Regenerative Medicine Market 2026: Product Approvals and Growing Pipeline of Regenerative Medicine P – PharmiWeb.com

Future Trends, Drivers & Opportunity: Rising Demand for Organ Transplantation, Implementation of the 21st Century Cures Act, Rising Government Investments in Regenerative Medicine Research, Rising Prevalence of Chronic Diseases and Genetic Disorders

Regenerative Medicine Market Analysis:

Global Regenerative Medicine Market was valued at USD 19.10 Billion in 2018 and is expected to witness a growth of 22.72% from 2019-2026 and reach USD 98.10 Billion by 2026.

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What is Regenerative Medicine Market?

The field of regenerative medicine comprises of abundant strategies, which mainly includes use of materials and de novo generated cells, as well as various amalgamations thereof, to substitute the lost tissue, efficiently replacing it both anatomically and functionally, or to contribute to tissue restoration. The main objective of regenerative medicine is to propagate replacement tissue or organs for patients who have sustained an injury or have had a disease that permanently damaged their tissue. National Institutes of Health defines regenerative medicine as a process of creating living, functional tissues to repair or replace tissue or organ function lost due to age, disease, damage, or congenital defects.

Regenerative Medicine can be perceived as an interdisciplinary field of research and clinical applications which mainly focuses on the repair, replacement or regeneration of cells, tissues or organs. Regenerative Medicine mainly restores impaired function resulting from any cause. Regenerative medicine has the ability to rectify or substitute tissues and organs impaired by age, disease, or trauma, as well as to normalize congenital defects.

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Regenerative Medicine Market Outlook

Over the last decade, stem cell biology has experienced a breakthrough in scientific and technological developments that will together have foremost and continuing influence on regenerative medicine. These entails capability to produce pluripotent stem cells from adult body cells and to cultivate mini-organs from these or from adult stem cells in well-defined culture conditions. Both methodologies offer ways to develop functional cells of human tissue that could be used for transplantation and tissue repair.

Government policies favoring regenerative medicine is one of the major reasons which has been driving the market growth. The European Union (EU) and Dutch government have prioritized regenerative medicine as an area of key strategic relevance. Apart from this, rapid increase in aged population has also boomed the market in North American region. The North Carolina Tissue Engineering and Regenerative Medicine Society is an organization in the U.S. working to improve and advance basic research, commercial development and education in the field of regenerative medicine. In the U.S., two major government agencies NIH and CIRM gather funds for academic translational stem cell research and regenerative medicine development. Increasing global healthcare expenditure is also expected to fuel the market.

Lack of awareness and ethical issues regarding the use of Embryonic Stem Cell for R&D is expected to hinder the market for regenerative medicine. The market growth rate is highly influenced by the adoption rate of cell therapy in the market, as it is an integral part of regenerative medicine. After conducting a survey, following statistics were fetched in terms of major hindrances in stem cell research.

A survey was conducted and the respondents had above rating on a scale of 1-5, where 1 stands for not limiting and 5 stands for major limitation. Respondents rated Expense as the most limiting hindrance in stem cell research. Thus, high cost of investment could be one of the major restraints of the market followed by issues of assay sensitivity, robustness and reproducibility; difficulty of culture/propagation; and then difficulty of handling.

Global Regenerative Medicine Market Segmentation

The Global Regenerative Medicine Market is classified on the basis of Therapy, Product, Application and Region. The gist of breaking down the market into various segments is to gather the information about various aspects of the market. On the basis of Therapy, the market is bifurcated on the basis of Cell Therapy, Immunotherapy, Tissue Engineering, and Gene Therapy. The Cell Therapy is expected to be dominating in the market. The reason for this could be growing stem cell research and development.

In terms of Product, the market study encompasses various aspects such cell-based products and acellular products. Growing funding for new stem cell lines is boosting the growth of cell-based products in the global market. With growing R&D work occurring in Asian countries, the Asia Pacific region will grow at the fastest pace. Another reason for the growth rate could be rising awareness and establishments of bio-banks/stem cell banks.

Regenerative Medicine Market Competitive Landscape

The Regenerative Medicine Market study report offers a valuable insight with an emphasis on global market including some of the major players such as Organogenesis Inc., Osiris Therapeutics, Inc., Vericel Corporation, Stryker Corporation and NuVasive, Inc. Our market analysis also entails a section solely dedicated for such major players wherein our analysts provide an insight to the financial statements of all the major players, along with its product benchmarking and SWOT analysis. The competitive landscape section also includes key development strategies, market share and market ranking analysis of the above mentioned players globally.

Analyst View:

Since tissue engineering and regenerative medicine arose as an industry about two decades ago, a wide range of therapies have received Food and Drug Administration (FDA) authorization of commercial availability. Advent of stem cells have boomed the market for regenerative medicine. Geopolitical policies have increased the scope for regenerative medicine.

The case of Japan justifies the attention it has been getting lately. The Japans initiative that included the reform of law based on regenerative medicine is attracting business toward the country. The creation of the Forum for Innovative Regenerative Medicine (FIRM) in 2014, comprising 185 firms as of January 2016, and the participation of an increasing number of organizations from the United States, Canada, the United Kingdom, Sweden, and Australia, represented a significant breakthrough.

The field of regenerative medicine is expected to provide new opportunities bring numerous opportunities across. Various key industry players have come ahead to invest in regenerative medicine. The concept of regenerative medicine is actively being implemented in across various applications such as Oncology, Cardiology, Orthopedic & Musculoskeletal Disorders, etc.

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Regenerative Medicine Market 2026: Product Approvals and Growing Pipeline of Regenerative Medicine P - PharmiWeb.com

Mutations in donors’ stem cells may cause problems for cancer patients – Washington University School of Medicine in St. Louis

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Heart problems, graft-versus-host disease are concerns

A new study from Washington University School of Medicine in St. Louis suggests that bone marrow or blood stem cells from healthy donors can harbor extremely rare mutations that can cause health problems for the cancer patients who receive them. Such stem cell transplants are important for treating blood cancers, including acute myeloid leukemia. In the healthy bone marrow pictured, mature red blood cells are shown as small brownish-pink discs; red blood cells that are still developing are in deep blue; and developing white blood cells are in lighter blue.

A stem cell transplant also called a bone marrow transplant is a common treatment for blood cancers, such as acute myeloid leukemia (AML). Such treatment can cure blood cancers but also can lead to life-threatening complications, including heart problems and graft-versus-host disease, in which new immune cells from the donor attack a patients healthy tissues.

A new study from Washington University School of Medicine in St. Louis suggests that extremely rare, harmful genetic mutations present in healthy donors stem cells though not causing health problems in the donors may be passed on to cancer patients receiving stem cell transplants. The intense chemo- and radiation therapy prior to transplant and the immunosuppression given after allow cells with these rare mutations the opportunity to quickly replicate, potentially creating health problems for the patients who receive them, suggests the research, published Jan. 15 in the journal Science Translational Medicine.

Among the concerns are heart damage, graft-versus-host disease and possible new leukemias.

The study, involving samples from patients with AML and their stem cell donors, suggests such rare, harmful mutations are present in surprisingly young donors and can cause problems for recipients even if the mutations are so rare as to be undetectable in the donor by typical genome sequencing techniques. The research opens the door to a larger study that will investigate these rare mutations in many more healthy donors, potentially leading to ways to prevent or mitigate the health effects of such genetic errors in patients receiving stem cell transplants.

There have been suspicions that genetic errors in donor stem cells may be causing problems in cancer patients, but until now we didnt have a way to identify them because they are so rare, said senior author Todd E. Druley, MD, PhD, an associate professor of pediatrics. This study raises concerns that even young, healthy donors blood stem cells may have harmful mutations and provides strong evidence that we need to explore the potential effects of these mutations further.

Added co-author Sima T. Bhatt, MD, an assistant professor of pediatrics who treats pediatric patients with blood cancers at Siteman Kids at St. Louis Childrens Hospital and Washington University School of Medicine: Transplant physicians tend to seek younger donors because we assume this will lead to fewer complications. But we now see evidence that even young and healthy donors can have mutations that will have consequences for our patients. We need to understand what those consequences are if we are to find ways to modify them.

The study analyzed bone marrow from 25 adult patients with AML whose samples had been stored in a repository at Washington University. Samples from their healthy matched donors, who were unrelated to the patients, also were sequenced. The donors samples were provided by the Center for International Blood and Marrow Transplant Research in Milwaukee.

The 25 AML patients were chosen because they each had had samples banked at four separate times: before the transplant, at 30 days post-transplant, at 100 days post-transplant, and one year post-transplant.

Druley co-invented a technique called error-corrected sequencing, to identify extremely rare DNA mutations that would be missed by conventional genome sequencing. Typical next-generation sequencing techniques can correctly identify a mutation that is present in one in 100 cells. The new method, which can distinguish between true mutations and mistakes introduced by the sequencing machine, allows the researchers to find true mutations that are extremely rare those present in as few as one in 10,000 cells.

The healthy donors ranged in age from 20 to 58, with an average age of 26. The researchers sequenced 80 genes known to be associated with AML, and they identified at least one harmful genetic mutation in 11 of the 25 donors, or 44%. They further showed that 84% of all the various mutations identified in the donors samples were potentially harmful, and that 100% of the harmful mutations present in the donors later were found in the recipients. These harmful mutations also persisted over time, and many increased in frequency. Such data suggest the harmful mutations from the donor confer a survival advantage to the cells that harbor them.

We didnt expect this many young, healthy donors to have these types of mutations, Druley said. We also didnt expect 100% of the harmful mutations to be engrafted into the recipients. That was striking.

According to the researchers, the study raises questions about the origins of some of the well-known side effects of stem cell transplantation.

We see a trend between mutations from the donor that persist over time and the development of chronic graft-versus-host disease, said first author Wing Hing Wong, a doctoral student in Druleys lab. We plan to examine this more closely in a larger study.

Though the study was not large enough to establish a causal link, the researchers found that 75% of the patients who received at least one harmful mutation in the 80 genes that persisted over time developed chronic graft-versus-host disease. Among patients who did not receive mutations in the 80 genes, about 50% developed the condition. Because the study was small, this difference was not statistically significant, but it is evidence that the association should be studied more closely. In general, about half of all patients who receive a stem cell transplant go on to develop some form of graft-versus-host disease.

The most common mutation seen in the donors and the cancer patients studied is in a gene associated with heart disease. Healthy people with mutations in this gene are at higher risk of heart attack due to plaque buildup in the arteries.

We know that cardiac dysfunction is a major complication after a bone marrow transplant, but its always been attributed to toxicity from radiation or chemotherapy, Druley said. Its never been linked to mutations in the blood-forming cells. We cant make this claim definitively, but we have data to suggest we should study that in much more detail.

Added Bhatt: Now that weve also linked these mutations to graft-versus-host disease and cardiovascular problems, we have a larger study planned that we hope will answer some of the questions posed by this one.

This work was supported by the National Cancer Institute (NCI) of the National Institutes of Health (NIH), grant number R01CA211711; the Hyundai Quantum Award; the Leukemia and Lymphoma Society Scholar Award; the Eli Seth Matthews Leukemia Foundation; and the Kellsies Hope Foundation. The Center for International Blood and Marrow Transplant Research is supported by a Public Health Service Grant/Cooperative Agreement from the NCI, the National Heart, Lung and Blood Institute (NHLBI), and the National Institute of Allergy and Infectious Diseases (NIAID), grant number 5U24CA076518; a Grant/Cooperative Agreement from NHLBI and NCI, grant number 1U24HL138660; a contract with Health Resources and Services Administration (HRSA/DHHS), number HHSH250201700006C; and the Office of Naval Research, grant numbers N00014-17-1-2388, N00014-17-1-2850 and N00014-18-1-2045. Support also was provided by a UKRI future leaders fellowship and by a CRUK Cambridge Centre Early Detection Programme group leader grant.

The Washington University Office of Technology Management has filed a patent application for Ultra-rare Variant Detection from Next-generation Sequencing, which has been licensed by Canopy Biosciences as RareSeq. Druley is a coinventor on this patent. Canopy Biosciences was not involved in the generation of the data presented.

Wong WH, Bhatt S, Trinkaus K, Pusic I, Elliott K, Mahajan N, Wan F, Switzer GE, Confer DL, DiPersio J, Pulsipher MA, Shah NN, Sees J, Bystry A, Blundell JR, Shaw BE, Druley TE. Engraftment of rare, pathogenic donor hematopoietic mutations in unrelated hematopoietic stem cell transplantation. Science Translational Medicine. Jan. 15, 2020.

Washington University School of Medicines 1,500 faculty physicians also are the medical staff of Barnes-Jewish and St. Louis Childrens hospitals. The School of Medicine is a leader in medical research, teaching and patient care, ranking among the top 10 medical schools in the nation by U.S. News & World Report. Through its affiliations with Barnes-Jewish and St. Louis Childrens hospitals, the School of Medicine is linked to BJC HealthCare.

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Mutations in donors' stem cells may cause problems for cancer patients - Washington University School of Medicine in St. Louis

Global Cell Expansion Market by Type, Share Analysis, Top Players Eyeing to Penetrate Into Emerging Nations with Untapped Opportunities 2024 …

Executive Summary

A comprehensive research report created through extensive primary research (inputs from industry experts, companies, stakeholders) and secondary research, the report aims to present the analysis of cell expansion market. The report analyses the Global Cell Expansion Market: Analysis By Product Type (Instruments, Consumables, Disposables), By Cell Type (Human Cell and Animal Cell), By Application (Regenerative Medicine and Stem Cell Research and Cancer and Cell Based Research), By Region (North America, Europe, Asia Pacific, South America, and Middle East and Africa), (U.S, Canada, Germany, France, U.K., Japan, China, India): Opportunities and Forecast (2019 Edition): Forecast to 2024, for the historical period of 2018-2019 and the forecast period of 2019-2024.

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According to research report Global Cell Expansion Market: Analysis By Product Type (Instruments, Consumables, Disposables), By Cell Type (Human Cell and Animal Cell), By Application (Regenerative Medicine and Stem Cell Research and Cancer and Cell Based Research), By Region (North America, Europe, Asia Pacific, South America, and Middle East and Africa), (U.S, Canada, Germany, France, U.K., Japan, China, India): Opportunities and Forecast (2019 Edition): Forecast to 2024-, the cell expansion market is projected to display a robust growth represented by a CAGR of 17.33% during 2019 2024.

Over the recent years, cell expansion market has been witnessing considerable growth directly on the back of increasing prevalence of chronic diseases such as cancer, diabetes, osteoarthritis, etc. Moreover, factors such as increasing investment in healthcare research, growing government initiatives, increasing adoption rate of new and technically instruments, rapidly evolving applicable segment market has been providing momentum to the overall market growth of cell expansion.

In addition, increasing demand for technically advanced products such as automated cell expansion systems and increasing number of cell GMP-certified cell expansion facilities are anticipated to fuel the market growth in forecasted period. However, recalls due to product failures have been hindering the market growth.

The report titled Global Cell Expansion Market: Analysis By Product Type (Instruments, Consumables, Disposables), By Cell Type (Human Cell and Animal Cell), By Application (Regenerative Medicine and Stem Cell Research and Cancer and Cell Based Research), By Region (North America, Europe, Asia Pacific, South America, and Middle East and Africa), (U.S, Canada, Germany, France, U.K., Japan, China, India): Opportunities and Forecast (2019 Edition): Forecast to 2024:-has covered and analysed the potential of cell expansion market and provides statistics and information on market size, shares and growth factors. The report intends to provide cutting-edge market intelligence and help decision makers take sound investment evaluation. Besides, the report also identifies and analyses the emerging trends along with major drivers, challenges and opportunities. Additionally, the report also highlights market entry strategies for various companies.

More about Report:https://www.marketwatch.com/press-release/global-cell-expansion-market-by-type-industry-size-share-analysis-top-players-eyeing-to-penetrate-into-emerging-nations-with-untapped-opportunities-2024-2020-01-07

Scope of the ReportGlobal Cell Expansion Market (actual period:2014-2018)(forecast period:2019-2024)Cell Expansion Market Size, Growth, Forecast Analysis By Product Type: Instruments, Consumables, Disposables. Analysis By Cell Type: Human Cells and Animal Cells. Analysis By Application Type: Regenerative Medicine and Stem Cell Research and Cancer and Cell Based Research.

Regional Cell Expansion Market North America, Europe, Asia Pacific, South America, and Middle East and Africa (actual period:2014-2018)(forecast period:2019-2024)Cell Expansion Market Size, Growth, Forecast Analysis By Product Type: Instruments, Consumables, Disposables. Analysis By Cell Type: Human Cells and Animal Cells. Analysis By Application Type: Regenerative Medicine and Stem Cell Research and Cancer and Cell Based Research.

Country Cell Expansion Market U.S., Canada, Germany, U.K, France, China, Japan, India (actual period:2014-2018)(forecast period:2019-2024)Cell Expansion Market Size, Growth, Forecast Analysis By Product Type: Instruments, Consumables, Disposables. Analysis By Cell Type: Human Cells and Animal Cells. Analysis By Application Type: Regenerative Medicine and Stem Cell Research and Cancer and Cell Based Research.

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Other Report HighlightsMarket Dynamics Drivers and Restraints.Market Trends.Porter Five Forces Analysis.SWOT Analysis.Company Analysis Merck Millipore, Eppendorf, ThermoFisher Scientific, Becton Dickinson, Danaher Corporation, Corning Inc., Terumo Medical Corporation, CellGenix Technologie Transfer GmbH, Synthecon Inc., Stem Cell Technologies Inc.

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The report could be customized according to the clients specific research requirements. No additional cost will be required to pay for limited additional research.

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Global Cell Expansion Market by Type, Share Analysis, Top Players Eyeing to Penetrate Into Emerging Nations with Untapped Opportunities 2024 ...

Introducing Generate Life Sciences – A First-Of-Its-Kind Company Focused On Helping Grow And Protect Healthy Families – PRNewswire

Generate serves families from preconception to post-birth throughout the significant and highly personalized journey of building a family and protecting their children's health. Built upon the pillars of innovation, access, and connection, Generate has already helped grow and protect nearly 1 million families around the world.

Our legacy brands CBR, California Cryobank, and Donor Egg Bank USA are pioneering leaders in their respective fields and continue to set industry standards for innovation, scientific excellence, and customer focus. Generate is furthering the impact of this life sciences platform with the addition of advanced pediatric genetic testing, US distribution of reproductive medical devices and proprietary healthcare technology through the respective brands ReadyGen (pediatric genetic screening powered by Sema4), Kitazato USA (medical device distribution), and Donor Application (proprietary software for reproductive clinics).

"Our brands are leaders in each of their categories; as a life sciences platform, we are uniquely positioned to give clients access to the full range of expertise and services needed to create and support healthy families," said Richard Jennings, Chief Executive Officer. "Generate helps its clients realize their dreams of having a baby and provides access to scientific innovations in stem cells and genetic services that improve the lives of families around the world."

With the substantial growth in single parenting by choice and LGBTQ+ family building, as well as a trend towards having children later in life, Generate's reproductive health services have never been in higher demand. Similarly, advances in stem cell therapies and research into regenerative medicine have emphasized the importance and increased the awareness and interest in storing newborn stem cells with CBR.

"Generate Life Sciences is positioned to play an increasingly important role in protecting families as regenerative medicine and new genetic testing platforms open the door to the future of personalized medical treatments," said Jaime Shamonki, MD, Chief Medical Officer. "Uniting key elements of the family-building experience under Generate will give our clients peace of mind, convenient access, and exceptional support throughout this significant time in their lives. This organization has collectively helped create nearly 100,000 families and provides access to invaluable long-term health benefits to almost a million more. For us, Generate represents more than just good business; it is advancing scientific innovations that help the future of humanity."

"The journey to parenthood has evolved over the years, but the end goal is the same people want to have children and they want to keep them safe and healthy. In the modern age, we have advanced the science and technology available to help individuals grow their families and be more proactive in planning for their future health," said Michael J. Levy, MD, IVF Director and Co-Founder, Shady Grove Fertility. "That is where Generate Life Sciences becomes a trusted partner for clients from pre-conception through post-birth. From donor egg and donor sperm to newborn stem cell services and genetic testing, Generate is there every step of the way. And the possibilities are endless."

"Generate Life Sciences made our dream of becoming parents a reality. From helping us choose our amazing California Cryobank sperm donor for our twin girls, to rushing a CBR cord blood collection kit for our son when my wife went into early labor, they have always gone above and beyond to help. We look to Generate as a trustworthy partner we can rely on for these very personal and private moments in our lives," said Sharon Kochlany & Vanessa Colimorio, customers of Generate.

Generate Life Sciences BrandsGenerate Life Sciences is a company of established, trustworthy brands founded and grown over 40 years by experts in reproductive medicine, newborn stem cell services, and genetics. Those brands include:

Newborn Stem Cell Services CBR (Cord Blood Registry): CBR has stored newborn stem cells (stem cells collected from cord blood and cord tissue) for almost 30 years.

Reproductive ServicesCalifornia Cryobank Donor Sperm Bank:California Cryobank is a pioneer and industry leader in donor sperm banking, offering the most rigorously screened donors, largest selection, and scientific expertise for more than 40 years.

Donor Egg Bank USA:Donor Egg Bank is a true leader in its category, maintaining the highest clinical pregnancy rate in the industry, while growing the largest frozen donor egg program in the United States.

NW Cryobank:For over 30 years, NW Cryobank has been helping couples, single women, and the LGBTQ+ community create happy, healthy families.

Genetic Services ReadyGen:Powered by Sema4, ReadyGen is an innovative and advanced pediatric screening test that empowers parents to further protect their children by delivering clinically actionable and personalized health insights.

Medical Devices and Healthcare TechnologyKitazato USA:Kitazato USA by California Cryobank is the exclusive distributor of Kitazato products in the US, offering devices for human assisted reproductive medicine from the innovator of the Cryotop Method vitrification technique.

Donor Application: Proprietary software providingdonor screening and recipient matching services on a HIPAA compliant platform.

About Generate Life SciencesGenerate Life Sciences (Generate)is a life sciences company helping to grow and protect families through reproductive, newborn stem cell, genetic screening, medical device, and healthcare technology services. We serve families from preconception to post-birth. Our brands - CBR (Cord Blood Registry), California Cryobank Donor Sperm Bank, Donor Egg Bank USA, NW Cryobank, ReadyGen, Kitazato USA, and Donor Application are pioneering leaders, helping to grow and protect nearly 1 million families. Headquartered in Los Angeles, Generate operates facilities in Tucson, New York, Boston, Palo Alto, and Rockville, MD. Generate is a portfolio company of GI Partners, a private investment firm based in San Francisco.

Media ContactsMonica Rohledermedia@generatelifesciences.com847-606-1973

SOURCE Generate Life Sciences

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Introducing Generate Life Sciences - A First-Of-Its-Kind Company Focused On Helping Grow And Protect Healthy Families - PRNewswire