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In Vitro Diagnostics

PUBLISHER: Lucintel | PRODUCT CODE: 1865774

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PUBLISHER: Lucintel | PRODUCT CODE: 1865774

Preimplantation Genetic Testing Market Report: Trends, Forecast and Competitive Analysis to 2031

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Table of Contents

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The future of the global preimplantation genetic testing market looks promising with opportunities in the fertility center, hospital, diagnostic center, and research center & academic lab markets. The global preimplantation genetic testing market is expected to grow with a CAGR of 7.1% from 2025 to 2031. The major drivers for this market are the increasing demand for ivf procedures, the growing awareness of genetic disorders, and the rising maternal age worldwide.

  • Lucintel forecasts that, within the product category, reagent & consumable is expected to witness higher growth over the forecast period.
  • Within the end use category, fertility center is expected to witness the highest growth.
  • In terms of region, APAC is expected to witness the highest growth over the forecast period.

Emerging Trends in the Preimplantation Genetic Testing Market

Preimplantation genetic testing is undergoing a steep revolution as a result of technological advances, improved knowledge of embryo biology, and evolving clinical demands. The trend is towards more complete, precise, and less intrusive testing that can deliver enhanced information regarding embryo viability and health. These new trends demonstrate a devotion to maximizing IVF success, lowering the risk of inherited diseases, and ultimately enabling more couples to enjoy a healthy pregnancy, with the added ability to experience the complex ethical terrain.

  • Non-Invasive Preimplantation Genetic Testing: The trend here is to test cell-free DNA (cfDNA) shed by the embryo into the embryo culture medium used after embryos are cultured, where no invasive biopsy is required. Conventional PGT involves the removal of a few cells from the embryo and has a small risk of harming it. nippit seeks to reduce the risk and stress to the embryo and possibly enhance its viability. Increasing the concordance rate of nippit with conventional biopsy-based PGT is the focus of research, overcoming issues of maternal contamination of DNA and low cfDNA yield to provide accurate results.
  • Artificial Intelligence and Machine Learning: AI and machine learning are being used more and more to analyze the vast amount of data produced by PGT, especially for embryo selection. AI algorithms can assess embryo morphology through time-lapse imaging, forecast chromosomal normality, and even rank embryos for transfer, lessening human subjectivity and increasing efficiency. This is a trend that has the potential for more accurate embryo selection, resulting in improved implantation rates and fewer miscarriages, and thus optimizing IVF success rates.
  • PGT to Polygenic Disorders (PGT-P): Historically, PGT has been applied to single-gene disorders (PGT-M) or chromosomal aneuploidies (PGT-A). The newer trend is the creation of PGT for polygenic disorders (PGT-P), which involve complex conditions determined by several genes and environmental factors (e.g., diabetes, heart disease, some cancers). Although still primarily investigational, PGT-P seeks to evaluate an embryo's genetic susceptibility to such conditions, enabling appropriate embryo selection. This growth raises serious ethical issues but potentially may provide preventative strategies against prevalent disease.
  • Enhancement of Mosaic Embryo Management: Mosaicism, or the presence of normal and abnormal cells in an embryo, is a frequent occurrence in PGT-A and raises a clinical concern about transfer. Current trends address enhancing knowledge of mosaicism, creating more accurate techniques for its identification, and defining more exact guidelines for transferring mosaic embryos. Research seeks to distinguish between various degrees of mosaicism and their clinical significance, providing more sophisticated advice to clinicians and potential parents, potentially improving the number of transferable viable embryos.
  • Greater Accessibility and Cost-Effectiveness: There is increasing movement towards the accessibility and cost-effectiveness of PGT. This includes the optimization of laboratory procedures, creating high-throughput sequencing platforms that decrease per-test costs, and expanding insurance coverage for PGT cycles. As the technology evolves and becomes more efficient, the objective is to reduce overall costs, enabling more couples, especially those experiencing infertility or genetic concerns, to avail themselves of PGT, making advanced reproductive services more accessible.

These new trends are basically remodeling the preimplantation genetic testing market by pushing it toward more accuracy, non-invasiveness, and comprehensive diagnosing ability. The assimilation of AI, the investigation of polygenic screening, the subtle comprehension of mosaicism, and the emphasis on affordability are poised to transform reproductive medicine, presenting more promising and successful results for potential parents while consistently provoking ethical paradigms.

Recent Developments in the Preimplantation Genetic Testing Market

Preimplantation genetic testing has witnessed tremendous growth in recent years, fueled by continued advances in genomics, laboratory technology, and knowledge of embryonic development. These advances are considerably increasing the precision and usefulness of PGT, providing better ways for couples to avoid genetic disorders or enhance IVF outcomes. The emphasis is on developing improved methods and new technologies that reduce risks and increase diagnostic potential.

  • Universal uptake of Next-Generation Sequencing: One of the biggest recent advancements is universal uptake of Next-Generation Sequencing (NGS) as the main technology for PGT. NGS provides much increased resolution and throughput compared to traditional technologies such as array comparative genomic hybridization (ash) or FISH. This enables more complete and precise detection of chromosomal aneuploidies (PGT-A), segmental imbalances, and particular gene mutations (PGT-M), resulting in better embryo selection and better pregnancy rates.
  • Advances in Techniques of Embryo Biopsy: New advances have involved improvements in embryo biopsy technology, specifically the trophectoderm biopsy at the blastocyst stage. Advances in laser-assisted biopsy equipment and micro-manipulation methods have improved the safety and effectiveness of the procedure, minimizing possible stress on the embryo. This technical advance is essential for achieving adequate and representative cellular material for proper genetic analysis without loss of embryo viability.
  • More Sophisticated Understanding and Control of Mosaicism: There has been considerable recent advancement in knowing and controlling mosaicism within embryos. Early PGT-A results occasionally revealed mosaicism, and this created doubt regarding embryo transfer. More recent investigations have shed more light on the clinical relevance of various forms and degrees of mosaicism, resulting in improved interpretation criteria and, in certain situations, cautious transfer of certain mosaic embryos, which may potentially raise the number of viable embryos for couples.
  • Creation of Non-Invasive PGT Protocols: A key recent advancement is the research and testing of non-invasive PGT (nippit) protocols. This is performed through the analysis of cell-free DNA (cfDNA) in spent culture medium in which embryos are cultured. If proven, nippit would render embryo biopsy unnecessary, avoiding embryo risk, making the PGT procedure simpler, and increasing access. Although literature is still under thorough research, preliminary findings are promising for future clinical use.
  • Enhancement of PGT for Single-Gene Disorders Capabilities: There has been an expansion in the scope and precision of PGT-M in recent years. Advances in single-cell genomics and targeted sequencing panels enable the identification of more monogenic diseases, such as intricate or rare diseases. This allows for greater choices for at-risk couples to have healthy children without the inherited disease.

These recent advances collectively are influencing preimplantation genetic testing by improving its accuracy, widening its range of diagnostics, and shifting direction towards less invasive diagnostic and therapeutic approaches. The common use of NGS, advanced biopsy protocols, greater insight into mosaicism, the potential of nippit, and the increased potentials of PGT-M are greatly enhancing success in assisted reproduction and providing more hope for families with genetic issues.

Strategic Growth Opportunities in the Preimplantation Genetic Testing Market

The preimplantation genetic testing industry is on the verge of exciting strategic growth opportunities in numerous major applications due to the advances in genomic technologies, rise in global demand for assisted reproductive technologies, and high priority placed on reproductive health. Targeting and focusing on these certain application areas enable diagnostic companies and fertility clinics to grow their businesses, improve patient results, and gain more market share. The emphasis is on providing accurate, detailed, and affordable genetic screening solutions.

  • Aneuploidy Screening for IVF Patients of Advanced Maternal Age: This use is a large and increasing market. Women of advanced maternal age are more likely to generate aneuploid embryos, which have poorer implantation rates and greater potential for miscarriage. PGT-A assists in the identification of chromosomally normal embryos, thus enhancing IVF success rates. Strategic expansion entails increasing awareness among this population, making testing services available to them, and incorporating PGT-A as a standard of care in IVF protocols for this patient population.
  • PGT-M for High-Risk Families: This use provides an important growth opportunity, especially for high-risk couples at risk of passing on a particular inherited genetic condition (e.g., cystic fibrosis, Huntington's disease). PGT-M permits the availability of selection of mutation-free embryos. Growth opportunities include establishing detailed test panels for a broad spectrum of monogenic diseases, working with genetic counseling services, and creating transparent pathways for patient referral by genetic clinics.
  • Extending PGT-SR to Couples with Chromosomal Rearrangements: Couples with balanced chromosomal structural rearrangements (e.g., translocations, inversions) are at a high risk of having unbalanced embryos, resulting in repeated miscarriage or affected children. PGT-SR is actually the screening for such imbalances. Strategic development involves the fine-tuning of the detection capacity for intricate rearrangements, providing individualized probe design, and counseling reproductive specialists on the advantages of PGT-SR in this particular patient group.
  • Non-Invasive PGT as a Standard of the Future: Although still in the process of being developed, the achievement of clinical validation and uptake of non-invasive PGT (nippit) through embryo culture media represents a vast opportunity for growth. If found to be reliable, nippit may be used to supplant or supplement invasive biopsy protocols, making PGT safer, less complex, and potentially more prevalent. Research investment, establishment of sound nippit protocols, and establishment of early market position in this new field will be critical to future growth.
  • PGT for Recurrent Implantation Failure and Recurrent Pregnancy Loss: In the case of couples with recurrent implantation failure (RIF) in IVF or recurrent pregnancy loss (RPL), PGT may prove to be an effective technique to detect chromosomal anomalies in the embryos. Growth potential exists in providing end-to-end PGT solutions for dealing with these problem fertility cases, emphasizing highly precise screening and offering unambiguous diagnostic reports to enhance the success rate of subsequent IVF cycles and minimize patient emotional trauma.

These growth strategies are set to have profound effects on the preimplantation genetic testing market through the promotion of specialization, technological development, and wider clinical take-up. Through a focus on specific patient requirements, including advanced maternal age, monogenic disease risk, chromosomal rearrangements, and recurrent fertility problems, and through investment in non-invasive technologies, the market can extend its scope and deliver enhanced outcomes for more would-be parents.

Preimplantation Genetic Testing Market Driver and Challenges

The preimplantation genetic testing market is driven by the interaction of multiple converging technological, economic, and regulatory drivers. This dynamic ecosystem offers substantial opportunities for development as well as monumental challenges for the stakeholders to overcome. Familiarity with these drivers and challenges is important in formulating effective market strategies and achieving sustainable development. The development of the market is significantly driven by the rising demand for fertility treatment, advances in genomic science, and the complex ethical issues involved in embryo testing.

The factors responsible for driving the preimplantation genetic testing market include:

1. Increased Incidence of Infertility and Delayed Childbearing: A major force is the growing worldwide incidence of infertility and the trend towards delayed childbearing. With advancing maternal age, the risk of chromosomal defects in embryos rises, and, consequently, there is greater demand for PGT-A to enhance IVF outcomes and minimize the risk of miscarriage. The demand for efficient fertility options is a compelling driver for the uptake of PGT.

2. Advances in Genetic Sequencing Technologies: Repeated advances in genetic sequencing technologies, especially the extensive use of Next-Generation Sequencing (NGS), are a dominant force. NGS is more accurate, provides higher throughput, and is cheaper per test than traditional approaches. These advances in technology allow greater and more trustworthy genetic analysis of embryos, thereby making PGT a more appealing and viable choice for fertility clinics and potential parents alike.

3. Greater Awareness of Genetic Disorders: Heightened public education on inherited genetic disorders and chromosome abnormalities, together with greater access to genetic counseling, is propelling demand for PGT. Couples at risk of having a child with a family history of a genetic condition or those who are known carriers are increasingly having PGT-M and PGT-SR to avoid passing on these conditions to their child, hoping to have a healthy child.

4. Enhanced Success Rates of IVF with PGT: Data showing PGT has a significant positive effect on the success rates of IVF treatments, mainly by preventing miscarriage and boosting live birth rates per embryo transfer, is a major impetus. This clinical effectiveness compels fertility clinics to incorporate PGT in their routine procedures, as it provides a more predictable and economical route to pregnancy for a lot of patients who undergo assisted reproductive technologies.

5. Supportive Insurance Policies and Reimbursement: Gradual extension of supportive insurance policies and reimbursement for PGT procedures in different regions is driving market growth. With PGT becoming more economically affordable, more patients are able to afford and use these services, thus pushing demand forward. Policy change is also being driven by patient advocacy organizations and groups.

Challenges in the preimplantation genetic testing market are:

1. Ethical and Regulatory Barriers: Major obstacles come from the multi-faceted ethical and regulatory environment for PGT. Embryo selection, discarding embryos with specific genetic traits (e.g., mosaicism), and the risk of "designer babies" raise moral and legal issues varying by nation. Drastic controls or prohibitions in certain areas stifle market growth and the implementation of some applications of PGT.

2. Costliness of Procedures and Inaccessibility: Even with the progress made, the total cost of IVF plus PGT is still too high for most couples, particularly where there is limited insurance reimbursement or public funding. This cost acts as a deterrent to accessibility, particularly in developing nations. The specialist equipment, highly trained staff, and laboratory facilities needed also make it expensive, keeping large-scale application out of reach.

3. Embryo Damage Risk and Diagnostic Accuracy Issues: Although biopsy methods are better now, there remains a small, intrinsic risk of embryo damage during removal of cells for PGT. Moreover, issues related to diagnostic accuracy, such as false positives or negatives, and interpreting mosaic results, can generate clinical uncertainty and patient distrust. Controversy over the clinical utility and best management of mosaic embryos also complicates both clinician and patient decision-making.

The preimplantation genetic testing market is rapidly expanding due to increased rates of infertility, advances in genetic sequencing technologies, growing awareness of genetic disease, and higher IVF success rates with PGT. Nevertheless, it has to sail through major challenges such as intricate ethical and regulatory environments, the costliness and unaffordability of procedures, and continued uncertainties over the risk of embryo damage and accuracy of diagnoses. Addressing these multifaceted challenges will be critical for the continued responsible growth and broader adoption of PGT.

List of Preimplantation Genetic Testing Companies

Companies in the market compete on the basis of product quality offered. Major players in this market focus on expanding their manufacturing facilities, R&D investments, infrastructural development, and leverage integration opportunities across the value chain. With these strategies preimplantation genetic testing companies cater increasing demand, ensure competitive effectiveness, develop innovative products & technologies, reduce production costs, and expand their customer base. Some of the preimplantation genetic testing companies profiled in this report include-

  • Quest Diagnostics Incorporated
  • Natera
  • COOPER SURGICAL
  • Genea Pty Limited.
  • Invitae Corporation
  • Laboratory Corporation of America Holdings
  • Thermo Fisher Scientific
  • Bioarray
  • Illumina
  • Igenomix

Preimplantation Genetic Testing Market by Segment

The study includes a forecast for the global preimplantation genetic testing market by product, technology, application, end use, and region.

Preimplantation Genetic Testing Market by Product [Value from 2019 to 2031]:

  • Reagents & Consumables
  • Instruments
  • Software

Preimplantation Genetic Testing Market by Technology [Value from 2019 to 2031]:

  • Next Generation Sequencing
  • Polymerase Chain Reaction
  • Fluorescent In-Situ Hybridization
  • Others

Preimplantation Genetic Testing Market by Application [Value from 2019 to 2031]:

  • Chromosomal Abnormalities
  • X-Linked Diseases
  • Embryo Testing
  • Aneuploidy Screening
  • HLA Typing
  • Others

Preimplantation Genetic Testing Market by End Use [Value from 2019 to 2031]:

  • Fertility Centers
  • Hospitals
  • Diagnostic Centers
  • Research Centers & Academic Labs
  • Others

Country Wise Outlook for the Preimplantation Genetic Testing Market

Preimplantation genetic testing is an important milestone in reproductive medicine, providing intended parents with the option of screening embryos for genetic disorders prior to implantation during in vitro fertilization (IVF). The technology greatly enhances the possibility of having a healthy pregnancy by detecting chromosomal disorders (PGT-A), single gene disorders (PGT-M), and structural chromosomal rearrangements (PGT-SR). Recent advances target better accuracy, greater scope of testing, and non-invasive approaches, reflecting worldwide efforts towards safer and more successful assisted reproduction.

  • United States: In the United States, the use of PGT has steadily grown, with Next-Generation Sequencing (NGS) now being the leading technology for extensive chromosome screening. Recent advances center on better accuracy of PGT-A, especially in dealing with mosaic embryos, where some cells are abnormal and others are not. Research into non-invasive PGT (nippit) via culture embryo media continues in an effort to minimize risks attached to embryo biopsy. There is also increasing emphasis on the ethical considerations and standardization of PGT procedures in clinics.
  • China: China has experienced considerable advancement in PGT, especially for monogenic disease (PGT-M), due to its large population suffering from such conditions. The nation is researching and applying highly advanced sequencing technologies actively to improve the identification of particular genetic mutations. Increasing attention is given to non-invasive PGT technologies, investigating the application of cell-free DNA from spent embryo culture medium. Ethical issues, such as genetic counseling and regulation of PGT usage, are also an area of concern as the technology expands.
  • Germany: Germany's policy on PGT is well controlled, with strict ethical standards. Recent advances have been concentrated on optimizing the available PGT-M and PGT-SR protocols in high-risk couples who are likely to pass on serious genetic disorders. The individual PGT cases require approval by the ethics committees. Although the uptake of PGT-A for screening aneuploidy has been slower in other countries because of legal and ethical controversy, research continues on non-invasive strategies that may extend its use within current legal frameworks.
  • India: India's PGT market is growing fueled by rising awareness of genetic disease and increased numbers of IVF cycles. New developments are the increasing use of NGS for more extensive and precise genetic screening. Fertility clinics are starting to provide PGT-A and PGT-M services on a larger scale, especially for couples with a previous history of recurrent pregnancy loss or diagnosed genetic disorders. There is an emphasis on the enhancement of accessibility and affordability of these sophisticated genetic tests, as both domestic and foreign participants are expanding their services.
  • Japan: Japan's PGT scene is defined by stringent regulation and significant attention to ethical considerations of embryo manipulation. Recent news has involved ongoing reconsideration of criteria for "serious" genetic conditions that are eligible for PGT-M, which mirrors an ongoing societal discussion. Although PGT-A was taken up more cautiously, research is pushing ahead in non-invasive methods and optimizing the accuracy of current PGT methods. The nation balances technological advancement with a strong commitment to ethical control and patient counseling.

Features of the Global Preimplantation Genetic Testing Market

  • Market Size Estimates: Preimplantation genetic testing market size estimation in terms of value ($B).
  • Trend and Forecast Analysis: Market trends (2019 to 2024) and forecast (2025 to 2031) by various segments and regions.
  • Segmentation Analysis: Preimplantation genetic testing market size by various segments, such as by product, technology, application, end use, and region in terms of value ($B).
  • Regional Analysis: Preimplantation genetic testing market breakdown by North America, Europe, Asia Pacific, and Rest of the World.
  • Growth Opportunities: Analysis of growth opportunities in different products, technologies, applications, end uses, and regions for the preimplantation genetic testing market.
  • Strategic Analysis: This includes M&A, new product development, and competitive landscape of the preimplantation genetic testing market.

Analysis of competitive intensity of the industry based on Porter's Five Forces model.

This report answers following 11 key questions:

  • Q.1. What are some of the most promising, high-growth opportunities for the preimplantation genetic testing market by product (reagents & consumables, instruments, and software), technology (next generation sequencing, polymerase chain reaction, fluorescent in-situ hybridization, and others), application (chromosomal abnormalities, x-linked diseases, embryo testing, aneuploidy screening, hla typing, and others), end use (fertility centers, hospitals, diagnostic centers, research centers & academic labs, and others), and region (North America, Europe, Asia Pacific, and the Rest of the World)?
  • Q.2. Which segments will grow at a faster pace and why?
  • Q.3. Which region will grow at a faster pace and why?
  • Q.4. What are the key factors affecting market dynamics? What are the key challenges and business risks in this market?
  • Q.5. What are the business risks and competitive threats in this market?
  • Q.6. What are the emerging trends in this market and the reasons behind them?
  • Q.7. What are some of the changing demands of customers in the market?
  • Q.8. What are the new developments in the market? Which companies are leading these developments?
  • Q.9. Who are the major players in this market? What strategic initiatives are key players pursuing for business growth?
  • Q.10. What are some of the competing products in this market and how big of a threat do they pose for loss of market share by material or product substitution?
  • Q.11. What M&A activity has occurred in the last 5 years and what has its impact been on the industry?
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Table of Contents

1. Executive Summary

2. Market Overview

  • 2.1 Background and Classifications
  • 2.2 Supply Chain

3. Market Trends & Forecast Analysis

  • 3.2 Industry Drivers and Challenges
  • 3.3 PESTLE Analysis
  • 3.4 Patent Analysis
  • 3.5 Regulatory Environment

4. Global Preimplantation Genetic Testing Market by Product

  • 4.1 Overview
  • 4.2 Attractiveness Analysis by Product
  • 4.3 Reagents & Consumables: Trends and Forecast (2019-2031)
  • 4.4 Instruments: Trends and Forecast (2019-2031)
  • 4.5 Software: Trends and Forecast (2019-2031)

5. Global Preimplantation Genetic Testing Market by Technology

  • 5.1 Overview
  • 5.2 Attractiveness Analysis by Technology
  • 5.3 Next Generation Sequencing: Trends and Forecast (2019-2031)
  • 5.4 Polymerase Chain Reaction: Trends and Forecast (2019-2031)
  • 5.5 Fluorescent In-Situ Hybridization: Trends and Forecast (2019-2031)
  • 5.6 Others: Trends and Forecast (2019-2031)

6. Global Preimplantation Genetic Testing Market by Application

  • 6.1 Overview
  • 6.2 Attractiveness Analysis by Application
  • 6.3 Chromosomal Abnormalities: Trends and Forecast (2019-2031)
  • 6.4 X-linked Diseases: Trends and Forecast (2019-2031)
  • 6.5 Embryo Testing: Trends and Forecast (2019-2031)
  • 6.6 Aneuploidy Screening: Trends and Forecast (2019-2031)
  • 6.7 HLA Typing: Trends and Forecast (2019-2031)
  • 6.8 Others: Trends and Forecast (2019-2031)

7. Global Preimplantation Genetic Testing Market by End Use

  • 7.1 Overview
  • 7.2 Attractiveness Analysis by End Use
  • 7.3 Fertility Centers: Trends and Forecast (2019-2031)
  • 7.4 Hospitals: Trends and Forecast (2019-2031)
  • 7.5 Diagnostic Centers: Trends and Forecast (2019-2031)
  • 7.6 Research Centers & Academic Labs: Trends and Forecast (2019-2031)
  • 7.7 Others: Trends and Forecast (2019-2031)

8. Regional Analysis

  • 8.1 Overview
  • 8.2 Global Preimplantation Genetic Testing Market by Region

9. North American Preimplantation Genetic Testing Market

  • 9.1 Overview
  • 9.2 North American Preimplantation Genetic Testing Market by Product
  • 9.3 North American Preimplantation Genetic Testing Market by End Use
  • 9.4 United States Preimplantation Genetic Testing Market
  • 9.5 Mexican Preimplantation Genetic Testing Market
  • 9.6 Canadian Preimplantation Genetic Testing Market

10. European Preimplantation Genetic Testing Market

  • 10.1 Overview
  • 10.2 European Preimplantation Genetic Testing Market by Product
  • 10.3 European Preimplantation Genetic Testing Market by End Use
  • 10.4 German Preimplantation Genetic Testing Market
  • 10.5 French Preimplantation Genetic Testing Market
  • 10.6 Spanish Preimplantation Genetic Testing Market
  • 10.7 Italian Preimplantation Genetic Testing Market
  • 10.8 United Kingdom Preimplantation Genetic Testing Market

11. APAC Preimplantation Genetic Testing Market

  • 11.1 Overview
  • 11.2 APAC Preimplantation Genetic Testing Market by Product
  • 11.3 APAC Preimplantation Genetic Testing Market by End Use
  • 11.4 Japanese Preimplantation Genetic Testing Market
  • 11.5 Indian Preimplantation Genetic Testing Market
  • 11.6 Chinese Preimplantation Genetic Testing Market
  • 11.7 South Korean Preimplantation Genetic Testing Market
  • 11.8 Indonesian Preimplantation Genetic Testing Market

12. ROW Preimplantation Genetic Testing Market

  • 12.1 Overview
  • 12.2 ROW Preimplantation Genetic Testing Market by Product
  • 12.3 ROW Preimplantation Genetic Testing Market by End Use
  • 12.4 Middle Eastern Preimplantation Genetic Testing Market
  • 12.5 South American Preimplantation Genetic Testing Market
  • 12.6 African Preimplantation Genetic Testing Market

13. Competitor Analysis

  • 13.1 Product Portfolio Analysis
  • 13.2 Operational Integration
  • 13.3 Porter's Five Forces Analysis
    • Competitive Rivalry
    • Bargaining Power of Buyers
    • Bargaining Power of Suppliers
    • Threat of Substitutes
    • Threat of New Entrants
  • 13.4 Market Share Analysis

14. Opportunities & Strategic Analysis

  • 14.1 Value Chain Analysis
  • 14.2 Growth Opportunity Analysis
    • 14.2.1 Growth Opportunities by Product
    • 14.2.2 Growth Opportunities by Technology
    • 14.2.3 Growth Opportunities by Application
    • 14.2.4 Growth Opportunities by End Use
  • 14.3 Emerging Trends in the Global Preimplantation Genetic Testing Market
  • 14.4 Strategic Analysis
    • 14.4.1 New Product Development
    • 14.4.2 Certification and Licensing
    • 14.4.3 Mergers, Acquisitions, Agreements, Collaborations, and Joint Ventures

15. Company Profiles of the Leading Players Across the Value Chain

  • 15.1 Competitive Analysis
  • 15.2 Quest Diagnostics Incorporated
    • Company Overview
    • Preimplantation Genetic Testing Business Overview
    • New Product Development
    • Merger, Acquisition, and Collaboration
    • Certification and Licensing
  • 15.3 Natera
    • Company Overview
    • Preimplantation Genetic Testing Business Overview
    • New Product Development
    • Merger, Acquisition, and Collaboration
    • Certification and Licensing
  • 15.4 COOPER SURGICAL
    • Company Overview
    • Preimplantation Genetic Testing Business Overview
    • New Product Development
    • Merger, Acquisition, and Collaboration
    • Certification and Licensing
  • 15.5 Genea Pty Limited.
    • Company Overview
    • Preimplantation Genetic Testing Business Overview
    • New Product Development
    • Merger, Acquisition, and Collaboration
    • Certification and Licensing
  • 15.6 Invitae Corporation
    • Company Overview
    • Preimplantation Genetic Testing Business Overview
    • New Product Development
    • Merger, Acquisition, and Collaboration
    • Certification and Licensing
  • 15.7 Laboratory Corporation of America Holdings
    • Company Overview
    • Preimplantation Genetic Testing Business Overview
    • New Product Development
    • Merger, Acquisition, and Collaboration
    • Certification and Licensing
  • 15.8 Thermo Fisher Scientific
    • Company Overview
    • Preimplantation Genetic Testing Business Overview
    • New Product Development
    • Merger, Acquisition, and Collaboration
    • Certification and Licensing
  • 15.9 Bioarray
    • Company Overview
    • Preimplantation Genetic Testing Business Overview
    • New Product Development
    • Merger, Acquisition, and Collaboration
    • Certification and Licensing
  • 15.10 Illumina
    • Company Overview
    • Preimplantation Genetic Testing Business Overview
    • New Product Development
    • Merger, Acquisition, and Collaboration
    • Certification and Licensing
  • 15.11 Igenomix
    • Company Overview
    • Preimplantation Genetic Testing Business Overview
    • New Product Development
    • Merger, Acquisition, and Collaboration
    • Certification and Licensing

16. Appendix

  • 16.1 List of Figures
  • 16.2 List of Tables
  • 16.3 Research Methodology
  • 16.4 Disclaimer
  • 16.5 Copyright
  • 16.6 Abbreviations and Technical Units
  • 16.7 About Us
  • 16.8 Contact Us
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List of Figures

  • Figure 1.1: Trends and Forecast for the Global Preimplantation Genetic Testing Market
  • Figure 2.1: Usage of Preimplantation Genetic Testing Market
  • Figure 2.2: Classification of the Global Preimplantation Genetic Testing Market
  • Figure 2.3: Supply Chain of the Global Preimplantation Genetic Testing Market
  • Figure 3.1: Driver and Challenges of the Preimplantation Genetic Testing Market
  • Figure 3.2: PESTLE Analysis
  • Figure 3.3: Patent Analysis
  • Figure 3.4: Regulatory Environment
  • Figure 4.1: Global Preimplantation Genetic Testing Market by Product in 2019, 2024, and 2031
  • Figure 4.2: Trends of the Global Preimplantation Genetic Testing Market ($B) by Product
  • Figure 4.3: Forecast for the Global Preimplantation Genetic Testing Market ($B) by Product
  • Figure 4.4: Trends and Forecast for Reagents & Consumables in the Global Preimplantation Genetic Testing Market (2019-2031)
  • Figure 4.5: Trends and Forecast for Instruments in the Global Preimplantation Genetic Testing Market (2019-2031)
  • Figure 4.6: Trends and Forecast for Software in the Global Preimplantation Genetic Testing Market (2019-2031)
  • Figure 5.1: Global Preimplantation Genetic Testing Market by Technology in 2019, 2024, and 2031
  • Figure 5.2: Trends of the Global Preimplantation Genetic Testing Market ($B) by Technology
  • Figure 5.3: Forecast for the Global Preimplantation Genetic Testing Market ($B) by Technology
  • Figure 5.4: Trends and Forecast for Next Generation Sequencing in the Global Preimplantation Genetic Testing Market (2019-2031)
  • Figure 5.5: Trends and Forecast for Polymerase Chain Reaction in the Global Preimplantation Genetic Testing Market (2019-2031)
  • Figure 5.6: Trends and Forecast for Fluorescent In-Situ Hybridization in the Global Preimplantation Genetic Testing Market (2019-2031)
  • Figure 5.7: Trends and Forecast for Others in the Global Preimplantation Genetic Testing Market (2019-2031)
  • Figure 6.1: Global Preimplantation Genetic Testing Market by Application in 2019, 2024, and 2031
  • Figure 6.2: Trends of the Global Preimplantation Genetic Testing Market ($B) by Application
  • Figure 6.3: Forecast for the Global Preimplantation Genetic Testing Market ($B) by Application
  • Figure 6.4: Trends and Forecast for Chromosomal Abnormalities in the Global Preimplantation Genetic Testing Market (2019-2031)
  • Figure 6.5: Trends and Forecast for X-linked Diseases in the Global Preimplantation Genetic Testing Market (2019-2031)
  • Figure 6.6: Trends and Forecast for Embryo Testing in the Global Preimplantation Genetic Testing Market (2019-2031)
  • Figure 6.7: Trends and Forecast for Aneuploidy Screening in the Global Preimplantation Genetic Testing Market (2019-2031)
  • Figure 6.8: Trends and Forecast for HLA Typing in the Global Preimplantation Genetic Testing Market (2019-2031)
  • Figure 6.9: Trends and Forecast for Others in the Global Preimplantation Genetic Testing Market (2019-2031)
  • Figure 7.1: Global Preimplantation Genetic Testing Market by End Use in 2019, 2024, and 2031
  • Figure 7.2: Trends of the Global Preimplantation Genetic Testing Market ($B) by End Use
  • Figure 7.3: Forecast for the Global Preimplantation Genetic Testing Market ($B) by End Use
  • Figure 7.4: Trends and Forecast for Fertility Centers in the Global Preimplantation Genetic Testing Market (2019-2031)
  • Figure 7.5: Trends and Forecast for Hospitals in the Global Preimplantation Genetic Testing Market (2019-2031)
  • Figure 7.6: Trends and Forecast for Diagnostic Centers in the Global Preimplantation Genetic Testing Market (2019-2031)
  • Figure 7.7: Trends and Forecast for Research Centers & Academic Labs in the Global Preimplantation Genetic Testing Market (2019-2031)
  • Figure 7.8: Trends and Forecast for Others in the Global Preimplantation Genetic Testing Market (2019-2031)
  • Figure 8.1: Trends of the Global Preimplantation Genetic Testing Market ($B) by Region (2019-2024)
  • Figure 8.2: Forecast for the Global Preimplantation Genetic Testing Market ($B) by Region (2025-2031)
  • Figure 9.1: North American Preimplantation Genetic Testing Market by Product in 2019, 2024, and 2031
  • Figure 9.2: Trends of the North American Preimplantation Genetic Testing Market ($B) by Product (2019-2024)
  • Figure 9.3: Forecast for the North American Preimplantation Genetic Testing Market ($B) by Product (2025-2031)
  • Figure 9.4: North American Preimplantation Genetic Testing Market by End Use in 2019, 2024, and 2031
  • Figure 9.5: Trends of the North American Preimplantation Genetic Testing Market ($B) by End Use (2019-2024)
  • Figure 9.6: Forecast for the North American Preimplantation Genetic Testing Market ($B) by End Use (2025-2031)
  • Figure 9.7: Trends and Forecast for the United States Preimplantation Genetic Testing Market ($B) (2019-2031)
  • Figure 9.8: Trends and Forecast for the Mexican Preimplantation Genetic Testing Market ($B) (2019-2031)
  • Figure 9.9: Trends and Forecast for the Canadian Preimplantation Genetic Testing Market ($B) (2019-2031)
  • Figure 10.1: European Preimplantation Genetic Testing Market by Product in 2019, 2024, and 2031
  • Figure 10.2: Trends of the European Preimplantation Genetic Testing Market ($B) by Product (2019-2024)
  • Figure 10.3: Forecast for the European Preimplantation Genetic Testing Market ($B) by Product (2025-2031)
  • Figure 10.4: European Preimplantation Genetic Testing Market by End Use in 2019, 2024, and 2031
  • Figure 10.5: Trends of the European Preimplantation Genetic Testing Market ($B) by End Use (2019-2024)
  • Figure 10.6: Forecast for the European Preimplantation Genetic Testing Market ($B) by End Use (2025-2031)
  • Figure 10.7: Trends and Forecast for the German Preimplantation Genetic Testing Market ($B) (2019-2031)
  • Figure 10.8: Trends and Forecast for the French Preimplantation Genetic Testing Market ($B) (2019-2031)
  • Figure 10.9: Trends and Forecast for the Spanish Preimplantation Genetic Testing Market ($B) (2019-2031)
  • Figure 10.10: Trends and Forecast for the Italian Preimplantation Genetic Testing Market ($B) (2019-2031)
  • Figure 10.11: Trends and Forecast for the United Kingdom Preimplantation Genetic Testing Market ($B) (2019-2031)
  • Figure 11.1: APAC Preimplantation Genetic Testing Market by Product in 2019, 2024, and 2031
  • Figure 11.2: Trends of the APAC Preimplantation Genetic Testing Market ($B) by Product (2019-2024)
  • Figure 11.3: Forecast for the APAC Preimplantation Genetic Testing Market ($B) by Product (2025-2031)
  • Figure 11.4: APAC Preimplantation Genetic Testing Market by End Use in 2019, 2024, and 2031
  • Figure 11.5: Trends of the APAC Preimplantation Genetic Testing Market ($B) by End Use (2019-2024)
  • Figure 11.6: Forecast for the APAC Preimplantation Genetic Testing Market ($B) by End Use (2025-2031)
  • Figure 11.7: Trends and Forecast for the Japanese Preimplantation Genetic Testing Market ($B) (2019-2031)
  • Figure 11.8: Trends and Forecast for the Indian Preimplantation Genetic Testing Market ($B) (2019-2031)
  • Figure 11.9: Trends and Forecast for the Chinese Preimplantation Genetic Testing Market ($B) (2019-2031)
  • Figure 11.10: Trends and Forecast for the South Korean Preimplantation Genetic Testing Market ($B) (2019-2031)
  • Figure 11.11: Trends and Forecast for the Indonesian Preimplantation Genetic Testing Market ($B) (2019-2031)
  • Figure 12.1: ROW Preimplantation Genetic Testing Market by Product in 2019, 2024, and 2031
  • Figure 12.2: Trends of the ROW Preimplantation Genetic Testing Market ($B) by Product (2019-2024)
  • Figure 12.3: Forecast for the ROW Preimplantation Genetic Testing Market ($B) by Product (2025-2031)
  • Figure 12.4: ROW Preimplantation Genetic Testing Market by End Use in 2019, 2024, and 2031
  • Figure 12.5: Trends of the ROW Preimplantation Genetic Testing Market ($B) by End Use (2019-2024)
  • Figure 12.6: Forecast for the ROW Preimplantation Genetic Testing Market ($B) by End Use (2025-2031)
  • Figure 12.7: Trends and Forecast for the Middle Eastern Preimplantation Genetic Testing Market ($B) (2019-2031)
  • Figure 12.8: Trends and Forecast for the South American Preimplantation Genetic Testing Market ($B) (2019-2031)
  • Figure 12.9: Trends and Forecast for the African Preimplantation Genetic Testing Market ($B) (2019-2031)
  • Figure 13.1: Porter's Five Forces Analysis of the Global Preimplantation Genetic Testing Market
  • Figure 13.2: Market Share (%) of Top Players in the Global Preimplantation Genetic Testing Market (2024)
  • Figure 14.1: Growth Opportunities for the Global Preimplantation Genetic Testing Market by Product
  • Figure 14.2: Growth Opportunities for the Global Preimplantation Genetic Testing Market by Technology
  • Figure 14.3: Growth Opportunities for the Global Preimplantation Genetic Testing Market by Application
  • Figure 14.4: Growth Opportunities for the Global Preimplantation Genetic Testing Market by End Use
  • Figure 14.5: Growth Opportunities for the Global Preimplantation Genetic Testing Market by Region
  • Figure 14.6: Emerging Trends in the Global Preimplantation Genetic Testing Market

List of Tables

  • Table 1.1: Growth Rate (%, 2023-2024) and CAGR (%, 2025-2031) of the Preimplantation Genetic Testing Market by Product, Technology, Application, and End Use
  • Table 1.2: Attractiveness Analysis for the Preimplantation Genetic Testing Market by Region
  • Table 1.3: Global Preimplantation Genetic Testing Market Parameters and Attributes
  • Table 3.1: Trends of the Global Preimplantation Genetic Testing Market (2019-2024)
  • Table 3.2: Forecast for the Global Preimplantation Genetic Testing Market (2025-2031)
  • Table 4.1: Attractiveness Analysis for the Global Preimplantation Genetic Testing Market by Product
  • Table 4.2: Market Size and CAGR of Various Product in the Global Preimplantation Genetic Testing Market (2019-2024)
  • Table 4.3: Market Size and CAGR of Various Product in the Global Preimplantation Genetic Testing Market (2025-2031)
  • Table 4.4: Trends of Reagents & Consumables in the Global Preimplantation Genetic Testing Market (2019-2024)
  • Table 4.5: Forecast for Reagents & Consumables in the Global Preimplantation Genetic Testing Market (2025-2031)
  • Table 4.6: Trends of Instruments in the Global Preimplantation Genetic Testing Market (2019-2024)
  • Table 4.7: Forecast for Instruments in the Global Preimplantation Genetic Testing Market (2025-2031)
  • Table 4.8: Trends of Software in the Global Preimplantation Genetic Testing Market (2019-2024)
  • Table 4.9: Forecast for Software in the Global Preimplantation Genetic Testing Market (2025-2031)
  • Table 5.1: Attractiveness Analysis for the Global Preimplantation Genetic Testing Market by Technology
  • Table 5.2: Market Size and CAGR of Various Technology in the Global Preimplantation Genetic Testing Market (2019-2024)
  • Table 5.3: Market Size and CAGR of Various Technology in the Global Preimplantation Genetic Testing Market (2025-2031)
  • Table 5.4: Trends of Next Generation Sequencing in the Global Preimplantation Genetic Testing Market (2019-2024)
  • Table 5.5: Forecast for Next Generation Sequencing in the Global Preimplantation Genetic Testing Market (2025-2031)
  • Table 5.6: Trends of Polymerase Chain Reaction in the Global Preimplantation Genetic Testing Market (2019-2024)
  • Table 5.7: Forecast for Polymerase Chain Reaction in the Global Preimplantation Genetic Testing Market (2025-2031)
  • Table 5.8: Trends of Fluorescent In-Situ Hybridization in the Global Preimplantation Genetic Testing Market (2019-2024)
  • Table 5.9: Forecast for Fluorescent In-Situ Hybridization in the Global Preimplantation Genetic Testing Market (2025-2031)
  • Table 5.10: Trends of Others in the Global Preimplantation Genetic Testing Market (2019-2024)
  • Table 5.11: Forecast for Others in the Global Preimplantation Genetic Testing Market (2025-2031)
  • Table 6.1: Attractiveness Analysis for the Global Preimplantation Genetic Testing Market by Application
  • Table 6.2: Market Size and CAGR of Various Application in the Global Preimplantation Genetic Testing Market (2019-2024)
  • Table 6.3: Market Size and CAGR of Various Application in the Global Preimplantation Genetic Testing Market (2025-2031)
  • Table 6.4: Trends of Chromosomal Abnormalities in the Global Preimplantation Genetic Testing Market (2019-2024)
  • Table 6.5: Forecast for Chromosomal Abnormalities in the Global Preimplantation Genetic Testing Market (2025-2031)
  • Table 6.6: Trends of X-linked Diseases in the Global Preimplantation Genetic Testing Market (2019-2024)
  • Table 6.7: Forecast for X-linked Diseases in the Global Preimplantation Genetic Testing Market (2025-2031)
  • Table 6.8: Trends of Embryo Testing in the Global Preimplantation Genetic Testing Market (2019-2024)
  • Table 6.9: Forecast for Embryo Testing in the Global Preimplantation Genetic Testing Market (2025-2031)
  • Table 6.10: Trends of Aneuploidy Screening in the Global Preimplantation Genetic Testing Market (2019-2024)
  • Table 6.11: Forecast for Aneuploidy Screening in the Global Preimplantation Genetic Testing Market (2025-2031)
  • Table 6.12: Trends of HLA Typing in the Global Preimplantation Genetic Testing Market (2019-2024)
  • Table 6.13: Forecast for HLA Typing in the Global Preimplantation Genetic Testing Market (2025-2031)
  • Table 6.14: Trends of Others in the Global Preimplantation Genetic Testing Market (2019-2024)
  • Table 6.15: Forecast for Others in the Global Preimplantation Genetic Testing Market (2025-2031)
  • Table 7.1: Attractiveness Analysis for the Global Preimplantation Genetic Testing Market by End Use
  • Table 7.2: Market Size and CAGR of Various End Use in the Global Preimplantation Genetic Testing Market (2019-2024)
  • Table 7.3: Market Size and CAGR of Various End Use in the Global Preimplantation Genetic Testing Market (2025-2031)
  • Table 7.4: Trends of Fertility Centers in the Global Preimplantation Genetic Testing Market (2019-2024)
  • Table 7.5: Forecast for Fertility Centers in the Global Preimplantation Genetic Testing Market (2025-2031)
  • Table 7.6: Trends of Hospitals in the Global Preimplantation Genetic Testing Market (2019-2024)
  • Table 7.7: Forecast for Hospitals in the Global Preimplantation Genetic Testing Market (2025-2031)
  • Table 7.8: Trends of Diagnostic Centers in the Global Preimplantation Genetic Testing Market (2019-2024)
  • Table 7.9: Forecast for Diagnostic Centers in the Global Preimplantation Genetic Testing Market (2025-2031)
  • Table 7.10: Trends of Research Centers & Academic Labs in the Global Preimplantation Genetic Testing Market (2019-2024)
  • Table 7.11: Forecast for Research Centers & Academic Labs in the Global Preimplantation Genetic Testing Market (2025-2031)
  • Table 7.12: Trends of Others in the Global Preimplantation Genetic Testing Market (2019-2024)
  • Table 7.13: Forecast for Others in the Global Preimplantation Genetic Testing Market (2025-2031)
  • Table 8.1: Market Size and CAGR of Various Regions in the Global Preimplantation Genetic Testing Market (2019-2024)
  • Table 8.2: Market Size and CAGR of Various Regions in the Global Preimplantation Genetic Testing Market (2025-2031)
  • Table 9.1: Trends of the North American Preimplantation Genetic Testing Market (2019-2024)
  • Table 9.2: Forecast for the North American Preimplantation Genetic Testing Market (2025-2031)
  • Table 9.3: Market Size and CAGR of Various Product in the North American Preimplantation Genetic Testing Market (2019-2024)
  • Table 9.4: Market Size and CAGR of Various Product in the North American Preimplantation Genetic Testing Market (2025-2031)
  • Table 9.5: Market Size and CAGR of Various End Use in the North American Preimplantation Genetic Testing Market (2019-2024)
  • Table 9.6: Market Size and CAGR of Various End Use in the North American Preimplantation Genetic Testing Market (2025-2031)
  • Table 9.7: Trends and Forecast for the United States Preimplantation Genetic Testing Market (2019-2031)
  • Table 9.8: Trends and Forecast for the Mexican Preimplantation Genetic Testing Market (2019-2031)
  • Table 9.9: Trends and Forecast for the Canadian Preimplantation Genetic Testing Market (2019-2031)
  • Table 10.1: Trends of the European Preimplantation Genetic Testing Market (2019-2024)
  • Table 10.2: Forecast for the European Preimplantation Genetic Testing Market (2025-2031)
  • Table 10.3: Market Size and CAGR of Various Product in the European Preimplantation Genetic Testing Market (2019-2024)
  • Table 10.4: Market Size and CAGR of Various Product in the European Preimplantation Genetic Testing Market (2025-2031)
  • Table 10.5: Market Size and CAGR of Various End Use in the European Preimplantation Genetic Testing Market (2019-2024)
  • Table 10.6: Market Size and CAGR of Various End Use in the European Preimplantation Genetic Testing Market (2025-2031)
  • Table 10.7: Trends and Forecast for the German Preimplantation Genetic Testing Market (2019-2031)
  • Table 10.8: Trends and Forecast for the French Preimplantation Genetic Testing Market (2019-2031)
  • Table 10.9: Trends and Forecast for the Spanish Preimplantation Genetic Testing Market (2019-2031)
  • Table 10.10: Trends and Forecast for the Italian Preimplantation Genetic Testing Market (2019-2031)
  • Table 10.11: Trends and Forecast for the United Kingdom Preimplantation Genetic Testing Market (2019-2031)
  • Table 11.1: Trends of the APAC Preimplantation Genetic Testing Market (2019-2024)
  • Table 11.2: Forecast for the APAC Preimplantation Genetic Testing Market (2025-2031)
  • Table 11.3: Market Size and CAGR of Various Product in the APAC Preimplantation Genetic Testing Market (2019-2024)
  • Table 11.4: Market Size and CAGR of Various Product in the APAC Preimplantation Genetic Testing Market (2025-2031)
  • Table 11.5: Market Size and CAGR of Various End Use in the APAC Preimplantation Genetic Testing Market (2019-2024)
  • Table 11.6: Market Size and CAGR of Various End Use in the APAC Preimplantation Genetic Testing Market (2025-2031)
  • Table 11.7: Trends and Forecast for the Japanese Preimplantation Genetic Testing Market (2019-2031)
  • Table 11.8: Trends and Forecast for the Indian Preimplantation Genetic Testing Market (2019-2031)
  • Table 11.9: Trends and Forecast for the Chinese Preimplantation Genetic Testing Market (2019-2031)
  • Table 11.10: Trends and Forecast for the South Korean Preimplantation Genetic Testing Market (2019-2031)
  • Table 11.11: Trends and Forecast for the Indonesian Preimplantation Genetic Testing Market (2019-2031)
  • Table 12.1: Trends of the ROW Preimplantation Genetic Testing Market (2019-2024)
  • Table 12.2: Forecast for the ROW Preimplantation Genetic Testing Market (2025-2031)
  • Table 12.3: Market Size and CAGR of Various Product in the ROW Preimplantation Genetic Testing Market (2019-2024)
  • Table 12.4: Market Size and CAGR of Various Product in the ROW Preimplantation Genetic Testing Market (2025-2031)
  • Table 12.5: Market Size and CAGR of Various End Use in the ROW Preimplantation Genetic Testing Market (2019-2024)
  • Table 12.6: Market Size and CAGR of Various End Use in the ROW Preimplantation Genetic Testing Market (2025-2031)
  • Table 12.7: Trends and Forecast for the Middle Eastern Preimplantation Genetic Testing Market (2019-2031)
  • Table 12.8: Trends and Forecast for the South American Preimplantation Genetic Testing Market (2019-2031)
  • Table 12.9: Trends and Forecast for the African Preimplantation Genetic Testing Market (2019-2031)
  • Table 13.1: Product Mapping of Preimplantation Genetic Testing Suppliers Based on Segments
  • Table 13.2: Operational Integration of Preimplantation Genetic Testing Manufacturers
  • Table 13.3: Rankings of Suppliers Based on Preimplantation Genetic Testing Revenue
  • Table 14.1: New Product Launches by Major Preimplantation Genetic Testing Producers (2019-2024)
  • Table 14.2: Certification Acquired by Major Competitor in the Global Preimplantation Genetic Testing Market
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