Stem Cell Clinic

Stem Cell Therapy Market Revenue, Key Players, Supply-Demand, Investment Feasibility and Forecast 2026 – The Think Curiouser

By Stell Cell Research

Global Stem Cell Therapy Market Research Assessment and Forecast 2020 2028 offers an assessment of the global Stem Cell Therapy market and a forecast of market demand by type and segment of end users. This study offers a comprehensive industry assessment as it includes statistically validated and validated industry market data, facts, critical findings, and historical data. It also contains predictions made using an appropriate set of methodologies to obtain accurate values. Market analysis offers information according to the categories identified through market segmentation, which includes product type, geography and applications.

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Provides a worldwide analysis of Stem Cell Therapy market growth for both regional and global markets, including an understanding of business strategy, development trends, opportunities and development status of important regions.

The study provides quantitative information on key industry trends, market size (value and volume) and development of each end-user segment of Stem Cell Therapy, import / export of Stem Cell Therapy by region, production volume and main country. Historical and future consumption trends, as well as market innovations, as well as the challenges faced by major Stem Cell Therapy manufacturers as well as end users, are suggested.

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Each market participant included in the Stem Cell Therapy market study is ranked according to its manufacturing coverage, market share, existing and new launches, ongoing R&D projects and business strategies. In addition, market research for Stem Cell Therapy provides an assessment of strengths, weaknesses, opportunities and threats (SWOT). The report assesses and explores the prospects for the global platelet market, including sales, production and use, as well as historical data and projections.

Stem Cell Therapy Market Segmentation

Type Analysis of Stem Cell Therapy Market:

Based on cell source, the market has been segmented into,

Adipose Tissue-Derived Mesenchymal SCs Bone Marrow-Derived Mesenchymal SCs Embryonic SCs Other Sources

Applications Analysis of Stem Cell Therapy Market:

Based on therapeutic application, the market has been segmented into,

Musculoskeletal Disorders Wounds & Injuries Cardiovascular Diseases Gastrointestinal Diseases Immune System Diseases Other Applications

Market research monitors the global situation and explains how the industry will create promising profit margins for manufacturers in the post-COVID-19 crisis. The market research aims to offer further information on the economic downturn, the latest scenario and the impact of COVID-19 on the industry as a whole.

Scope of the global Stem Cell Therapy Market Report:

This research covers detailed manufacturer data such as shipment, price, gross margin, interview record, revenue, business distribution, etc. This data helps the user to get to know the competition better. The report also includes all regions and countries of the world, showing the complex status of regional growth such as market size, volume and value, and price data.

Likewise, the study also covers segment data, including segment type, market segment, channel segment, and so on, which contains different market segment sizes, both in value and volume. In addition, it covers consumer data from different industries, which is very important for service providers.

Analyzing the Investment Potential of the Global Stem Cell Therapy Market Report

The report hovers across the past and current dynamics to deduce significant developments in the aforementioned market, thus effectively encouraging agile business outcome The report also is a ready-to-refer documentation that entails substantial information featuring the developments across segments and their role in growth optimization Systematic R&D activities and concomitant resource planning are thoroughly touched upon in this report featuring the development graph in global Stem Cell Therapy market. The report also ensures investor participation towards directing manufacturer and vendor activities in a bid to achieve significant competitive edge. Market based developments are also accurately sectioned in both value-based volume-based calculations to thoroughly encourage reader understanding and subsequent growth potential in global Stem Cell Therapy market.

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Stem Cell Therapy Market Revenue, Key Players, Supply-Demand, Investment Feasibility and Forecast 2026 - The Think Curiouser

Stem Cell Assay Perceive Robust Expansion by 2020-2026 Eurowire – Eurowire

By Stell Cell Research

The research report on the Stem Cell Assay Market provides professional in-depth analysis available on the market status and latest trends, including growth, opportunities, competitive landscape, technological advancement, product offerings of key players, and the dynamic structure of the market. Besides this, it contains a detailed analysis of the Stem Cell Assay Market scope, potential, financial impacts, and also envelops the precise evaluation of market share, product & sales volume, and revenue.

Stem Cell Assay Market was valued at USD XX billion in 2019 and is projected to reach USD XX billion by 2027, growing at a CAGR of XX% from 2020 to 2027.

The report is updated with the latest changes in the market dynamics owing to the recent COVID-19 pandemic. The report covers an extensive impact analysis of the COVID-19 crisis on the overall market. The report also provides an insight into the current and future market trends with regards to the COVID-19 pandemic.

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Top Companies in the Global Stem Cell Assay Market Research Report:

The following players are covered in this report:

Merck

Thermo Fisher Scientific

GE Healthcare

Agilent Technologies

Bio-Rad Laboratories

Promega

Cell Biolabs

PerkinElmer

Miltenyi Biotec

HemoGenix

Bio-Techne

STEMCELL

The Stem Cell Assay Market Report provides future growth drivers and the competitive landscape. This will be beneficial for buyers of the market report to gain a clear view of the important growth and subsequent market strategy. The granular information in the market will help monitor future profitability and make important decisions for growth.

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The Stem Cell Assay Market report provides in-depth statistics and analysis available on the market status of the Stem Cell Assay key players and is a valuable method of obtaining guidance and direction for companies and business enterprise insider considering the Stem Cell Assay market. It contains the analysis of drivers, challenges, and restraints impacting the industry.

Breakdown Data by Type

Viability

Purification

Identification

Stem Cell Assay Breakdown Data by Application

Regenerative Medicine

Clinical Research

Based on regional and country-level analysis, the Stem Cell Assay market has been segmented as follows:

North America

United States

Canada

Europe

Germany

France

U.K.

Italy

Russia

Nordic

Rest of Europe

Asia-Pacific

China

Japan

South Korea

Southeast Asia

India

Australia

Rest of Asia-Pacific

Latin America

Mexico

Brazil

Middle East & Africa

Turkey

Saudi Arabia

UAE

Rest of Middle East & Africa

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Fundamentals of Table of Content:

1 Report Overview

1.1 Study Scope

1.2 Key Market Segments

1.3 Players Covered

1.4 Market Analysis by Type

1.5 Market by Application

1.6 Study Objectives

1.7 Years Considered

2 Global Growth Trends

2.1 Stem Cell Assay Market Size

2.2 Stem Cell Assay Growth Trends by Regions

2.3 Industry Trends

3 Market Share by Key Players

3.1 Stem Cell Assay Market Size by Manufacturers

3.2 Stem Cell Assay Key Players and Area Served

3.3 Key Players Stem Cell Assay Product/Solution/Service

3.4 Date of Enter into Stem Cell Assay Market

3.5 Mergers & Acquisitions, Expansion Plans

4 Breakdown Data by Product

4.1 Global Stem Cell Assay Sales by Product

4.2 Global Stem Cell Assay Revenue by Product

4.3 Stem Cell Assay Price by Product

5 Breakdown Data by End User

5.1 Overview

5.2 Global Stem Cell Assay Breakdown Data by End User

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Stem Cell Assay Perceive Robust Expansion by 2020-2026 Eurowire - Eurowire

USC biological imaging innovator elected to National Academy of Medicine > News > USC Dornsife – USC Dornsife College of Letters, Arts and…

By Stem Cell Medicine

Provost Professor Scott Fraser is recognized for developing technology that provides unprecedented views of live organisms, from embryonic development to old age. [3 min read]

Provost Professor Scott Fraser, a recognized innovator whose inventions have found wide use in both scientific and clinical settings, is an elected member of the National Academy of Medicine. (Photo: No Montes.)

Scott Fraser, Provost Professor of Biological Sciences, Biomedical Engineering, Physiology and Biophysics, Stem Cell Biology and Regenerative Medicine, Pediatrics, Radiology and Ophthalmology, has been elected to the National Academy of Medicine.

Fraser, who holds joint appointments at the USC Dornsife College of Letters, Arts and Sciences and USC Viterbi School of Engineering as well as the Elizabeth Garrett Chair in Convergent Bioscience, is one of just 90 researchers chosen from among the worlds leading scientists to become members of the academy.

Professor Scott E. Fraser is a brilliant biophysicist and innovator, said USC Provost Charles F. Zukoski. He is being recognized for groundbreaking advancements in biology and medicine. His research, which centers on imaging and molecular analyses of intact biological systems, serves as inspiration for future generations of engineers, scientists and medical professionals.

Among the reasons for his election, the academy noted Frasers work integrating biophysics, quantitative biology, and molecular imaging to enable unprecedented views of normal function and disease in live organisms, from embryonic development to old age.

Ive always been fascinated by interdisciplinary teams that can bring new insights into old problems by combining the insights from science, engineering and medicine, Fraser said.

Applying tricks from other fields

Fraser, who earned his bachelors degree in physics and his Ph.D. in biophysics, says he gravitated toward research in biology because there are so many open questions, and so many things that have been thought to be impossible to answer but tricks from other fields make the impossible possible, if the team is willing to tackle it together.

Frasers research delves into early development, organogenesis (the process by which internal organs emerge and develop) and medical diagnostics. His work has spawned several start-up companies and has been used in a number of instruments and FDA-approved diagnostics.

We keep our eyes open to translation of the work in the lab to industrial and clinical utility, he said, adding that USCs Alfred E. Mann Institute for Biomedical Engineering and USC Viterbis National Science Foundation-funded Innovation Corps node have both played key roles and offered important instruction on how to best bring their work to potential customers.

In the last year, our IP (intellectual property) has been licensed by a half-dozen different companies, he said. So, we know the work can lead to new instruments, new diagnostics and new techniques.

Fraser said his team works diligently to ensure collaborators in scientific and clinical fields also benefit from their efforts.

We have built the Translational Imaging Center on the University Park campus and the Translational Biomedical Imaging Center at Childrens Hospital Los Angeles to help support users with interests in fields ranging from regenerative medicine to cancer and diabetes. This is already empowering them to make new insights into their research challenges.

What we hope to do is to make it possible for researchers and clinicians to have aha moments, when they can see things for the first time.

A career highlighted by innovation

After earning his Ph.D. in 1979, Fraser joined the faculty at the University of California, Irvine, where he rose through the ranks to become chair of the Department of Physiology and Biophysics. In 1990, he moved to Caltech to serve as the Anna L. Rosen Professor of Biology and the director of the Biological Imaging Center. There, he served as the founding director of both the Caltech Brain Imaging Center and the Rosen Center for Biological Engineering and helped found the Kavli Nanoscience Institute.

In Fall 2012, Fraser moved to USC as Provost Professor at USC Dornsife and USC Viterbi, with formal links to Childrens Hospital Los Angeles and Keck School of Medicine of USC. He serves as the director of science initiatives for USC as well as co-director of the Bridge Institute at the USC Michelson Center for Convergent Bioscience.

A prolific author and inventor, Fraser has more than 240 peer-reviewed articles and more than 75 issued patents to his credit. He is the recipient of numerous honors and has been elected to the National Academy of Inventors, the American Institute for Medical and Biological Engineering, the American Association for the Advancement of Science, the American Academy of Arts and Sciences and the European Academy of Science.

About the National Academy of Medicine

The National Academy of Medicine, established in 1970 as the Institute of Medicine, is an independent organization of professionals from diverse fields including health and medicine, and the natural, social and behavioral sciences. Election to the academy recognizes individuals who have demonstrated outstanding professional achievement and commitment to service.

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USC biological imaging innovator elected to National Academy of Medicine > News > USC Dornsife - USC Dornsife College of Letters, Arts and...

Repurposing and Combining Drugs An Effective Cancer Treatment Strategy – Technology Networks

By Stem Cell Medicine

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Dr Robert Nagourneyis the founder and medical director of Nagourney Cancer Institute, and clinical professor at the University of California, Irvine School of Medicine. Nagourney is having success investigating whether a unique combination of existing and approved cancer drugs might be more effective compared to off-the-shelf treatments. Technology Networks recently had the pleasure of speaking with Nagourney to learn more about his work focused on repurposing drugs. He discusses the challenges and benefits of exploring new uses for drugs that are outside the scope of their original indication. He also shares a case whereby a cancer patient was recently treated with a tailored drug combination and explains how it was possible to design an effective personalized treatment strategy. Laura Lansdowne (LL): Can you touch on the importance of physiological relevance when testing therapeutics inin vitrosystems, has there been any key advances in cell culture technologies that have been particularly effective at improving this? Robert Nagourney (RN): The wide use of genomic profiling by next-generation sequencing (NGS) has provided targetable mutations in a number of cancers including chronic myeloid leukemia (CML), several forms of lung cancer, kidney cancersand melanoma. However, the majority of human tumors do not reveal actionable mutations. Today these tumors are treated with cytotoxic chemotherapy or experimental drugs with no attempt to select among options and offer combinations that are patient specific. To address patients needs we developed the Ex Vivo Analysis of Programmed Cell Death or EVA/PCD platform. Two fundamental advances have led to the successful application of our EVA/PCD technology for the prediction of patient response over older technologies.

LL: Could you tell us more about your work repurposing drugs? RN: Drugs do not know what diseases they were invented for. This not only applies to drugs for cancer but to other drugs with biological effect that can influence cancer cell behavior. LL: In yourblogyoushare the story of a Stage 4 gastroesophageal cancer patient that was recently treated with a tailored drug combination. Could you elaborate on the genetic clue that helped design an effective combination therapy? RN: The patient was found sensitive to a drug that targets EGFR a cell signaling pathway. However,he did not have a mutation in EGFR. As such his doctors did not anticipate a likelihood of benefit from drugs that target EGFR and did not offer him these agents. In our EVA/PCD we found activity for these drugs. When we reviewed his gene profile it showed an EGFR amplification (not a mutation). Since EGFR amplificationis not considered a target, no drug was offered but with thediscriminating (functional) capability of the EVA/PCD assay, he indeed was that rare person with an EGFR amplification who would actually likely respond and when we gave it to him he did Completely! LL: When repurposing a drug, how careful do we need to be when considering existing safety and efficacy data? E.g. data that were obtained in previous studies, fordifferentindications, in adifferentstudy population (age/sex/ethnicity, etc.). RN: Any novel combination runs some risk, but many repurposed drugs are already in wide use, and very often are used in combination with many other drugs. I am not a proponent of random combinations (however many commercial firms do offer them) but instead like to examine the patient's likelihood of benefit when we do suggest a drug or combination. LL: What measures/approaches should be taken when considering off-label use of a drug? RN: Usually these drugs are well known for their modes of action and toxicity. The literature provides ample information on drugdrug interactions and usually can be consulted if an unusual combination is being considered. LL: There is currently no regulatory requirement to know the molecular target of a drug, as long the drug is shown to be safe and efficacious. How much of a drawback does this gap in knowledge present, in terms of repurposing existing drugs for other indications? RN: Actually, many new drugs come with companion diagnostics. That is, you can only get a TRK inhibitor if you are shown to carry and NTRK fusion. Where functional platforms can be immensely helpful is the vast amount of genomic regulation and cellular gene activity that cannot be identified at a genetic level.One perfect example in the oncogene MYC. This super-regulator that functions epigenetically is abnormally active in up to 70% of cancers, it regulates over 3600 individual human genes (15% of the human genome) and isalmost never mutated ever. Thus, it is only by probing its activities at a functional level that you know to target it therapeutically. Gene profiles are useless. Robert Nagourney was speaking with Laura Elizabeth Lansdowne, Senior Science Writer for Technology Networks. Interviewee Biography Dr Nagourney is a native of Connecticut and a graduate of McGill University School of Medicine and became disenchanted with the trial and error approach that he witnessed during fellowships at Georgetown and The Scripps Institute.Nagourney is currently a practicing oncologist and triple board certified in Internal Medicine, Medical Oncology and Hematology. Among his many accomplishments, as co-investigator on national cooperative trials. He is recognized for the introduction of Cisplatin/Gemcitabine doublets in the treatment of advanced ovarian and breast cancers. With more than 20 years of experience in human tumor primary culture analyses, Dr Nagourney has authored more than 100 manuscripts, book chapters and abstracts including publications in the Journal of Clinical Oncology, Gynecologic Oncology, the Journal of the National Cancer Institute and British Journal of Cancer.

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Repurposing and Combining Drugs An Effective Cancer Treatment Strategy - Technology Networks

Rates of Invasive Pulmonary Aspergillosis in ICU Patients With Influenza Far Lower Than Previously Thought – Contagionlive.com

By Stem Cell Medicine

Despite recent studies identifying invasive pulmonary aspergillosis (IPA) as a common complication of severe influenza, even in hosts who are immunocompetent, a retrospective look at the last 9 influenza seasons at 1 healthcare center in the United States tells a different tale.

In a poster presented virtually at ID Week 2020, investigators at Northwestern Universitys Feinberg School of Medicine determined the incidence of IPA among critically ill patients with influenza over multiple seasons and sought to track outcomes and hone in on predisposing risk factors.

Data were collected at a single healthcare center in Chicago, Illinois, across 9 influenza seasons (March 2009 March 2018), and included patients > age 18 who were admitted to the intensive care unit (ICU) with respiratory distress and had a positive influenza polymerase chain reaction test.

Investigators relied on criteria from the European Organization for Research and Treatment of Cancer/Invasive Fungal Infections Cooperative Group and the National Institute of Allergy and Infectious Diseases Mycoses Study Group (EORTC/MSG) to define IPA, as well as the revised AspICUcriteria.

The study population comprised 224 patients admitted to the ICU with influenza, and the overall rate of IPA was 3.1% (7/224). History of stem cell transplant was found to be a statistically significant risk factor for IPA (P = .015), with hematologic malignancy (P = .09), lung disease (P = .098), and obesity (P = .051) tending toward significance. Only 1 out of 7 patients with IPA was not immunosuppressed.

Length of hospital stay was significantly increased for patients with IPA (P = .046), but there was no significant difference in need for mechanical ventilation, renal replacement therapy, or death in these patients.

Other coinfections were common in these patients, with 31.3% bacterial, 7.6% viral, and 8.9% non-aspergillosis fungi infections reported.

The incidence of IPA was significantly lower (3.1%) in our study over 9 influenza seasons than has been reported in similar studies, investigators concluded. History of stem cell transplant was a risk factor strongly associated with the development of IPA. IPA did not significantly predict morbidity and mortality among critically ill influenza patients.

The poster, Aspergillosis Complicating Severe Influenza in ICU Patients: A Retrospective Cohort Study, was presented virtually at ID Week 2020.

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Rates of Invasive Pulmonary Aspergillosis in ICU Patients With Influenza Far Lower Than Previously Thought - Contagionlive.com

Randomized Controlled Study Using Direct Injection of Remestemcel-L Into Inflamed Gut of Patients With Crohn’s Disease and Ulcerative Colitis -…

By Stem Cell Clinic

NEW YORK, Oct. 22, 2020 (GLOBE NEWSWIRE) -- Mesoblast Limited (Nasdaq:MESO; ASX:MSB), global leader in allogeneic cellular medicines for inflammatory diseases, today announced that a randomized, controlled study of remestemcel-L delivered by an endoscope directly to the areas of inflammation and tissue injury in up to 48 patients with medically refractory Crohns disease and ulcerative colitis has commenced at Cleveland Clinic.

Mesoblast Chief Medical Officer Dr Fred Grossman said: Inflammation of the gut in Crohns disease and ulcerative colitis closely resembles the most severe manifestation of advanced-stage, life-threatening acute graft versus host disease (aGVHD). Mesoblasts objective is to confirm the potential for remestemcel-L to induce luminal healing and early remission in a wider spectrum of diseases with severe inflammation of the gut, in addition to steroid-refractory aGVHD.

Mesenchymal stem cells (MSCs) promote healing of inflamed gut tissue by downregulating gut mucosal effector T-cell activity and promoting regulatory T-cell formation.1 MSCs have been tested in clinical trials of Crohns disease using two different modalities: intravenous infusions of MSCs to treat the primary inflammation of Crohns disease and local injections of MSCs to treat fistulae complicating Crohns disease.

A third modality, endoscopic delivery of MSCs, has been successful in preclinical experimental models of colitis, reducing the excessive cytokine storm in the inflamed gut and resulting in tissue healing.2-3 The study at Cleveland Clinic will be the first in humans using local delivery of MSCs in the gut, and will enable Mesoblast to compare clinical outcomes using this delivery method with results from an ongoing randomized, placebo-controlled trial in patients with biologic-refractory Crohns disease where remestemcel-L was administered intravenously.

The studys lead investigator Dr Amy L. Lightner, Associate Professor of Surgery in the Department of Colon and Rectal Surgery at Cleveland Clinic, stated: We are aiming to establish a new treatment paradigm by administering remestemcel-L at one of two escalating doses, or placebo, directly to inflamed gut tissue in patients with medically refractory Crohns disease and ulcerative colitis, both highly debilitating conditions with significant, unmet medical needs.

According to recent estimates, more than three million people (1.3%) in the US alone have inflammatory bowel disease, with more than 33,000 new cases of Crohns disease and 38,000 new cases of ulcerative colitis diagnosed every year.4-6 Despite recent advances, approximately 30% of patients are primarily unresponsive to anti-TNF agents and even among responders, up to 10% will lose their response to the drug every year. Up to 80% of patients with medically-refractory Crohns disease eventually require surgical treatment of their disease,7 which can have a devastating impact on quality of life.

References 1.Mayne C and Williams C. Induced and natural regulatory T cells in the development of inflammatory bowel disease. Inflamm Bowel Dis 2013; 19: 17721788. 2.Molendijk I et al. Intraluminal Injection of Mesenchymal Stromal Cells in Spheroids Attenuates Experimental Colitis. Journal of Crohn's and Colitis, 2016, 953964 3.Pak S eta al. Endoscopic Transplantation of Mesenchymal Stem Cell Sheets in Experimental Colitis in Rats. Scientific Reports | (2018) 8:11314 | DOI:10.1038/s41598-018-29617 4.CDC Facts and Figures 2015 5.Globaldata Pharmapoint 2018 6.Dahlhamer JM, MMWR Morb Mortal Wkly Rep. 2016;65(42):11661169. 7.Crohns and Colitis Foundation

About Remestemcel-L Mesoblasts lead product candidate, remestemcel-L, is an investigational therapy comprising culture-expanded mesenchymal stem cells derived from the bone marrow of an unrelated donor. It is administered to patients in a series of intravenous infusions. Remestemcel-L is thought to have immunomodulatory properties to counteract severe inflammatory processes by down-regulating the production of pro-inflammatory cytokines, increasing production of anti-inflammatory cytokines, and enabling recruitment of naturally occurring anti-inflammatory cells to involved tissues.

About Mesoblast Mesoblast Limited (Nasdaq:MESO; ASX:MSB) is a world leader in developing allogeneic (off-the-shelf) cellular medicines. The Company has leveraged its proprietary mesenchymal lineage cell therapy technology platform to establish a broad portfolio of commercial products and late-stage product candidates. Mesoblast has a strong and extensive global intellectual property (IP) portfolio with protection extending through to at least 2040 in all major markets. The Companys proprietary manufacturing processes yield industrial-scale, cryopreserved, off-the-shelf, cellular medicines. These cell therapies, with defined pharmaceutical release criteria, are planned to be readily available to patients worldwide.

Remestemcel-L is being developed for inflammatory diseases in children and adults including steroid-refractory acute graft versus host disease and moderate to severe acute respiratory distress syndrome. Mesoblast is completing Phase 3 trials for its product candidates for advanced heart failure and chronic low back pain. Two products have been commercialized in Japan and Europe by Mesoblasts licensees, and the Company has established commercial partnerships in Europe and China for certain Phase 3 assets.

Mesoblast has locations in Australia, the United States and Singapore and is listed on the Australian Securities Exchange (MSB) and on the Nasdaq (MESO). For more information, please see http://www.mesoblast.com, LinkedIn: Mesoblast Limited and Twitter: @Mesoblast

Forward-Looking Statements This announcement includes forward-looking statements that relate to future events or our future financial performance and involve known and unknown risks, uncertainties and other factors that may cause our actual results, levels of activity, performance or achievements to differ materially from any future results, levels of activity, performance or achievements expressed or implied by these forward-looking statements. All statements other than statements of historical fact are forward-looking statements, which are often indicated by terms such as anticipate, believe, could, estimate, expect, goal, intend, likely, look forward to, may, plan, potential, predict, project, should, will, would and similar expressions and variations thereof. We make such forward-looking statements pursuant to the safe harbor provisions of the Private Securities Litigation Reform Act of 1995 and other federal securities laws. Forward-looking statements should not be read as a guarantee of future performance or results, and actual results may differ from the results anticipated in these forward-looking statements, and the differences may be material and adverse. The risks, uncertainties and other factors that may impact our forward-looking statements include, but are not limited to: statements about the initiation, timing, progress and results of Mesoblast and its collaborators clinical studies; Mesoblast and its collaborators ability to advance product candidates into, enroll and successfully complete, clinical studies; the timing or likelihood of regulatory filings and approvals; and the pricing and reimbursement of Mesoblasts product candidates, if approved; the potential benefits of strategic collaboration agreements and Mesoblasts ability to maintain established strategic collaborations; Mesoblasts ability to establish and maintain intellectual property on its product candidates and Mesoblasts ability to successfully defend these in cases of alleged infringement. You should read this press release together with our risk factors, in our most recently filed reports with the SEC or on our website. Uncertainties and risks that may cause Mesoblasts actual results, performance or achievements to be materially different from those which may be expressed or implied by such statements, and accordingly, you should not place undue reliance on these forward-looking statements. Unless required by law, we do not undertake any obligations to publicly update or revise any forward-looking statements, whether as a result of new information, future developments or otherwise.

Release authorized by the Chief Executive.

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Randomized Controlled Study Using Direct Injection of Remestemcel-L Into Inflamed Gut of Patients With Crohn's Disease and Ulcerative Colitis -...

How Will the Virus Epidemic Cause Induced Pluripotent Stem Cells (iPSCs) Market 2020 – The Think Curiouser

By Induced Pluripotent Stem Cells

Induced Pluripotent Stem Cells (iPSCs) market research report provides the details about Industry Chain structure, Market Competition, Market Size and Share, SWOT Analysis, Technology, Cost, Raw Materials, Consumer Preference, Development and Trends, Regional Forecast, Company and Profile and Product and Service.

This report includes the estimation of market size for value (million USD) and volume (K Units). Both top-down and bottom-up approaches have been used to estimate and validate the market size of Global Induced Pluripotent Stem Cells (iPSCs) market, to estimate the size of various other dependent submarkets in the overall market. Key players in the market have been identified through secondary research, and their market shares have been determined through primary and secondary research. All percentage shares, splits, and breakdowns have been determined using secondary sources and verified primary sources.

Request a Sample of Induced Pluripotent Stem Cells (iPSCs) Market Research Report with 94 pages and Analysis of Top Key Players at https://www.insidemarketreports.com/sample-request/11/312090/Induced-Pluripotent-Stem-Cells-iPSCs

Our industry professionals are working reluctantly to understand, assemble and timely deliver assessment on impact of COVID-19 disaster on many corporations and their clients to help them in taking excellent business decisions. We acknowledge everyone who is doing their part in this financial and healthcare crisis.

The Global Induced Pluripotent Stem Cells (iPSCs) Market focuses on global major leading industry players providing information such as company profiles, product picture and specification, capacity, production, price, cost, revenue and contact information along with the raw materials, equipment and demands. Also the distribution channel of this market is analyzed.

Through the tables and figure required reliable and valuable statistics has also shown for proper guidance and direction for investors and individuals.

Major Points covered in this report are as below

The study objectives are:

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Global Coronavirus Diagnostics Market, report can be customized according to your business requirements as we recognize what our clients want, we have extended 15% customization at no additional cost to all our clients for any of our syndicated reports.

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How Will the Virus Epidemic Cause Induced Pluripotent Stem Cells (iPSCs) Market 2020 - The Think Curiouser

Trends in the Ready To Use Induced Pluripotent Stem Cells Market 2020-2020 – Eurowire

By Induced Pluripotent Stem Cells

The global Induced Pluripotent Stem Cells market 2020 mainly focuses on the market trend, market share, size and forecast. It is a brief and professional analysis on the current scenario of the Global Induced Pluripotent Stem Cells market.

The report on Induced Pluripotent Stem Cells market is a comprehensive study on global market analysis and insights. The report focuses on the emerging trends in the global and regional spaces on all the significant components, such as market capacity, cost, price, demand and supply, production, profit, and competitive landscape. The report analyzes past trends and future prospects in this report which makes it highly comprehensible for the analysis of the market. Moreover, the latest trends, product portfolio, demographics, geographical segmentation, and regulatory framework of the Induced Pluripotent Stem Cells market have also been included in the study.

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What the Induced Pluripotent Stem Cells market research report basically consists of?

The report gives a look at the recent developments and their innovations in the global Induced Pluripotent Stem Cells

The report presents the basic overview of the industry which includes the definition, manufacturing along with its applications.

The report mainly comprises the recent marketing factors that are crucial to keep an eye on to analyze the market performance to fuel the profitability and productivity of the industry.

The report enhances its focus on the estimates of 2020-2026 market development trends of the Global Induced Pluripotent Stem Cells

Furthermore, an analysis of arduous raw materials, demand and production value has been laid out.

Market segmentation:

Research analysts have studied and analyzed the report on these 3 segments which cover the market share, revenues, growth rate along with the other factors that uplift the growth rate in Global Induced Pluripotent Stem Cells market. This study will lead in identifying the high growth areas as well as in identifying the growth factors which are helping in leading these segments.

The major players profiled in this report include: BlueRock Therapeutics Corning Life Sciences EMD Millipore Lonza Group Promega Thermo Fisher Scientific

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This research is a comprehensive way to understand the current landscape of the market, especially in 2020. Both top-down and bottom-up approaches are employed to estimate the complete market size. This will help all the market stakeholders to have a better understanding of the direction in which the market will be headed and future forecast.

The end users/applications and product categories analysis: On the basis of product, this report displays the sales volume, revenue (Million USD), product price, market share and growth rate of each type, primarily split into- General Type

On the basis on the end users/applications, this report focuses on the status and outlook for major applications/end users, sales volume, market share and growth rate of Induced Pluripotent Stem Cells for each application, including- Medical

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It provides market dynamics scenario along with growth opportunities in the forecast period.

It determines upcoming opportunities, threats and obstacles that can have an effect on the industry.

This report will help in making accurate and time bound business plans keeping in mind the economic shift.

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To enhance the creation long term business plans.

Regional and country level analysis.

Segment wise market value and volume.

SWOT, PEST analysis along with the strategies adopted by major players.

Table of Content

1 Market Overview

1.1 Induced Pluripotent Stem Cells Introduction

1.2 Market Analysis by Type

1.2.1 Overview: Global Induced Pluripotent Stem Cells Revenue by Type: 2015 VS 2019 VS 2025

1.2.2 Coat/Jacket

1.2.3 Pants

1.2.4 Vest

1.3 Market Analysis by Application

1.3.1 Overview: Global Induced Pluripotent Stem Cells Revenue by Application: 2015 VS 2019 VS 2025

1.3.2 Indoor Firefighting

1.3.3 Wild Firefighting

1.3.4 Marine Firefighting

1.3.5 Others

1.4 Overview of Global Induced Pluripotent Stem Cells Market

1.4.1 Global Induced Pluripotent Stem Cells Market Status and Outlook (2015-2025)

1.4.2 North America (United States, Canada and Mexico)

1.4.3 Europe (Germany, France, United Kingdom, Russia and Italy)

1.4.4 Asia-Pacific (China, Japan, Korea, India and Southeast Asia)

1.4.5 South America, Middle East & Africa

1.5 Market Dynamics

1.5.1 Market Opportunities

1.5.2 Market Risk

1.5.3 Market Driving Force

2 Manufacturers Profiles

3.3 Market Concentration Rate

3.3.1 Top 3 Induced Pluripotent Stem Cells Manufacturer Market Share in 2019

3.3.2 Top 6 Induced Pluripotent Stem Cells Manufacturer Market Share in 2019

3.4 Market Competition Trend

4 Global Market Analysis by Regions

4.1 Global Induced Pluripotent Stem Cells Sales, Revenue and Market Share by Regions

4.1.1 Global Induced Pluripotent Stem Cells Sales and Market Share by Regions (2015-2020)

4.1.2 Global Induced Pluripotent Stem Cells Revenue and Market Share by Regions (2015-2020)

4.2 North America Induced Pluripotent Stem Cells Sales and Growth Rate (2015-2020)

4.3 Europe Induced Pluripotent Stem Cells Sales and Growth Rate (2015-2020)

4.4 Asia-Pacific Induced Pluripotent Stem Cells Sales and Growth Rate (2015-2020)

4.5 South America Induced Pluripotent Stem Cells Sales and Growth Rate (2015-2020)

4.6 Middle East and Africa Induced Pluripotent Stem Cells Sales and Growth Rate (2015-2020)

5 North America by Country

5.1 North America Induced Pluripotent Stem Cells Sales, Revenue and Market Share by Country

5.1.1 North America Induced Pluripotent Stem Cells Sales and Market Share by Country (2015-2020)

5.1.2 North America Induced Pluripotent Stem Cells Revenue and Market Share by Country (2015-2020)

5.2 United States Induced Pluripotent Stem Cells Sales and Growth Rate (2015-2020)

5.3 Canada Induced Pluripotent Stem Cells Sales and Growth Rate (2015-2020)

5.4 Mexico Induced Pluripotent Stem Cells Sales and Growth Rate (2015-2020)

6 Europe by Country

6.1 Europe Induced Pluripotent Stem Cells Sales, Revenue and Market Share by Country

6.1.1 Europe Induced Pluripotent Stem Cells Sales and Market Share by Country (2015-2020)

6.1.2 Europe Induced Pluripotent Stem Cells Revenue and Market Share by Country (2015-2020)

6.2 Germany Induced Pluripotent Stem Cells Sales and Growth Rate (2015-2020)

6.3 UK Induced Pluripotent Stem Cells Sales and Growth Rate (2015-2020)

6.4 France Induced Pluripotent Stem Cells Sales and Growth Rate (2015-2020)

6.5 Russia Induced Pluripotent Stem Cells Sales and Growth Rate (2015-2020)

6.6 Italy Induced Pluripotent Stem Cells Sales and Growth Rate (2015-2020)

7 Asia-Pacific by Regions

7.1 Asia-Pacific Induced Pluripotent Stem Cells Sales, Revenue and Market Share by Regions

7.1.1 Asia-Pacific Induced Pluripotent Stem Cells Sales and Market Share by Regions (2015-2020)

7.1.2 Asia-Pacific Induced Pluripotent Stem Cells Revenue and Market Share by Regions (2015-2020)

7.2 China Induced Pluripotent Stem Cells Sales and Growth Rate (2015-2020)

7.3 Japan Induced Pluripotent Stem Cells Sales and Growth Rate (2015-2020)

7.4 Korea Induced Pluripotent Stem Cells Sales and Growth Rate (2015-2020)

7.5 India Induced Pluripotent Stem Cells Sales and Growth Rate (2015-2020)

7.6 Southeast Asia Induced Pluripotent Stem Cells Sales and Growth Rate (2015-2020)

7.7 Australia Induced Pluripotent Stem Cells Sales and Growth Rate (2015-2020)

8 South America by Country

8.1 South America Induced Pluripotent Stem Cells Sales, Revenue and Market Share by Country

8.1.1 South America Induced Pluripotent Stem Cells Sales and Market Share by Country (2015-2020)

8.1.2 South America Induced Pluripotent Stem Cells Revenue and Market Share by Country (2015-2020)

8.2 Brazil Induced Pluripotent Stem Cells Sales and Growth Rate (2015-2020)

8.3 Argentina Induced Pluripotent Stem Cells Sales and Growth Rate (2015-2020)

9 Middle East & Africa by Countries

9.1 Middle East & Africa Induced Pluripotent Stem Cells Sales, Revenue and Market Share by Country

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Trends in the Ready To Use Induced Pluripotent Stem Cells Market 2020-2020 - Eurowire

Stem Cell-Derived Cells Market to Expand at a Healthy CAGR of XX% Between and 2019 2029 – Eurowire

By Induced Pluripotent Stem Cells

Stem Cell-Derived Cells Market report 2018, discusses various factors driving or restraining the market, which will help the future market to grow with promising CAGR. The Stem Cell-Derived Cells Market research Reports offers an extensive collection of reports on different markets covering crucial details. The report studies the competitive environment of the Stem Cell-Derived Cells Market is based on company profiles and their efforts on increasing product value and production.

This Report covers the manufacturers data, including: shipment, price, revenue, gross profit, interview record, business distribution etc., these data help the consumer know about the competitors better. This report also covers all the regions and countries of the world, which shows a regional development status, including market size, volume and value, as well as price data.

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The report analyzes the market of Stem Cell-Derived Cells by main manufactures and geographic regions. The report includes Stem Cell-Derived Cells definitions, classifications, applications, and industry chain structure, development trends, competitive landscape analysis, and key regions development and market status.

By Market Players:

key players in stem cell-derived cells market are focused on generating high-end quality cardiomyocytes as well as hepatocytes that enables end use facilities to easily obtain ready-made iPSC-derived cells. As the stem cell-derived cells market registers a robust growth due to rapid adoption in stem cellderived cells therapy products, there is a relative need for regulatory guidelines that need to be maintained to assist designing of scientifically comprehensive preclinical studies. The stem cell-derived cells obtained from human induced pluripotent stem cells (iPS) are initially dissociated into a single-cell suspension and later frozen in vials. The commercially available stem cell-derived cell kits contain a vial of stem cell-derived cells, a bottle of thawing base and culture base.

The increasing approval for new stem cell-derived cells by the FDA across the globe is projected to propel stem cell-derived cells market revenue growth over the forecast years. With low entry barriers, a rise in number of companies has been registered that specializes in offering high end quality human tissue for research purpose to obtain human induced pluripotent stem cells (iPS) derived cells. The increase in product commercialization activities for stem cell-derived cells by leading manufacturers such as Takara Bio Inc. With the increasing rise in development of stem cell based therapies, the number of stem cell-derived cells under development or due for FDA approval is anticipated to increase, thereby estimating to be the most prominent factor driving the growth of stem cell-derived cells market. However, high costs associated with the development of stem cell-derived cells using complete culture systems is restraining the revenue growth in stem cell-derived cells market.

The global Stem cell-derived cells market is segmented on basis of product type, material type, application type, end user and geographic region:

Segmentation by Product Type

Segmentation by End User

The stem cell-derived cells market is categorized based on product type and end user. Based on product type, the stem cell-derived cells are classified into two major types stem cell-derived cell kits and accessories. Among these stem cell-derived cell kits, stem cell-derived hepatocytes kits are the most preferred stem cell-derived cells product type. On the basis of product type, stem cell-derived cardiomyocytes kits segment is projected to expand its growth at a significant CAGR over the forecast years on the account of more demand from the end use segments. However, the stem cell-derived definitive endoderm cell kits segment is projected to remain the second most lucrative revenue share segment in stem cell-derived cells market. Biotechnology and pharmaceutical companies followed by research and academic institutions is expected to register substantial revenue growth rate during the forecast period.

North America and Europe cumulatively are projected to remain most lucrative regions and register significant market revenue share in global stem cell-derived cells market due to the increased patient pool in the regions with increasing adoption for stem cell based therapies. The launch of new stem cell-derived cells kits and accessories on FDA approval for the U.S. market allows North America to capture significant revenue share in stem cell-derived cells market. Asian countries due to strong funding in research and development are entirely focused on production of stem cell-derived cells thereby aiding South Asian and East Asian countries to grow at a robust CAGR over the forecast period.

Some of the major key manufacturers involved in global stem cell-derived cells market are Takara Bio Inc., Viacyte, Inc. and others.

The report covers exhaustive analysis on:

Regional analysis includes

Report Highlights:

Reasons to Purchase This Report:

Market analysis for the global Stem Cell-Derived Cells Market, with region-specific assessments and competition analysis on a global and regional scale.

Analyzing various perspectives of the market with the help of Porters five forces analysis

Which textile, raw material, and application is expected to dominate the market

Which country is expected to witness the fastest growth during the forecast period?

Identify the latest developments, market shares and strategies employed by the major market players.

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The key insights of the Stem Cell-Derived Cells market report:

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Stem Cell-Derived Cells Market to Expand at a Healthy CAGR of XX% Between and 2019 2029 - Eurowire

Cell Expansion Market a comprehensive study by key players- Thermo Fisher Scientific, Inc, Becton, Dickinson and Company, Terumo BCT, Merck KGaA and…

By Adult Stem Cells

The global report titled Cell Expansion Market has been presented by ReportsnReports. It evaluates the key market trends, advantages, and factors that are pushing the overall growth of the market.

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The Cell Expansion Market is projected to reach US$ 26.0 Billion by 2024 from US$ 12.7 Billion in 2019, at a CAGR of 15.4% during the forecast period. This report spread across 171 pages, profiling 15 companies and supported with tables and figures is now available in this research.

On the Basis of Products, the cell expansion market is segmented into consumables and instruments. Consumables are segmented into reagents, media, sera, and disposables. The instruments segment includes cell expansion supporting equipment, bioreactors, and automated cell expansion systems.

Based on Cell Type, the cell expansion market is segmented into human cells and animal cells. The human cells segment includes stem cells and differentiated cells. The stem cells segment is further classified into adult stem cells, ESCs, and iPSCs. These cells are used for therapeutic and research purposes.

North America, which includes the US and Canada, accounted for the largest share of the cell expansion in 2018.The large share of this market segment can be attributed to the government funding for cancer research, increasing awareness regarding advanced treatment theories, and the strong presence of industry players in the region.

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Breakdown of primary participants profile:

The Study Objectives of this report are:

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#Key Players- Thermo Fisher Scientific, Inc. (US), Becton, Dickinson and Company (US), Terumo BCT (Japan), Merck KGaA (Germany), Danaher Corporation (US), MiltenyiBiotec (Germany), Lonza Group Ltd. (Switzerland), STEMCELL Technologies Inc. (Canada), GE Healthcare (US), and Corning, Inc. (US).

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Cell Expansion Market a comprehensive study by key players- Thermo Fisher Scientific, Inc, Becton, Dickinson and Company, Terumo BCT, Merck KGaA and...