Viral Transfection Systems Market in North America for Research Applications, Conservative, Base and Optimistic Scenario, 2023-2035 (USD Million)
  • Table 18.62 Non-Viral Transfection Systems Market in North America for Clinical Applications, Conservative, Base and Optimistic Scenario, 2023-2035 (USD Million)
  • Table 18.63 Non-Viral Transfection Systems Market in Europe, Conservative, Base and Optimistic Scenario, 2023-2035 (USD Million)
  • Table 18.64 Non-Viral Transfection Systems Market in Europe for Pharmaceutical Companies, Conservative, Base and Optimistic Scenario, 2023-2035 (USD Million)
  • Table 18.65 Non-Viral Transfection Systems Market in Europe for Academic and Research Institutions, Conservative, Base and Optimistic Scenario, 2023-2035 (USD Million)
  • Table 18.66 Non-Viral Transfection Systems Market in Europe for Other End-Users, Conservative, Base and Optimistic Scenario, 2023-2035 (USD Million)
  • Table 18.67 Non-Viral Transfection Systems Market in Europe for Research Applications, Conservative, Base and Optimistic Scenario, 2023-2035 (USD Million)
  • Table 18.68 Non-Viral Transfection Systems Market in Europe for Clinical Applications, Conservative, Base and Optimistic Scenario, 2023-2035 (USD Million)
  • Table 18.69 Non-Viral Transfection Systems Market in Asia-Pacific, Conservative, Base and Optimistic Scenario, 2023-2035 (USD

Million)

  • Table 18.70 Non-Viral Transfection Systems Market in Asia-Pacific for Pharmaceutical Companies, Conservative, Base and Optimistic Scenario, 2023-2035 (USD Million)
  • Table 18.71 Non-Viral Transfection Systems Market in Asia-Pacific for Academic and Research Institutions, Conservative, Base and Optimistic Scenario, 2023-2035 (USD Million)
  • Table 18.72 Non-Viral Transfection Systems Market in Asia-Pacific for Other End-Users, Conservative, Base and Optimistic Scenario, 2023-2035 (USD Million)
  • Table 18.73 Non-Viral Transfection Systems Market in Asia-Pacific for Research Applications, Conservative, Base and Optimistic Scenario, 2023-2035 (USD Million)
  • Table 18.74 Non-Viral Transfection Systems Market in Asia-Pacific for Clinical Applications, Conservative, Base and Optimistic Scenario, 2023-2035 (USD Million)
  • Table 18.75 Non-Viral Transfection Systems Market in Rest of the World, Conservative, Base and Optimistic Scenario, 2023-2035 (USD

Million)

  • Table 18.76 Non-Viral Transfection Systems Market in Rest of the World for Pharmaceutical Companies, Conservative, Base and Optimistic Scenario, 2023-2035 (USD Million)
  • Table 18.77 Non-Viral Transfection Systems Market in Rest of the World for Academic and Research Institutions, Conservative, Base and Optimistic Scenario, 2023-2035 (USD Million)
  • Table 18.78 Non-Viral Transfection Systems Market in Rest of the World for Other End-Users, Conservative, Base and Optimistic Scenario, 2023-2035 (USD Million)
  • Table 18.79 Non-Viral Transfection Systems Market in Rest of the World for Research Applications, Conservative, Base and Optimistic Scenario, 2023-2035 (USD Million)
  • Table 18.80 Non-Viral Transfection Systems Market in Rest of the World for Clinical Applications, Conservative, Base and Optimistic Scenario, 2023-2035 (USD Million)

LIST OF FIGURES

  • Figure 2.1 Executive Summary: Current Landscape of Non-Viral Transfection Reagents
  • Figure 2.2 Executive Summary: Current Landscape of Electroporation-based Non-Viral Transfection Systems
  • Figure 2.3 Executive Summary: Current Landscape of Other Non-Viral Transfection Systems
  • Figure 2.4 Executive Summary: Big Pharma Initiatives
  • Figure 2.5 Executive Summary: Patent Analysis
  • Figure 2.6 Executive Summary: Publication Analysis
  • Figure 2.7 Executive Summary: Market Forecast and Opportunity Analysis
  • Figure 3.1 Commonly Used Viral Vectors
  • Figure 3.2 Types of Non-Viral Transfection Methods
  • Figure 3.3 Electroporation Mechanism
  • Figure 3.4 Gene Gun Mechanism
  • Figure 3.5 Sonoporation Mechanism
  • Figure 3.6 Microinjection Mechanism
  • Figure 3.7 Magnetofection Mechanism
  • Figure 3.8 Applications of Transfection
  • Figure 4.1 Non-Viral Transfection Reagents: Distribution by Type of Carrier Used
  • Figure 4.2 Non-Viral Transfection Reagents: Distribution by Compatible Cell Type
  • Figure 4.3 Non-Viral Transfection Reagents: Distribution by Type of Molecule Delivered
  • Figure 4.4 Non-Viral Transfection Reagents: Distribution by Serum Compatibility
  • Figure 4.5 Non-Viral Transfection Reagent Developers: Distribution by Year of Establishment
  • Figure 4.6 Non-Viral Transfection Reagent Developers: Distribution by Company Size
  • Figure 4.7 Non-Viral Transfection Reagent Developers: Distribution by Location of Headquarters (Region-wise)
  • Figure 4.8 Non-Viral Transfection Reagent Developers: Distribution by Location of Headquarters (Country-wise)
  • Figure 5.1 Electroporation-based Transfection Systems: Distribution by Compatible Cell Type
  • Figure 5.2 Electroporation-based Transfection Systems: Distribution by Type of Molecule Delivered
  • Figure 5.3 Electroporation-based Transfection System Developers: Distribution by Year of Establishment
  • Figure 5.4 Electroporation-based Transfection System Developers: Distribution by Company Size
  • Figure 5.5 Electroporation-based Transfection System Developers: Distribution by Location of Headquarters (Region-wise)
  • Figure 5.6 Electroporation-based Transfection System Developers: Distribution by Location of Headquarters (Country-wise)
  • Figure 6.1 Other Non-Viral Transfection Systems: Distribution by Compatible Cell Type
  • Figure 6.2 Other Non-Viral Transfection Systems: Distribution by Type of

Molecule Delivered

  • Figure 6.3 Other Non-Viral Transfection Systems: Distribution by Year of

Establishment

  • Figure 6.4 Other Non-Viral Transfection System Developers: Distribution by Company Size
  • Figure 6.5 Other Non-Viral Transfection System Developers: Distribution by Location of Headquarters (Region-wise)
  • Figure 6.6 Other Non-Viral Transfection System Developers: Distribution by Location of Headquarters (Country-wise)
  • Figure 7.1 Company Competitiveness Analysis: Distribution of Non-Viral Transfection Reagent Developers based in North America
  • Figure 7.2 Company Competitiveness Analysis: Distribution of Non-Viral Transfection Reagent Developers based in Europe
  • Figure 7.3 Company Competitiveness Analysis: Distribution of Non-Viral Transfection Reagent Developers based in Asia-Pacific and Rest of the World
  • Figure 8.1 Electroporation-based Systems: Distribution of Technologies Offered by Players based in North America
  • Figure 8.2 Electroporation-based Systems: Distribution of Technologies Offered by Players based in Europe
  • Figure 8.3 Electroporation-based Systems: Distribution of Technologies Offered by Players based in Asia-Pacific and Rest of the World
  • Figure 8.4 Other Non-Viral Transfection Systems: Distribution of Technologies Offered by Players based in North America
  • Figure 8.5 Other Non-Viral Transfection Systems: Distribution of Technologies Offered by Players based in Europe
  • Figure 8.6 Other Non-Viral Transfection Systems: Distribution of Technologies Offered by Players based in Asia-Pacific and Rest of the World
  • Figure 9.1 MilliporeSigma: Annual Revenues, 2016-H1 2022 (USD Billion)
  • Figure 9.2 Thermo Fisher Scientific: Annual Revenues, 2016- H1 2022 (USD Billion)
  • Figure 9.3 Bio-Rad Laboratories: Annual Revenues, 2016- H1 2022 (USD Million)
  • Figure 9.4 MaxCyte: Annual Revenues, 2016- H1 2022 (USD Million)
  • Figure 9.5 Genprex: Annual Revenues, 2016- H1 2022 (USD Million)
  • Figure 9.6 Inovio Pharmaceuticals: Annual Revenues, 2016- H1 2022 (USD Million)
  • Figure 11.1 Big Pharma Initiatives: Cumulative Distribution by Year of Initiative
  • Figure 11.2 Big Pharma Initiatives: Distribution by Number of Initiatives
  • Figure 11.3 Big Pharma Initiatives: Distribution by Type of Initiative
  • Figure 11.4 Big Pharma Initiatives: Distribution by Type of Therapy
  • Figure 11.5 Big Pharma Initiatives: Distribution by Target Therapeutic Area
  • Figure 12.1 Patent Analysis: Distribution by Type of Patent
  • Figure 12.2 Patent Analysis: Distribution by Publication Year
  • Figure 12.3 Patent Analysis: Distribution by Application Year
  • Figure 12.4 Patent Analysis: Distribution by Patent Jurisdiction
  • Figure 12.5 Patent Analysis: Distribution by Type of Applicant
  • Figure 12.6 Patent Analysis: Distribution by CPC Sections
  • Figure 12.7 Word Cloud: Emerging Focus Areas
  • Figure 12.8 Leading Players (Industry): Distribution by Number of Patents
  • Figure 12.9 Leading Players (Non-Industry): Distribution by Number of Patents
  • Figure 12.10 Patent Benchmarking: Distribution by Patent Characteristics
  • Figure 12.11 Patent Analysis (Leading Industry Players): Benchmarking by CPC Symbols
  • Figure 12.12 Patent Analysis: Distribution by Patent Age
  • Figure 12.13 Non-Viral Transfection Reagents and Systems: Patent Valuation
  • Figure 13.1 Publication Analysis: Cumulative Year-wise Trend
  • Figure 13.2 Publication Analysis: Distribution by Type of Publication
  • Figure 13.3 Publication Analysis: Distribution by Type of Molecule Delivered
  • Figure 13.4 Publication Analysis: Distribution by Target Therapeutic Area
  • Figure 13.5 Word Cloud: Key Focus Areas
  • Figure 13.6 Word Cloud: Popular Cells and Cell Lines
  • Figure 13.7 Leading Publishers: Distribution by Number of Publications
  • Figure 13.8 Prominent Journals: Distribution by Number of Publications
  • Figure 13.9 Prominent Copyright Holders: Distribution by Number of Publications
  • Figure 13.10 Key Funding Institutes: Distribution by Number of Publications
  • Figure 14.1 Non-Viral Transfection Reagents and Systems: Roots Analysis Pricing Strategy Framework
  • Figure 14.2 Non-Viral Transfection Reagents and Systems: Roots Analysis Pricing Strategy Graphical Interpretation
  • Figure 15.1 Overall Non-Viral Transfection Reagents and Systems Market, 2023-2035 (USD Million)
  • Figure 15.2 Non-Viral Transfection Systems Market: Distribution by Type of Non-Viral Transfection Method, 2023 and 2035 (USD Million)
  • Figure 15.3 Non-Viral Transfection Systems Market: Distribution by End-User, 2023 and 2035 (USD Million)
  • Figure 15.4 Non-Viral Transfection Systems Market: Distribution by Application Area, 2023 and 2035 (USD Million)
  • Figure 15.5 Non-Viral Transfection Systems Market: Distribution by Key Geographical Regions, 2023 and 2035 (USD Million)
  • Figure 15.6 Non-Viral Transfection Systems Market in North America, 2023-2035 (USD

Million)

  • Figure 15.7 Non-Viral Transfection Systems Market in North America for Pharmaceutical Companies, 2023-2035 (USD Million)
  • Figure 15.8 Non-Viral Transfection Systems Market in North America for Academic and Research Institutions, 2023-2035 (USD Million)
  • Figure 15.9 Non-Viral Transfection Systems Market in North America for Other End-Users, 2023-2035 (USD Million)
  • Figure 15.10 Non-Viral Transfection Systems Market in North America for Research Applications, 2023-2035 (USD Million)
  • Figure 15.11 Non-Viral Transfection Systems Market in North America for Clinical Applications, 2023-2035 (USD Million)
  • Figure 15.12 Non-Viral Transfection Systems Market in Europe, 2023-2035 (USD Million)
  • Figure 15.13 Non-Viral Transfection Systems Market in Europe for Pharmaceutical Companies, 2023-2035 (USD Million)
  • Figure 15.14 Non-Viral Transfection Systems Market in Europe for Academic and Research Institutions, 2023-2035 (USD Million)
  • Figure 15.15 Non-Viral Transfection Systems Market in Europe for Other End-Users, 2023-2035 (USD Million)
  • Figure 15.16 Non-Viral Transfection Systems Market in Europe for Research Applications, 2023-2035 (USD Million)
  • Figure 15.17 Non-Viral Transfection Systems Market in Europe for Clinical Applications, 2023-2035 (USD Million)
  • Figure 15.18 Non-Viral Transfection Systems Market in Asia-Pacific, 2023-2035 (USD

Million)

  • Figure 15.19 Non-Viral Transfection Systems Market in Asia-Pacific for Pharmaceutical Companies, 2023-2035 (USD Million)
  • Figure 15.20 Non-Viral Transfection Systems Market in Asia-Pacific for Academic and Research Institutions, 2023-2035 (USD Million)
  • Figure 15.21 Non-Viral Transfection Systems Market in Asia-Pacific for Other End-Users, 2023-2035 (USD Million)
  • Figure 15.22 Non-Viral Transfection Systems Market in Asia-Pacific for Research Applications, 2023-2035 (USD Million)
  • Figure 15.23 Non-Viral Transfection Systems Market in Asia-Pacific for Clinical Applications, 2023-2035 (USD Million)
  • Figure 15.24 Non-Viral Transfection Systems Market in Rest of the World, 2023-2035 (USD

Million)

  • Figure 15.25 Non-Viral Transfection Systems Market in Rest of the World for Pharmaceutical Companies, 2023-2035 (USD Million)
  • Figure 15.26 Non-Viral Transfection Systems Market in Rest of the World for Academic and Research Institutions, 2023-2035 (USD Million)
  • Figure 15.27 Non-Viral Transfection Systems Market in Rest of the World for Other End-Users, 2023-2035 (USD Million)
  • Figure 15.28 Non-Viral Transfection Systems Market in Rest of the World for Research Applications, 2023-2035 (USD Million)
  • Figure 15.29 Non-Viral Transfection Systems Market in Rest of the World for Clinical Applications, 2023-2035 (USD Million)
  • Figure 17.1. Conclusion: Current Landscape of Non-Viral Transfection Reagents
  • Figure 17.2 Conclusion: Current Landscape of Electroporation-based Non-Viral Transfection Systems
  • Figure 17.3 Conclusion: Current Landscape of Other Non-Viral Transfection Systems
  • Figure 17.4 Conclusion: Big Pharma Initiatives
  • Figure 17.5 Conclusion: Patent Analysis
  • Figure 17.6 Conclusion: Publication Analysis
  • Figure 17.7 Conclusion: Market Forecast and Opportunity Analysis
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