Category Archives: Stell Cell Research


Mustang Bio Receives Advanced Therapy Medicinal Product Classification from European Medicines Agency for MB-107 Lentiviral Gene Therapy for X-Linked…

NEW YORK, April 20, 2020 (GLOBE NEWSWIRE) -- Mustang Bio, Inc. (Mustang) (MBIO), a clinical-stage biopharmaceutical company focused on translating todays medical breakthroughs in cell and gene therapies into potential cures for hematologic cancers, solid tumors and rare genetic diseases, today announced that the European Medicines Agency (EMA) has granted Advanced Therapy Medicinal Product (ATMP) classification to MB-107, Mustangs lentiviral gene therapy for the treatment of X-linked severe combined immunodeficiency (XSCID), also known as bubble boy disease. The U.S. Food and Drug Administration (FDA) previously granted Regenerative Medicine Advanced Therapy (RMAT) designation to MB-107 for the treatment of XSCID in August 2019.

EMA grants ATMP classifications to new therapeutics that are based on genes or cells and intended as long-term or permanent therapeutic solutions to acute or chronic human diseases at a genetic, cellular or tissue level. The ATMP program provides specific regulatory guidelines for preclinical development, manufacturing and product quality testing of ATMPs and offers incentives, including fee reductions for regulatory advice, recommendations and evaluation and certification of quality and non-clinical data.

Manuel Litchman, M.D., President and Chief Executive Officer of Mustang, said, We are extremely encouraged that the EMA has granted MB-107 with ATMP classification, an important step in establishing our path to market approval and commercialization in Europe. This classification complements the RMAT designation we received last year from the FDA and brings us closer to realizing our goal of commercializing MB-107 for XSCID patients, as these patients are in desperate need of innovative and potentially curative treatment options.

MB-107 is currently being assessed in two Phase 1/2 clinical trials for XSCID: the first in newly diagnosed infants under the age of two at St. Jude Childrens Research Hospital (St. Jude), UCSF Benioff Childrens Hospital in San Francisco and Seattle Childrens Hospital and the second in patients over the age of two who have received prior hematopoietic stem cell transplantation at the National Institutes of Health. Under a licensing partnership with St. Jude, Mustang intends to develop the lentiviral gene therapy for commercial use as MB-107.

About Mustang BioMustang Bio, Inc. (Mustang) is a clinical-stage biopharmaceutical company focused on translating todays medical breakthroughs in cell and gene therapies into potential cures for hematologic cancers, solid tumors and rare genetic diseases. Mustang aims to acquire rights to these technologies by licensing or otherwise acquiring an ownership interest, to fund research and development, and to outlicense or bring the technologies to market. Mustang has partnered with top medical institutions to advance the development of CAR T therapies across multiple cancers, as well as a lentiviral gene therapy for XSCID. Mustang is registered under the Securities Exchange Act of 1934, as amended, and files periodic reports with the U.S. Securities and Exchange Commission. Mustang was founded by Fortress Biotech, Inc. (FBIO). For more information, visit http://www.mustangbio.com.

ForwardLooking StatementsThis press release may contain forward-looking statements within the meaning of Section 27A of the Securities Act of 1933 and Section 21E of the Securities Exchange Act of 1934, each as amended. Such statements include, but are not limited to, any statements relating to our growth strategy and product development programs and any other statements that are not historical facts. Forward-looking statements are based on managements current expectations and are subject to risks and uncertainties that could negatively affect our business, operating results, financial condition and stock value. Factors that could cause actual results to differ materially from those currently anticipated include: risks relating to our growth strategy; our ability to obtain, perform under and maintain financing and strategic agreements and relationships; risks relating to the results of research and development activities; risks relating to the timing of starting and completing clinical trials; uncertainties relating to preclinical and clinical testing; our dependence on third-party suppliers; our ability to attract, integrate and retain key personnel; the early stage of products under development; our need for substantial additional funds; government regulation; patent and intellectual property matters; competition; as well as other risks described in our SEC filings. We expressly disclaim any obligation or undertaking to release publicly any updates or revisions to any forward-looking statements contained herein to reflect any change in our expectations or any changes in events, conditions or circumstances on which any such statement is based, except as required by law.

Story continues

See more here:
Mustang Bio Receives Advanced Therapy Medicinal Product Classification from European Medicines Agency for MB-107 Lentiviral Gene Therapy for X-Linked...

Stem Cell Therapy Market 2020 Break Down by Top Companies, Applications, Challenges, Opportunities and Forecast 2026 Cole Reports – Cole of Duty

Allosource

Stem Cell Therapy Market: Competitive Landscape

The last chapter of the Stem Cell Therapy market research report focuses exclusively on the competitive landscape. It examines the main market players. In addition to a brief overview of the business, analysts provide information on their assessment and development. The list of important products in preparation is also mentioned. The competitive landscape is analyzed by understanding the companies strategies and the initiatives they have taken in recent years to overcome intense competition.

Stem Cell Therapy Market: Drivers and Restraints

The report explains the drivers of the future of the Stem Cell Therapy market. It assesses the different forces which should have a positive impact on the whole market. Analysts have looked at investments in research and development for products and technologies, which should give players a significant boost. In addition, the researchers undertook an analysis of the evolution of consumer behavior which should have an impact on the cycles of supply and demand in the Stem Cell Therapy market. In this research report, changes in per capita income, improvement in the economic situation and emerging trends were examined.

The research report also explains the potential restrictions on the Stem Cell Therapy market. The aspects assessed are likely to hamper market growth in the near future. In addition to this assessment, it offers a list of opportunities that could prove lucrative for the entire market. Analysts offer solutions to turn threats and restrictions into successful opportunities in the years to come.

Stem Cell Therapy Market: Regional Segmentation

In the following chapters, analysts have examined the regional segments of the Stem Cell Therapy market. This gives readers a deeper insight into the global market and allows for a closer look at the elements that could determine its evolution. Countless regional aspects, such as the effects of culture, environment and government policies, which affect regional markets are highlighted.

Ask for Discount @ https://www.verifiedmarketresearch.com/ask-for-discount/?rid=24113&utm_source=COD&utm_medium=007

What will the report contain?

Market Dynamics: The report contains important information on influencing factors, market drivers, challenges, opportunities and market trends as part of the market dynamics.

Global Market Forecast: Readers receive production and sales forecasts for the Stem Cell Therapy market, production and consumption forecasts for regional markets, production, sales and price forecasts for the Stem Cell Therapy market by type and consumption forecasts for the Stem Cell Therapy market per application.

Regional Market Analysis: It can be divided into two different sections: one for the analysis of regional production and one for the analysis of regional consumption. Here, analysts share gross margin, prices, sales, production, CAGR, and other factors that indicate the growth of all regional markets examined in the report.

Market Competition: In this section, the report provides information on the situation and trends of competition, including mergers and acquisitions and expansion, the market shares of the three or five main players and the concentration of the market. Readers could also get the production, revenue, and average price shares of manufacturers.

Key Players: The report provides company profiles for a decent number of leading players in the Stem Cell Therapy market. It shows your current and future market growth taking into account price, gross margin, income, production, service areas, production locations and other factors.

Complete Report is Available @ https://www.verifiedmarketresearch.com/product/Stem-Cell-Therapy-Market/?utm_source=COD&utm_medium=007

We also offer customization on reports based on specific client requirement:

1- Free country level analysis for any 5 countries of your choice.

2- Free Competitive analysis of any market players.

3- Free 40 analyst hours to cover any other data points

About us:

Verified market research partners with the customer and offer an insight into strategic and growth analyzes, Data necessary to achieve corporate goals and objectives. Our core values are trust, integrity and authenticity for our customers.

Analysts with a high level of expertise in data collection and governance use industrial techniques to collect and analyze data in all phases. Our analysts are trained to combine modern data collection techniques, superior research methodology, expertise and years of collective experience to produce informative and accurate research reports.

Contact us:

Mr. Edwyne FernandesCall: +1 (650) 781 4080Email: [emailprotected]

Get Our Trending Report

Rich Mineral Paper Market Size, Growth Analysis, Opportunities, Business Outlook and Forecast to 2026

Tags: Stem Cell Therapy Market Size, Stem Cell Therapy Market Trends, Stem Cell Therapy Market Forecast, Stem Cell Therapy Market Growth, Stem Cell Therapy Market Analysis

Read the original post:
Stem Cell Therapy Market 2020 Break Down by Top Companies, Applications, Challenges, Opportunities and Forecast 2026 Cole Reports - Cole of Duty

Coronavirus focus tipped to ‘mothball’ biotech research – The Age

Chief executive of contract research operator Novotech, Dr John Moller, said many research sites across the Asia-Pacific region were modifying operations to keep running projects remotely.

"Some sites are reconfiguring their operations to work in the new environment they may be undertaking increased levels of remote monitoring or they may move their clinical trial sites away from areas where they are likely to treat COVID patients," he said.

"A majority of sites continue to be very interested in new studies and the review and approval of non-COVID-19 clinical trials are continuing."

Despite this, company founders said the sector was facing many unknowns.

Chief executive of stem cell therapies company Cynata Therapeutics, Ross MacDonald, said recruitment for upcoming planned research was on hold as the business waited on answers.

"We don't know. We're in the same situation as everyone else at the moment, and looking to the government to ask, 'when are we getting out of this?'" he said.

Cynata's research blueprint for this year includes a phase two clinical trial of its product for treatment of osteoarthritis and critical limb ischemia, an artery disease.

Ms Chiroiu said after the pandemic was over she believed the move to remote healthcare services would be a "lasting legacy" that would enable companies to include a wider variety of Australians in research.

A move to virtual consultations could actually change how Australians recruit and monitor research patients, she said, a move policy experts have agreed would be a major win for more inclusive medical research.

Loading

"There has been lots of talk at policy level about involving more rural and remote communities in clinical trials. There's a move towards trying to conduct telehealth consults wherever possible it will be a great jump start to that," she said.

However, companies that do not have strong capital bases may not live long enough to see that change, she warned.

"Those wanting to raise money will have to wait until the other side ... and there is still investment capital around, but just much less that there was."

Follow MySmallBusiness on Twitter, Facebook and LinkedIn.

Get our Coronavirus Update newsletter for the day's crucial developments at a glance, the numbers you need to know and what our readers are saying. Sign up to The Sydney Morning Herald's newsletter here and The Age's here.

Emma is the small business reporter for The Age and Sydney Morning Herald based in Melbourne.

Read the rest here:
Coronavirus focus tipped to 'mothball' biotech research - The Age

Resilience Hope and Being a Survivor – Curetoday.com

When I first heard the word "resilience" I did not really understand what it meant, I was listening to a presentation about a third world mission trip and about how people survive their hardships there. But now, I personally understand the meaning and am ready to share my journey.

When my husband was diagnosed with cancer, I understood what may be ahead, since I am a nurse with many years of experience. The first two years of his journey were stressful, but we had each other, enjoyed our life and worked through the decisions and experience. The turning point was when he his cancer returned, and he started radiation therapy. Then, we hit what felt like a big wall.

I was diagnosed with breast cancer.

I remember sharing this news with him and he stated, "I am stronger than you think" and he proved that to be so true over the next 3 years.

Our journey together is a story of resilience, sharing hope and caring for each other. His cancer involved traveling over 3 hours to a medical center for surgery, needing an artificial airway and nutrition via a feeding tube. We spent our time together going to the local cancer center on separate days for each of our own chemotherapy treatments. As a nurse, I cared for him even during my own radiation treatment period and still kept working at my job as much as possible.

During that time, I kept thinking, is this what it takes to have that resilience? Is resilience what it takes to keep caring, maintaining hope and surviving a day at a time. If you look up the word, " resilience", there are terms like hardiness, strength and toughness. However, I have learned that it means much more.

The experience of a cancer journey together is more than what those words convey. I would often say to myself, " I am stronger than I thought too" not realizing I was beginning to understand resilience. When looking inward, you begin to understand the human spirit and what we face in life cannot truly be explained to others, but only matures every day with every hurdle we tackle and overcome.

I am a widow now and a cancer survivor, who looks back on that time in our lives, with joy of being together, with pride at how we both endured and how much stronger we became because of it. Hope was always in front of us, leading us through each day.

You should never lose hope, because that optimism is what builds the courage that leads to learning what resilience really means.

Follow this link:
Resilience Hope and Being a Survivor - Curetoday.com

Stem cell activity linked to lifestyle – Harvard Magazine

Sleep, diet, exercise, and stress: these are factors known to change a persons risk of developing numerous non-communicable diseases. Such lifestyle impacts on healthbeneficial or harmfulexert much of their influence via inflammation. About 10 years ago, Matthias Nahrendorf began wondering just how inflammation and lifestyle might be linked biologically, and started thinking about how to pinpoint the mechanism in the cardinal case of cardiovascular disease.

A persons level of inflammation can easily be measured with a simple white blood cell test. White blood cells fight off bacterial invasions and repair damaged tissues, but they can also damage healthy tissue when they become too abundant. You can find them in atherosclerotic plaques, and you can find them in acute infarcts, says Nahrendorf, a professor of radiology who conducts high-resolution imaging research at Massachusetts General Hospital. You can find them in failing hearts and the brain, where they increase the risk of stroke.

By linking exercise to reduced white blood cell production, Nahrendorf shows how a lifestyle factor can modulate cardiovascular risk.

When Nahrendorf learned that the most potent, toxic, and pro-inflammatory white blood cells live only a few hours, or at most a day, he immediately realized that the paramount questionsgiven that they die off quickly yet remain abundant in the bloodare, where and why are they produced? What is their source? Perhaps, he hypothesized, lifestyle factors regulate hematopoiesis (blood production).

To test this idea, he decided to study the effects of exercise on the production of these leukocytes in healthy mice. First, though, he consulted the scientific literature on exercise in mice. Previous researchers, he learned, had found that exercise increases production of inflammatory immune cellswhich I thought was counterintuitive, Nahrendorf recalls. When he looked more carefully, he discovered that the type of exercise used in the studies was forced and thus possibly stressful because it was induced by electric shocks. He therefore decided to test only voluntary exercise. He and his colleagues put a wheel in each mouses cage, so the animals could choose to run if they were interested.

The mice never ran during the day. That is when they rest, Nahrendorf explains. But in the dark, they ran a lot, averaging six to seven miles every night. After three weeks, the exercising mice had measurably lower levels of circulating white blood cells. Exercise, he found, had pushed their blood stem cells (cells that can produce all the different types of blood cells) into a state of quiescence: a kind of dormancy in which they generate fewer pro-inflammatory white blood cells and platelets, without decreasing the number of oxygen-carrying red blood cells. Soon the exercising mice had fewer circulating white blood cells than their sedentary counterparts, dampening inflammationan effect that persisted for weeks.

The local signals within bone marrow that induce quiescence in blood stem cells were already well known, but the fact that exercise could trigger them was not. Nahrendorf next wanted to learn the identity of the trigger linking exercise to blood stem cell quiescence. Further investigation revealed that the only receptors with enhanced activity in the bone marrow niche where most blood stem cells exist were binding to a well-known hormone called leptin; it is produced by fat cells and regulates hunger.

Leptin is like the fuel gauge in a car. When the tank is fullmeaning energy (and food) are abundantleptin levels run high. As exercise uses up the gas in the tank, this lowers leptin levels, which signal that reserves are running low, thereby inducing hunger and the urge to eat in order to replenish depleted energy stores. Nahrendorf and his co-authors speculate in their 2019 Nature Medicine paper that leptins role in regulating energetically costly hematopoiesis may have evolved to produce blood cells only when whole body energy was abundantnot when people are exerting themselves. Contemporary sedentary behavior, they continue, which increases leptin and consequently hematopoiesis, may have rendered this adaptation a risk factor for cardiovascular disease (CVD) and perhaps also for other diseases with inflammatory components.

But with fewer circulating immune cells, would exercising mice be more vulnerable to infection? Nahrendorf challenged them with a protocol designed to induce infection in the blood, and found just the opposite: exercising mice had a more robust immune response, as semi-dormant blood stem cells swiftly sprang into activity and produced infection-fighting leukocytes, improving survival of the active mice as compared to those with no running wheels in their cages. Next, they investigated whether exercise would help mice with established atherosclerosis, and found that exercise was not only protective, it also reduced the size of existing plaques in the aorta.

Whether these associations would hold up in humans remained an open question. For answers, Nahrendorf turned to a study known as CANTOS, which had measured levels of inflammation in 4,892 patients who suffered heart attacks (see Raw and Red Hot, May-June 2019, page 46). When he approached the studys co-authors, Mallinckrodt professor of medicine Peter Libby and Braunwald professor of medicine Paul Ridker, he learned, serendipitously, not only that they possessed self-reported exercise levels for the participants, but also that they had tested leptin levels as well. They analyzed their raw data and found the same relationship among exercise, leptin, and leukocytes as in the mice. Data from a second human study cemented the result.

By identifying a previously unknown molecular mechanism linking voluntary exercise to reduced white blood cell production, Nahrendorf and his colleagues have highlighted how a lifestyle factor can modulate cardiovascular risk. Their discovery, the researchers hope, will point the way to wider adoption of healthy exercise regimens, and health-enhancing anti-inflammatory drugs.

Go here to see the original:
Stem cell activity linked to lifestyle - Harvard Magazine

Magenta Therapeutics Names John Davis Jr., M.D., M.P.H, M.S., Head of Research and Development – Business Wire

CAMBRIDGE, Mass.--(BUSINESS WIRE)--Magenta Therapeutics (NASDAQ: MGTA), a clinical-stage biotechnology company developing novel medicines to bring the curative power of immune reset to more patients, today announced that it has promoted John Davis Jr., M.D., M.P.H., M.S. to Head of Research and Development and Chief Medical Officer.

As Magenta continues its strong track record of progress in both Research and Development, we are further positioning the company for future success by strengthening the collaboration and synergies between these two crucial organizations within Magenta, said Jason Gardner, D.Phil., President and Chief Executive Officer, Magenta Therapeutics. John Davis is an experienced physician-scientist drug developer and the ideal patient-centric leader to guide our R&D organization in their singular focus to bring our multiple transformative new medicines to patients in the most effective and efficient manner.

Magenta is the only company that is solely focused on delivering curative immune reset to more patients with autoimmune diseases, blood cancers and genetic diseases. The Company has built its success upon a strong research platform and a promising early clinical pipeline, said Dr. Davis. With our world-class team, I look forward to harnessing our preclinical, translational and clinical expertise to deliver a portfolio of groundbreaking new medicines for patients.

Dr. Davis joined Magenta as Chief Medical Officer in 2018. Previously he served as Senior Vice President and Head of Early Clinical Development at Pfizer. Prior to that, Dr. Davis was Vice President and Global Therapeutic Area Head of Immunology at Baxalta/Shire and was Senior Group Director and Head of the Inflammation and Cardiovascular/Metabolism Group in the Early Clinical Development Group at Genentech. Dr. Davis spent nearly 10 years on faculty at The University of California San Francisco leading clinical research in multiple autoimmune diseases, and he was Professor of Clinical Medicine. Dr. Davis earned an M.D. from the University of Maryland where he graduated summa cum laude. Dr. Davis trained in Internal Medicine and Rheumatology at The University of California San Francisco. He continued training in clinical research and rheumatology at The National Institutes of Health NIAMS Intramural Program. He holds an M.P.H. in Epidemiology from the University of California Berkley, and an M.S. in Anatomical Science from the University of Maryland School of Medicine. He is a fellow of both the American College of Physicians and the American College of Rheumatology and continues to see patients at the Boston VA Medical Center.

About Magenta Therapeutics

Magenta Therapeutics is a clinical-stage biotechnology company developing medicines to bring the curative power of immune system reset through stem cell transplant to more patients with autoimmune diseases, genetic diseases and blood cancers. Magenta is combining leadership in stem cell biology and biotherapeutics development with clinical and regulatory expertise, a unique business model and broad networks in the stem cell transplant world to revolutionize immune reset for more patients.

Magenta is based in Cambridge, Mass. For more information, please visit http://www.magentatx.com.

Follow Magenta on Twitter: @magentatx.

Forward-Looking Statement

This press release may contain forward-looking statements and information within the meaning of The Private Securities Litigation Reform Act of 1995 and other federal securities laws. The use of words such as may, will, could, should, expects, intends, plans, anticipates, believes, estimates, predicts, projects, seeks, endeavor, potential, continue or the negative of such words or other similar expressions can be used to identify forward-looking statements. The express or implied forward-looking statements included in this press release are only predictions and are subject to a number of risks, uncertainties and assumptions, including, without limitation risks set forth under the caption Risk Factors in Magentas most recent Annual Report on Form 10-K, as updated by Magentas most recent Quarterly Report on Form 10-Q and its other filings with the Securities and Exchange Commission. In light of these risks, uncertainties and assumptions, the forward-looking events and circumstances discussed in this press release may not occur and actual results could differ materially and adversely from those anticipated or implied in the forward-looking statements. You should not rely upon forward-looking statements as predictions of future events. Although Magenta believes that the expectations reflected in the forward-looking statements are reasonable, it cannot guarantee that the future results, levels of activity, performance or events and circumstances reflected in the forward-looking statements will be achieved or occur. Moreover, except as required by law, neither Magenta nor any other person assumes responsibility for the accuracy and completeness of the forward-looking statements included in this press release. Any forward-looking statement included in this press release speaks only as of the date on which it was made. We undertake no obligation to publicly update or revise any forward-looking statement, whether as a result of new information, future events or otherwise, except as required by law.

More here:
Magenta Therapeutics Names John Davis Jr., M.D., M.P.H, M.S., Head of Research and Development - Business Wire

Coronavirus threat to global Totipotent Stem Cell Market : Trends and Future Applications – Curious Desk

Totipotent Stem Cell Market Insights 2018, is a professional and in-depth study on the current state of the global Totipotent Stem Cell industry with a focus on the Global market. The report provides key statistics on the market status of the Totipotent Stem Cell manufacturers and is a valuable source of guidance and direction for companies and individuals interested in the industry. Overall, the report provides an in-depth insight of 2018-2025 global Totipotent Stem Cell market covering all important parameters.

The report on the Totipotent Stem Cell market provides a birds eye view of the current proceeding within the Totipotent Stem Cell market. Further, the report also takes into account the impact of the novel COVID-19 pandemic on the Totipotent Stem Cell market and offers a clear assessment of the projected market fluctuations during the forecast period. The different factors that are likely to impact the overall dynamics of the Totipotent Stem Cell market over the forecast period (2019-2029) including the current trends, growth opportunities, restraining factors, and more are discussed in detail in the market study.

Request Sample Report @ https://www.researchmoz.com/enquiry.php?type=S&repid=2618828&source=atm

The key points of the Totipotent Stem Cell Market report:

The report provides a basic overview of the Totipotent Stem Cell industry including its definition, applications and manufacturing technology.

The report explores the international and Chinese major industry players in detail. In this part, the report presents the company profile, product specifications, capacity, production value, and 2018-2025 market shares for each company.

Through the statistical analysis, the report depicts the global total market of Totipotent Stem Cell industry including capacity, production, production value, cost/profit, supply/demand and Chinese import/export.

The total market is further divided by company, by country, and by application/type for the competitive landscape analysis.

The report then estimates 2018-2025 market development trends of Totipotent Stem Cell industry. Analysis of upstream raw materials, downstream demand, and current market dynamics is also carried out.

The report makes some important proposals for a new project of Totipotent Stem Cell Industry before evaluating its feasibility.

Make An EnquiryAbout This Report @ https://www.researchmoz.com/enquiry.php?type=E&repid=2618828&source=atm

There are 3 key segments covered in this report: competitor segment, product type segment, end use/application segment.

For competitor segment, the report includes global key players of Totipotent Stem Cell are included:

The major players profiled in this report include:Company A

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 Totipotent Stem Cell for each application, including-Medical

You can Buy This Report from Here @ https://www.researchmoz.com/checkout?rep_id=2618828&licType=S&source=atm

Reasons to Purchase this Report:

* Estimates 2018-2025 Totipotent Stem Cell market development trends with the recent trends and SWOT analysis

* Market dynamics scenario, along with growth opportunities of the market in the years to come

* Market segmentation analysis including qualitative and quantitative research incorporating the impact of economic and policy aspects

* Regional and country level analysis integrating the demand and supply forces that are influencing the growth of the market.

* Competitive landscape involving the market share of major players, along with the new projects and strategies adopted by players in the past five years

* Comprehensive company profiles covering the product offerings, key financial information, recent developments, SWOT analysis, and strategies employed by the major market players

Read the rest here:
Coronavirus threat to global Totipotent Stem Cell Market : Trends and Future Applications - Curious Desk

Pandemic reveals another shortfall in preparation: Scattershot, chaotic research for treatments – Seattle Times

In a desperate bid to find treatments for people sickened by coronavirus, doctors and drug companies have launched more than 100 human experiments in the United States, investigating experimental drugs, a decades-old malaria medicine and cutting-edge therapies that have worked for other conditions such as HIV and rheumatoid arthritis.

Development of effective treatments for COVID-19 would be one of the most significant milestones in returning the United States to normalcy. But the massive effort is disorganized and scattershot, harming its prospects for success, according to multiple researchers and health experts. Researchers working round-the-clock describe a lack of a centralized national strategy, overlapping efforts, an array of small-scale trials that will not lead to definitive answers and no standards for how to prioritize efforts, what data to collect or how to share it to get to answers faster.

Its a cacophony; its not an orchestra. Theres no conductor, said Derek Angus, chair of the department of critical care medicine at University of Pittsburgh School of Medicine, who is leading a COVID-19 trial that will test multiple therapies. My heart aches over the complete chaos in the response.

The global biomedical research establishment could be one of most powerful assets in the campaign against the new virus, with experts all over the world and especially the scientific and medical powerhouse of the United States in rare alignment in their focus on a single enemy. Some large trials designed to be definitive have launched. But with more than 500 human clinical trials worldwide, the lack of coordination puts the world at risk of ending up with a raft of inconclusive and conflicting studies and little idea of what interventions work for the next wave of illness.

Public-private partnership reportedly in the works

Francis Collins, director of the National Institutes of Health, the nations largest biomedical research agency, acknowledged researchers frustrations but said in an interview Wednesday he has been working behind the scenes to launch an unprecedented, public-private partnership to address the problems. He said the framework involves top pharmaceutical companies such as Pfizer and Johnson & Johnson, domestic and international government agencies, including the European Medicines Agency, and academic research centers.

Collins said the monthlong discussions have been kept under wraps to ensure buy-in for an approach likely to require sacrifices of personal recognition, scientific credit and profit a centralized decision, for example, not to proceed with tests of one companys drug to move faster on a competitors.

I think we have the necessary clout to steer this whole complicated ecosystem, he said. When you look at some of the things that are happening sporadically, we may be unlikely to learn what we need to from such disconnected, small trials. The whole point is to replace that with a coherent, evidence-based approach I want to know what works, and I want to have it answered by June or July.

Agency officials said further details would be released in coming days.

Anthony Fauci, director of the National Institute of Allergy and Infectious Diseases (NIAID), said in an email Tuesday that the partnership led by Collins is the functional equivalent of a National Strategy.

While Collins was working on developing that strategy, hospitals, drug companies, government labs and individual doctors were flooding the system with proposals for drugs and other interventions to test against the virus an outpouring that reveals how siloed and fragmented the research enterprise remains. For example, there are 26 separate U.S. trials listed for the anti-malarial drug hydroxychloroquine, all with different designs. Some use the drug as a preventive, others as a treatment. Some use it alone, some with other drugs or vitamins, and some have no comparison group to tell if the drug was responsible for the outcome. That will make it more difficult to conclude whether, or in what circumstances, the drug may work.

Collins said a working group is addressing this problem by sifting through about 100 possible COVID-19 treatments to decide which are the six to eight most promising drugs to move forward in large-scale trials. Those will be deployed in large clinical trial networks.

The new federal effort is motivated in part by what happened in China. Clifford Lane, deputy director for clinical research and special projects at NIAID, traveled to the origin of the outbreak in February as part of an international delegation to help the world learn from the Chinese experience. He was troubled by the lack of a strategic plan to prioritize and fast-track the most promising treatments, leading to a mosaic of inconclusive findings.

We do have to have a bigger strategy than every university, every institute and to be blunt every country working on their own research efforts, Lane said in an interview.

Urgency of outbreak pressures scientists

At the heart of the problem is the basic question of whether a drug really works. Typically, drugs and medical interventions are first tested in small clinical trials that establish safety before the most promising ones are funneled into bigger trials, in an iterative and yearslong process. These trials, which typically randomly assign patients to receive either a drug or a placebo, prove that medicines, vaccines and medical procedures are effective and safe. But with the urgency of the coronavirus threat, timelines have been squeezed, doctors are doing uncontrolled experiments as they administer regular care and the typical model for research is too slow.

David Boulware, an infectious disease physician and scientist at the University of Minnesota, has gotten at least 50 emails from companies and researchers with treatments they want to test. The urgency to find something anything for patients who have nothing other than supportive care has led researchers to pull everything off the shelf: a mix of existing drugs that show promise, stem cell treatments and brand new compounds designed specifically against COVID-19.

The energy is remarkable, but it needs to be channeled. Clinical trials, whether for an HIV drug or a brand new medicine, compete for many of the same patients. If there are too many trials at a hospital, none of them may enroll enough patients to get clear results. If there are too many similar small trials running in parallel, their results individually may be inconclusive, and the data could have so many differences they may not be able to be pooled.

Theres all sorts of people wanting to try anything, because people are desperate, Boulware said.

He and others who were unaware of Collins plans argue that national leadership whether guidance on how to prioritize trials, a central body coordinating efforts, or a mechanism to play matchmaker among institutions working on similar ideas could help channel the ubiquitous scientific desire to make a bigger, faster impact.

Some large-scale efforts are already underway: The World Health Organization has organized a massive trial in 90 countries of four promising therapies. The National Institutes of Health is conducting a test of the antiviral medication remdesivir at more than 50 institutions and last week launched a large trial for an anti-malarial medication. A $50 million effort at the Duke Clinical Research Institute will test hydroxychloroquine in 15,000 health care workers and create a registry that can be tapped to speed up future trials, such as for a vaccine.

People should not be fatalistic that were going to have a paucity of evidence for things that provide benefit, Collins said. I hope well have three to four of those [treatments] by the summer.

But as the federal effort has proceeded largely in secret, individual institutions have scrambled to set up committees of experts who evaluate which trials make sense to move forward. At the University of Pennsylvania, a weeks-old committee gives priority scores to trials based on criteria such as whether they will compete with existing efforts and how likely they are to enroll all the patients needed to get a result. A task force at Duke University does a similar review.

Theres a lot of stuff bubbling up. It would seem like a sensible thing to do would be to align everyone around the same trials, not one trial for each context and not have each institution do its own thing and at the end of the day everyone has done a small trial and we dont know what to make of it, said Steven Joffe, a bioethicist at the University of Pennsylvania. Lets get to an answer.

Many proposed trials overlap using the same drug, such as the anti-malaria treatment hydroxychloroquine that has been touted by President Trump, his lawyer Rudolph W. Giuliani and conservative talk-show host Laura Ingraham.

Boulware is halfway through one such hydroxychloroquine trial, which examines whether the drug is effective at preventing the disease or in treating people with mild cases. People who participate will receive either the drug or a vitamin in the mail.

He said he is motivated by his experience working on Ebola, when by the time a well-designed trial was up and running, the outbreak was dying down. He plowed ahead with his hydroxychloroquine trial weeks before he heard last Friday the National Institutes of Health had declined to fund it. He found international collaborators through chance and social media, when some Canadian researchers emailed to ask if he would share his trial design with them. He ended up connecting the Canadians with one another and is now working on overcoming the complex legal requirements to share data.

But now, his trial is potentially competing with a bunch of others that also test hydroxychloroquine all across the country and enrollment has slowed in recent days.

Hope and confusion about evidence

Small trials and even anecdotal reports of treatments that appear to have worked on small groups of patients are already being shared, sowing both hope and confusion about the evidence.

A study published Friday in the New England Journal of Medicine, for instance, reported on 53 people who took remdesivir, a failed Ebola drug Trump has praised and many families have already tried to get access to outside of trials. The results were impossible to interpret, though, since some of those patients might have gotten better on their own and there was no comparison group of patients who did not receive the drug. Hydroxychloroquine, the cheap and readily available anti-malarial drug, has also already been widely used in patients, despite only suggestive evidence that it might work.

As more small-scale studies are designed, the risks of inconclusive but suggestive results multiply and paradoxically, they could make it harder to conduct well-designed clinical trials that get to the bottom of whether a treatment works. Well-designed clinical trials require patients to be willing to be randomly assigned to receive the treatment or a placebo.

Emma Meagher, chief clinical research officer at the University of Pennsylvanias Perelman School of Medicine, said her institutions study of the malaria drug in severely ill patients does not have a comparison group that receives a placebo because the media around the drug has made it the standard of care despite the lack of evidence. Every meeting, she said, begins with a discussion about how to prevent the next experimental therapy from becoming like hydroxychloroquine.

In some ways, designing research studies when clinicians have an imperative to give their patients the best care possible is an inherently tricky situation. Outside of top-tier research hospitals, patients may not have access to trials, so clinicians may have little option but to give them drugs in what amounts to an uncontrolled experiment. The Infectious Diseases Society of America released guidelines last week that clinicians should give experimental drugs only in trials, but safety-net and small, rural hospitals are less likely to have access to those.

Do we really want to have [some] people trying new different things and the rest of you sit and wait? asked Benjamin Linas, an infectious disease physician working on oversight of clinical trial protocols at Boston Medical Center.

Many researchers have said they are hopeful a national strategy will help unify and speed the search, but lament the time already lost. The United States did not have a pandemic clinical trials network ready to be activated, but existing clinical trials networks, such as ones used to test HIV treatments, are now being repurposed. Collins said he had never seen research move faster, but in a pandemic that can still feel slow.

We have imperfect networks. I mean there are some there, but theyve never been tested in this way, said Adrian Hernandez, vice dean for clinical research at Duke University School of Medicine. Having a common infrastructure that can do rapid cycle trials that would be beneficial.

Collins said he began partnering with private companies, research institutions and other agencies in mid-March. Had he started sooner, he said, the urgency of the situation might not have been clear to the companies and agencies he had to convince to work together. He disagrees significant time has been lost and noted the efforts were able to piggyback on an existing framework for pursuing drugs with industry collaboration called the Accelerating Medicines Partnership.

Partnerships that previously took a year and a half to build were put together in a week, he said.

I think it is a world record for anything of this sort; it might have been difficult to get full unanimous agreement to what is clearly unprecedented for a willingness to give up control, Collins said.

As with other areas of pandemic planning, many hope the United States will learn from this lesson, that it needs a preparedness plan not only for allocating essential supplies and scaling up testing but also in plotting research.

The problem is we need to remember to invest in preparedness, at times when were not affected with a pandemic or epidemic, said Barbara Bierer, director of the regulatory foundations, ethics and the law program of the Harvard Clinical and Translational Science Center. And its hard to repurpose or commit resources to something that doesnt appear immediate on the horizon.

Read the original post:
Pandemic reveals another shortfall in preparation: Scattershot, chaotic research for treatments - Seattle Times

Cell Expansion Supporting Equipment Market: Size, Share, Analysis, Regional Outlook and Forecast 2020-2026 – Express Journal

The latest study on the Cell Expansion Supporting Equipment market is a detailed research report encompassing important parameters with regards to the industry in question. An intricate outline of the market segmentation has been given in the report, alongside a brief overview of the present scenario of the Cell Expansion Supporting Equipment market. The study is also inclusive of the industry size pertaining to the remuneration as well as volume aspects.

A leading research report on Cell Expansion Supporting Equipment Market Segment by Applications (Regenerative Medicine and Stem Cell Research, Cancer and Cell-based Research and Others), by Type (Flow cytometer, Cell counters, Centrifuges and Others), Regional Outlook: Global Industry Perspective, Comprehensive Analysis, and Forecast, 2020 2026 to its research database. The Cell Expansion Supporting Equipment comprehensive is perceptible among the most immensely gathered market globally. The Cell Expansion Supporting Equipment report gives the exchange information and the progressing business chain information in the overall market. The report gives a thought with respect to the advancement of the market movement of significant players of the Cell Expansion Supporting Equipment .

A synopsis of the pivotal information pertaining to the geographical scope of the industry has been delivered in the report. Also provided are details on the competitive landscape encompassing a list of players that have established their stance in the industry.

Request Sample Copy of this Report @ https://www.express-journal.com/request-sample/51366

Elucidating the major insights of the Cell Expansion Supporting Equipment market research study:

A succinct overview of the regional reach of the Cell Expansion Supporting Equipment market:

A brief outline of the competitive landscape of the Cell Expansion Supporting Equipment market:

Important takeaways from the study that may prove invaluable for potential stakeholders in the Cell Expansion Supporting Equipment market:

Research objectives:

Key questions answered in the report:

Request Customization on This Report @ https://www.express-journal.com/request-for-customization/51366

Continued here:
Cell Expansion Supporting Equipment Market: Size, Share, Analysis, Regional Outlook and Forecast 2020-2026 - Express Journal

Platelet Rich Plasma and Stem Cell Alopecia Treatment Market overview with detailed analysis, competitive landscape, forecast to 2026 – WhaTech…

Complete study of the global Platelet Rich Plasma and Stem Cell Alopecia Treatment market is carried out by the analysts in this report, taking into consideration key factors like drivers, challenges, recent trends, opportunities, advancements, and competitive landscape.

This report offers a clear understanding of the present as well as future scenario of the global Platelet Rich Plasma and Stem Cell Alopecia Treatment industry. Research techniques like PESTLE and Porters Five Forces analysis have been deployed by the researchers. They have also provided accurate data on Platelet Rich Plasma and Stem Cell Alopecia Treatment production, capacity, price, cost, margin, and revenue to help the players gain a clear understanding into the overall existing and future market situation.

Key companies operating in the global Platelet Rich Plasma and Stem Cell Alopecia Treatment market include _Kerastem, Eclipse, Regen Lab SA, Stemcell Technologies, RepliCel Life Sciences, Histogen, Glofinn Oy., ... Platelet Rich Plasma and Stem Cell Alopecia Treatment

Get PDF Sample Copy of the Report to understand the structure of the complete report: (Including Full TOC, List of Tables & Figures, Chart) :

http://www.qyresearch.com/index/dent-market

Segmental Analysis

The report has classified the global Platelet Rich Plasma and Stem Cell Alopecia Treatment industry into segments including product type and application. Every segment is evaluated based on growth rate and share. Besides, the analysts have studied the potential regions that may prove rewarding for the Platelet Rich Plasma and Stem Cell Alopecia Treatment manufcaturers in the coming years. The regional analysis includes reliable predictions on value and volume, thereby helping market players to gain deep insights into the overall Platelet Rich Plasma and Stem Cell Alopecia Treatment industry.

Global Platelet Rich Plasma and Stem Cell Alopecia Treatment Market Segment By Type:

, Androgenic Alopecia, Congenital Alopecia, Cicatricial Or Scarring Alopecia

Global Platelet Rich Plasma and Stem Cell Alopecia Treatment Market Segment By Application:

, Hospital, Dermatology Clinic, Other

Competitive Landscape

It is important for every market participant to be familiar with the competitive scenario in the global Platelet Rich Plasma and Stem Cell Alopecia Treatment industry. In order to fulfil the requirements, the industry analysts have evaluated the strategic activities of the competitors to help the key players strengthen their foothold in the market and increase their competitiveness.

Key companies operating in the global Platelet Rich Plasma and Stem Cell Alopecia Treatment market include _Kerastem, Eclipse, Regen Lab SA, Stemcell Technologies, RepliCel Life Sciences, Histogen, Glofinn Oy., ...

Platelet Rich Plasma and Stem Cell Alopecia Treatment

Key questions answered in the report:

Enquire Customization in The Report: http://www.qyresearch.com/customient-market

TOC

1 Study Coverage1.1 Platelet Rich Plasma and Stem Cell Alopecia Treatment Product Introduction1.2 Market Segments1.3 Key Platelet Rich Plasma and Stem Cell Alopecia Treatment Manufacturers Covered: Ranking by Revenue1.4 Market by Type1.4.1 Global Platelet Rich Plasma and Stem Cell Alopecia Treatment Market Size Growth Rate by Type1.4.2 Androgenic Alopecia1.4.3 Congenital Alopecia1.4.4 Cicatricial Or Scarring Alopecia1.5 Market by Application1.5.1 Global Platelet Rich Plasma and Stem Cell Alopecia Treatment Market Size Growth Rate by Application1.5.2 Hospital1.5.3 Dermatology Clinic1.5.4 Other1.6 Coronavirus Disease 2019 (Covid-19): Platelet Rich Plasma and Stem Cell Alopecia Treatment Industry Impact1.6.1 How the Covid-19 is Affecting the Platelet Rich Plasma and Stem Cell Alopecia Treatment Industry1.6.1.1 Platelet Rich Plasma and Stem Cell Alopecia Treatment Business Impact Assessment - Covid-191.6.1.2 Supply Chain Challenges1.6.1.3 COVID-19s Impact On Crude Oil and Refined Products1.6.2 Market Trends and Platelet Rich Plasma and Stem Cell Alopecia Treatment Potential Opportunities in the COVID-19 Landscape1.6.3 Measures / Proposal against Covid-191.6.3.1 Government Measures to Combat Covid-19 Impact1.6.3.2 Proposal for Platelet Rich Plasma and Stem Cell Alopecia Treatment Players to Combat Covid-19 Impact 1.7 Study Objectives 1.8 Years Considered 2 Executive Summary2.1 Global Platelet Rich Plasma and Stem Cell Alopecia Treatment Market Size Estimates and Forecasts2.1.1 Global Platelet Rich Plasma and Stem Cell Alopecia Treatment Revenue 2015-20262.1.2 Global Platelet Rich Plasma and Stem Cell Alopecia Treatment Sales 2015-20262.2 Platelet Rich Plasma and Stem Cell Alopecia Treatment Market Size by Region: 2020 Versus 20262.2.1 Global Platelet Rich Plasma and Stem Cell Alopecia Treatment Retrospective Market Scenario in Sales by Region: 2015-20203.1 Platelet Rich Plasma and Stem Cell Alopecia Treatment Sales by Manufacturers3.1.1 Platelet Rich Plasma and Stem Cell Alopecia Treatment Sales by Manufacturers (2015-2020)3.1.2 Platelet Rich Plasma and Stem Cell Alopecia Treatment Sales Market Share by Manufacturers (2015-2020)3.2 Platelet Rich Plasma and Stem Cell Alopecia Treatment Revenue by Manufacturers3.2.1 Platelet Rich Plasma and Stem Cell Alopecia Treatment Revenue by Manufacturers (2015-2020)3.2.2 Platelet Rich Plasma and Stem Cell Alopecia Treatment Revenue Share by Manufacturers (2015-2020)3.2.3 Global Platelet Rich Plasma and Stem Cell Alopecia Treatment Market Concentration Ratio (CR5 and HHI) (2015-2020)3.2.4 Global Top 10 and Top 5 Companies by Platelet Rich Plasma and Stem Cell Alopecia Treatment Revenue in 20193.2.5 Global Platelet Rich Plasma and Stem Cell Alopecia Treatment Market Share by Company Type (Tier 1, Tier 2 and Tier 3)3.3 Platelet Rich Plasma and Stem Cell Alopecia Treatment Price by Manufacturers3.4 Platelet Rich Plasma and Stem Cell Alopecia Treatment Manufacturing Base Distribution, Product Types3.4.1 Platelet Rich Plasma and Stem Cell Alopecia Treatment Manufacturers Manufacturing Base Distribution, Headquarters3.4.2 Manufacturers Platelet Rich Plasma and Stem Cell Alopecia Treatment Product Type3.4.3 Date of International Manufacturers Enter into Platelet Rich Plasma and Stem Cell Alopecia Treatment Market 3.5 Manufacturers Mergers & Acquisitions, Expansion Plans 4 Breakdown Data by Type (2015-2026)4.1 Global Platelet Rich Plasma and Stem Cell Alopecia Treatment Market Size by Type (2015-2020)4.1.1 Global Platelet Rich Plasma and Stem Cell Alopecia Treatment Sales by Type (2015-2020)4.1.2 Global Platelet Rich Plasma and Stem Cell Alopecia Treatment Revenue by Type (2015-2020)4.1.3 Platelet Rich Plasma and Stem Cell Alopecia Treatment Average Selling Price (ASP) by Type (2015-2026)4.2 Global Platelet Rich Plasma and Stem Cell Alopecia Treatment Market Size Forecast by Type (2021-2026)4.2.1 Global Platelet Rich Plasma and Stem Cell Alopecia Treatment Sales Forecast by Type (2021-2026)4.2.2 Global Platelet Rich Plasma and Stem Cell Alopecia Treatment Revenue Forecast by Type (2021-2026)4.2.3 Platelet Rich Plasma and Stem Cell Alopecia Treatment Average Selling Price (ASP) Forecast by Type (2021-2026)4.3 Global Platelet Rich Plasma and Stem Cell Alopecia Treatment Market Share by Price Tier (2015-2020): Low-End, Mid-Range and High-End 5 Breakdown Data by Application (2015-2026)5.1 Global Platelet Rich Plasma and Stem Cell Alopecia Treatment Market Size by Application (2015-2020)5.1.1 Global Platelet Rich Plasma and Stem Cell Alopecia Treatment Sales by Application (2015-2020)5.1.2 Global Platelet Rich Plasma and Stem Cell Alopecia Treatment Revenue by Application (2015-2020)5.1.3 Platelet Rich Plasma and Stem Cell Alopecia Treatment Price by Application (2015-2020)5.2 Platelet Rich Plasma and Stem Cell Alopecia Treatment Market Size Forecast by Application (2021-2026)5.2.1 Global Platelet Rich Plasma and Stem Cell Alopecia Treatment Sales Forecast by Application (2021-2026)5.2.2 Global Platelet Rich Plasma and Stem Cell Alopecia Treatment Revenue Forecast by Application (2021-2026)5.2.3 Global Platelet Rich Plasma and Stem Cell Alopecia Treatment Price Forecast by Application (2021-2026) 6 North America6.1 North America Platelet Rich Plasma and Stem Cell Alopecia Treatment by Country6.1.1 North America Platelet Rich Plasma and Stem Cell Alopecia Treatment Sales by Country6.1.2 North America Platelet Rich Plasma and Stem Cell Alopecia Treatment Revenue by Country6.1.3 U.S.6.1.4 Canada6.2 North America Platelet Rich Plasma and Stem Cell Alopecia Treatment Market Facts & Figures by Type6.3 North America Platelet Rich Plasma and Stem Cell Alopecia Treatment Market Facts & Figures by Application 7 Europe7.1 Europe Platelet Rich Plasma and Stem Cell Alopecia Treatment by Country7.1.1 Europe Platelet Rich Plasma and Stem Cell Alopecia Treatment Sales by Country7.1.2 Europe Platelet Rich Plasma and Stem Cell Alopecia Treatment Revenue by Country7.1.3 Germany7.1.4 France7.1.5 U.K.7.1.6 Italy7.1.7 Russia7.2 Europe Platelet Rich Plasma and Stem Cell Alopecia Treatment Market Facts & Figures by Type7.3 Europe Platelet Rich Plasma and Stem Cell Alopecia Treatment Market Facts & Figures by Application 8 Asia Pacific8.1 Asia Pacific Platelet Rich Plasma and Stem Cell Alopecia Treatment by Region8.1.1 Asia Pacific Platelet Rich Plasma and Stem Cell Alopecia Treatment Sales by Region8.1.2 Asia Pacific Platelet Rich Plasma and Stem Cell Alopecia Treatment Revenue by Region8.1.3 China8.1.4 Japan8.1.5 South Korea8.1.6 India8.1.7 Australia8.1.8 Taiwan8.1.9 Indonesia8.1.10 Thailand8.1.11 Malaysia8.1.12 Philippines8.1.13 Vietnam8.2 Asia Pacific Platelet Rich Plasma and Stem Cell Alopecia Treatment Market Facts & Figures by Type8.3 Asia Pacific Platelet Rich Plasma and Stem Cell Alopecia Treatment Market Facts & Figures by Application 9 Latin America9.1 Latin America Platelet Rich Plasma and Stem Cell Alopecia Treatment by Country9.1.1 Latin America Platelet Rich Plasma and Stem Cell Alopecia Treatment Sales by Country9.1.2 Latin America Platelet Rich Plasma and Stem Cell Alopecia Treatment Revenue by Country9.1.3 Mexico9.1.4 Brazil9.1.5 Argentina9.2 Central & South America Platelet Rich Plasma and Stem Cell Alopecia Treatment Market Facts & Figures by Type9.3 Central & South America Platelet Rich Plasma and Stem Cell Alopecia Treatment Market Facts & Figures by Application 10 Middle East and Africa10.1 Middle East and Africa Platelet Rich Plasma and Stem Cell Alopecia Treatment by Country10.1.1 Middle East and Africa Platelet Rich Plasma and Stem Cell Alopecia Treatment Sales by Country10.1.2 Middle East and Africa Platelet Rich Plasma and Stem Cell Alopecia Treatment Revenue by Country10.1.3 Turkey10.1.4 Saudi Arabia10.1.5 U.A.E10.2 Middle East and Africa Platelet Rich Plasma and Stem Cell Alopecia Treatment Market Facts & Figures by Type10.3 Middle East and Africa Platelet Rich Plasma and Stem Cell Alopecia Treatment Market Facts & Figures by Application 11 Company Profiles11.1 Kerastem11.1.1 Kerastem Corporation Information11.1.2 Kerastem Description, Business Overview and Total Revenue11.1.3 Kerastem Sales, Revenue and Gross Margin (2015-2020)11.1.4 Kerastem Platelet Rich Plasma and Stem Cell Alopecia Treatment Products Offered11.1.5 Kerastem Recent Development11.2 Eclipse11.2.1 Eclipse Corporation Information11.2.2 Eclipse Description, Business Overview and Total Revenue11.2.3 Eclipse Sales, Revenue and Gross Margin (2015-2020)11.2.4 Eclipse Platelet Rich Plasma and Stem Cell Alopecia Treatment Products Offered11.2.5 Eclipse Recent Development11.3 Regen Lab SA11.3.1 Regen Lab SA Corporation Information11.3.2 Regen Lab SA Description, Business Overview and Total Revenue11.3.3 Regen Lab SA Sales, Revenue and Gross Margin (2015-2020)11.3.4 Regen Lab SA Platelet Rich Plasma and Stem Cell Alopecia Treatment Products Offered11.3.5 Regen Lab SA Recent Development11.4 Stemcell Technologies11.4.1 Stemcell Technologies Corporation Information11.4.2 Stemcell Technologies Description, Business Overview and Total Revenue11.4.3 Stemcell Technologies Sales, Revenue and Gross Margin (2015-2020)11.4.4 Stemcell Technologies Platelet Rich Plasma and Stem Cell Alopecia Treatment Products Offered11.4.5 Stemcell Technologies Recent Development11.5 RepliCel Life Sciences11.5.1 RepliCel Life Sciences Corporation Information11.5.2 RepliCel Life Sciences Description, Business Overview and Total Revenue11.5.3 RepliCel Life Sciences Sales, Revenue and Gross Margin (2015-2020)11.5.4 RepliCel Life Sciences Platelet Rich Plasma and Stem Cell Alopecia Treatment Products Offered11.5.5 RepliCel Life Sciences Recent Development11.6 Histogen11.6.1 Histogen Corporation Information11.6.2 Histogen Description, Business Overview and Total Revenue11.6.3 Histogen Sales, Revenue and Gross Margin (2015-2020)11.6.4 Histogen Platelet Rich Plasma and Stem Cell Alopecia Treatment Products Offered11.6.5 Histogen Recent Development11.7 Glofinn Oy.11.7.1 Glofinn Oy. Corporation Information11.7.2 Glofinn Oy. Description, Business Overview and Total Revenue11.7.3 Glofinn Oy. Sales, Revenue and Gross Margin (2015-2020)11.7.4 Glofinn Oy. Platelet Rich Plasma and Stem Cell Alopecia Treatment Products Offered11.7.5 Glofinn Oy. Recent Development11.1 Kerastem11.1.1 Kerastem Corporation Information11.1.2 Kerastem Description, Business Overview and Total Revenue11.1.3 Kerastem Sales, Revenue and Gross Margin (2015-2020)11.1.4 Kerastem Platelet Rich Plasma and Stem Cell Alopecia Treatment Products Offered11.1.5 Kerastem Recent Development 12 Future Forecast by Regions (Countries) (2021-2026)12.1 Platelet Rich Plasma and Stem Cell Alopecia Treatment Market Estimates and Projections by Region12.1.1 Global Platelet Rich Plasma and Stem Cell Alopecia Treatment Sales Forecast by Regions 2021-202612.1.2 Global Platelet Rich Plasma and Stem Cell Alopecia Treatment Revenue Forecast by Regions 2021-202612.2 North America Platelet Rich Plasma and Stem Cell Alopecia Treatment Market Size Forecast (2021-2026)12.2.1 North America: Platelet Rich Plasma and Stem Cell Alopecia Treatment Sales Forecast (2021-2026)12.2.2 North America: Platelet Rich Plasma and Stem Cell Alopecia Treatment Revenue Forecast (2021-2026)12.2.3 North America: Platelet Rich Plasma and Stem Cell Alopecia Treatment Market Size Forecast by Country (2021-2026)12.3 Europe Platelet Rich Plasma and Stem Cell Alopecia Treatment Market Size Forecast (2021-2026)12.3.1 Europe: Platelet Rich Plasma and Stem Cell Alopecia Treatment Sales Forecast (2021-2026)12.3.2 Europe: Platelet Rich Plasma and Stem Cell Alopecia Treatment Revenue Forecast (2021-2026)12.3.3 Europe: Platelet Rich Plasma and Stem Cell Alopecia Treatment Market Size Forecast by Country (2021-2026)12.4 Asia Pacific Platelet Rich Plasma and Stem Cell Alopecia Treatment Market Size Forecast (2021-2026)12.4.1 Asia Pacific: Platelet Rich Plasma and Stem Cell Alopecia Treatment Sales Forecast (2021-2026)12.4.2 Asia Pacific: Platelet Rich Plasma and Stem Cell Alopecia Treatment Revenue Forecast (2021-2026)12.4.3 Asia Pacific: Platelet Rich Plasma and Stem Cell Alopecia Treatment Market Size Forecast by Region (2021-2026)12.5 Latin America Platelet Rich Plasma and Stem Cell Alopecia Treatment Market Size Forecast (2021-2026)12.5.1 Latin America: Platelet Rich Plasma and Stem Cell Alopecia Treatment Sales Forecast (2021-2026)12.5.2 Latin America: Platelet Rich Plasma and Stem Cell Alopecia Treatment Revenue Forecast (2021-2026)12.5.3 Latin America: Platelet Rich Plasma and Stem Cell Alopecia Treatment Market Size Forecast by Country (2021-2026)12.6 Middle East and Africa Platelet Rich Plasma and Stem Cell Alopecia Treatment Market Size Forecast (2021-2026)12.6.1 Middle East and Africa: Platelet Rich Plasma and Stem Cell Alopecia Treatment Sales Forecast (2021-2026)12.6.2 Middle East and Africa: Platelet Rich Plasma and Stem Cell Alopecia Treatment Revenue Forecast (2021-2026)12.6.3 Middle East and Africa: Platelet Rich Plasma and Stem Cell Alopecia Treatment Market Size Forecast by Country (2021-2026) 13 Market Opportunities, Challenges, Risks and Influences Factors Analysis13.1 Market Opportunities and Drivers13.2 Market Challenges13.3 Market Risks/Restraints13.4 Porters Five Forces Analysis13.5 Primary Interviews with Key Platelet Rich Plasma and Stem Cell Alopecia Treatment Players (Opinion Leaders) 14 Value Chain and Sales Channels Analysis 14.1 Value Chain Analysis14.2 Platelet Rich Plasma and Stem Cell Alopecia Treatment Customers 14.3 Sales Channels Analysis 14.3.1 Sales Channels 14.3.2 Distributors 15 Research Findings and Conclusion 16 Appendix 16.1 Research Methodology 16.1.1 Methodology/Research Approach 16.1.2 Data Source 16.2 Author Details

This email address is being protected from spambots. You need JavaScript enabled to view it.

Visit link:
Platelet Rich Plasma and Stem Cell Alopecia Treatment Market overview with detailed analysis, competitive landscape, forecast to 2026 - WhaTech...