Stem Cell Clinic

Stem Cell Market To Be Driven By Increasing Activities To Use Stem … – Digital Journal

PRESS RELEASE

Published April 18, 2023

The report tracks the latest trends in the industry and studies their impact on the overall market. It also assesses the market dynamics, covering the key demand and price indicators, along with analysing the market based on the SWOT and Porters Five Forces models.

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The key highlights of the report include:

Market Overview (2018-2028)

The stem cell business is growing due to an increase in activities to use stem cells in regenerative treatments due to their medicinal qualities. The increasing use of human-induced pluripotent stem cells (iPSCs) for the treatment of hereditary cardiac difficulties, neurological illnesses, and genetic diseases such as recessive dystrophic epidermolysis bullosa (RBED) is driving the market forward.

Furthermore, because human-induced pluripotent stem cells (iPSCs) may reverse immunosuppression, they serve as a major source of cells for auto logic stem cell therapy, boosting the industrys expansion. Furthermore, the rising incentives provided by major businesses to deliver breakthrough stem cell therapies, as well as the increased use of modern resources and techniques in research and development activities (R&D), are propelling the stem cell market forward.

Because of increased research and development (R&D) in the United States and Canada, North America accounts for a significant portion of the overall stem cell business. Furthermore, the increased frequency of non-communicable chronic diseases such as cancer and Parkinsons disease, among others, is boosting the use of stem cell therapy, boosting the industrys growth.

Furthermore, the regions strong healthcare sector is improving access to innovative cell therapy treatments, assisting the regional stem cell industrys expansion. Aside from that, due to the rising use of regenerative treatments, the Asia Pacific area is predicted to rise rapidly. Furthermore, rising clinical trials are assisting market expansion due to low labour costs and the availability of raw materials in the region, contributing considerably to overall industry growth.

Stem Cell Industry Definition and Major Segments

A stem cell is a type of cell that has the ability to develop into a variety of cells, including brain cells and muscle cells. It can also help to repair tissues that have been injured. Because stem cells have the potential to treat a variety of non-communicable and chronic diseases, including Alzheimers and diabetes, theyre being used in medical and biotechnological research to repair tissue damage caused by diseases.

Explore the full report with the table of [emailprotected]https://www.expertmarketresearch.com/reports/stem-cell-market

The major product types of stem cell are:

The market can be broadly categorised on the basis of its treatment types into:

Based on applications, the market is divided into:

The EMR report looks into the regional markets of stem cell-like:

Stem Cell Market Trends

The market is expected to rise due to increased research activity in regenerative medicine and biotechnology to personalise stem cell therapy. The usage of stem cells is predicted to increase as the need for treatment of common disorders, such as age-related macular degeneration (AMD), grows among the growing geriatric population. Due to multiple error bars during research operations, it becomes extremely difficult to characterise cell products because each cell has unique properties. As a result, the integration of cutting-edge technologies such as artificial intelligence (AI), blockchain, and machine learning is accelerating. Artificial intelligence (AI) is being used to analyse images quickly, forecast cell functions, and classify tissues in order to identify cell products, which is expected to boost the market growth.

With the rising frequency of cancer and cancer-related research initiatives, blockchain technology is increasingly being used to collect and assimilate data in order to improve access to clinical outcomes and the latest advances. Blockchain can also help with data storage for patients while improving the cost-effectiveness of cord-blood banking for advanced research and development (R&D) purposes. In addition, the use of machine learning techniques to analyse photos and infer the relationship between cellular features is boosting the market growth. The increased interest in understanding cellular processes and identifying critical processes using deep learning is expected to move the stem cell business forward.

Key Market Players

The major players in the market are Pluristem Therapeutics Inc., Thermo Fisher Scientific Inc., Cellular Engineering Technologies, Merck KGaA, Becton, Dickinson and Company, and STEMCELL Technologies Inc The report covers the market shares, capacities, plant turnarounds, expansions, investments and mergers and acquisitions, among other latest developments of these market players.

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Stem Cell Market To Be Driven By Increasing Activities To Use Stem ... - Digital Journal

A protein extracted from squid may help increase tissue growth for regenerative medicine – Phys.org

This article has been reviewed according to ScienceX's editorial process and policies. Editors have highlighted the following attributes while ensuring the content's credibility:

by Russian Foundation for Basic Research

Collagen is the basic protein that makes up the intercellular matrix, or in other words, the environment for the connective tissue cells of our body, such as tendons, bone, and cartilage. It looks like long threads, woven into three-dimensional networks. This, in turn, creates a kind of a tissue scaffold.

Due to the fact that collagen fibers are durable, elastic, and also serve as signals that determine the cell's so-called destiny, in medicine they are used as an environment to accelerate growth and differentiation of tissues, for example in wound healing. Most often such materials are artificially synthesized from collagen dissolution. However, even the most advanced technologies are unable to create collagen "networks" that exactly repeat the structure of a natural cellular environment, most favorable for its regeneration, or in other words, tissue repair.

Scientists from Immanuel Kant Baltic Federal University (Kaliningrad) with their colleagues from Voronezh State University (Voronezh) have proposed to use natural collagen extracted from Dosidicus gigas squid as tissue scaffold for growing cells instead of artificially synthesized collagen.

This large marine animal is the most popular commercial species of squid that is used in cooking and also by scientists when studying animal brain and behavior. With regard to the availability and high volumes of Dosidicus gigas catch (up to 700 tons a year), this species may yet become a source of collagen for medical purposes on an industrial scale. Structure of the scaffold material. Credit: Evgeny Chupakhin

The authors have extracted collagen from the squid's skin, then the protein was blended with glycerin and water and dried in a special chamber, in order to shape it in the form of a scaffold. The durability and elasticity of the resulting fibrous material was then tested by stretching the sample. It turned out that the material's mechanical properties matched those already used as cell scaffolds in regenerative medicine.

Analysis of amino acid sequence, which is part of the protein, has shown that the Dosidicus gigas collagen is similar to mammal collagen, making it possible to be used when working wit human cell cultures with no risk of rejection.

In order to experimentally prove that the squid scaffold is suitable for growing human cells, scientists have placed samples into small plastic nutrient-filled walls, and afterwards applied human stem cell cultures onto their surfaces.

Cell culture observation has shown that in four days the cells strongly bound to the collagen scaffold, forming a big network with each other. Besides that, cells began to actively interact with the substrate, transforming it and releasing extracellular matrix into the environmentmolecules which play an important role in tissue restoration. The authors have also concluded that squid collagen has no toxic effect, since the median survival of cells that were cultivated there was 90%.

"The technology of creating collagen scaffolds of squid protein is quite simple, and therefore can be easily used at an industrial scale. The experiments have shown that our proposed material has high durability and elasticity, it is biocompatible, non-toxic, and also contributes to growth, division and migration of human embryonic cells. This suggests that it can be considered a promising replacement for synthetic collagen, currently used in modern regenerative medicine," says Evgeny Chupakhin, associate professor of PSC Institute of Medicine and Life Sciences at Immanuel Kant Baltic Federal University.

The results of the work have already attracted the interest of the industry. For example, only one company, Varseas, produces collagen of the described type in Russia.

The study is published in the journal Polymers.

More information: Veronika Anohova et al, The Dosidicus gigas Collagen for Scaffold Preparation and Cell Cultivation: Mechanical and Physicochemical Properties, Morphology, Composition and Cell Viability, Polymers (2023). DOI: 10.3390/polym15051220

Provided by Russian Foundation for Basic Research

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A protein extracted from squid may help increase tissue growth for regenerative medicine - Phys.org

Canadian scientists discovered stem cells now give them the tools to end diabetes – Toronto Star

Our health care system is struggling with challenges in funding, staffing and the deep scars left by the coronavirus pandemic. But Canada is also leading the world in research for the chronic diseases that put the most pressure on our health care system.

Canada has the ability and talent to launch the moon shots that lead to next-generation treatments utilizing stem cell and gene therapy or regenerative medicine. We just need the ambition to do it. The reality today is Canada lags behind other nations in translating research success into health innovation, as was acknowledged recently by the federal governments Advisory Panel on the Federal Research Support System. Its time to address the obstacles in the way.

Advanced medical research in Canada is making dramatic progress with discoveries that have the potential to heal damaged organs, reverse the effects of chronic conditions and create economic growth. Policymakers and government officials should support and fund life-science innovations so the benefits of our discoveries are realized here and take pressure off our health care system. This means following through on targeted medical research until advanced therapies are ready to benefit patients in large numbers.

For example, Canadian researchers have discovery projects underway with the potential to cure Type 1 diabetes, which requires patients to regularly inject insulin. A broad network of research and innovation experts are working to improve the function of insulin-producing stem cells that can be transplanted into diabetes patients in a project led by the University of Torontos Medicine by Design and UHNs McEwen Stem Cell Institute. Its a transformative therapy that could make certain types of diabetes curable rather than a lifelong condition. Once realized, these new therapies can free up health care resources for other ailments.

This project, among others at Medicine by Design, is made possible by the federal governments $114-million grant from the Canada First Research Excellence Fund in 2016. It has produced positive results toward the goal of ending diabetes, but its funding is based on a date on the calendar and its due to end this year.

Our goal for a diabetes cure should be on par with other big societal challenges like climate change. But there is a lack of funding and policy support to take our best research discoveries and provide them with the resources to get homegrown treatments into the clinic faster.

Click to expand

Projects on track to be successful are often stymied when their funding expires. When that happens, these projects and the research talent behind them may relocate to other countries. So Canada starts the research with heavy taxpayer investment, but often loses out on the economic benefits flowing from the breakthroughs.

We must provide a complete path for promising discoveries. That means providing resources for taking projects all the way to scaleup, regulatory approval and the clinic. As outlined by the advisory panel, increased investment in world-leading discovery research is essential to ensure a pipeline of new opportunities. But we also need a strategic approach to support promising scientific discoveries based on reaching ambitious targets.

What does success look like? New made-in-Canada advances will keep more people out of hospital. Patients whose treatment options are now limited will have a much higher quality of life. And long-term economic growth and high-paying career opportunities in life science and biomanufacturing, two important sectors of the global innovation economy.

Regenerative medicine can help reinvent a health-care system where common diseases and chronic treatments are a thing of the past, or require much less medical care. Canada can be a world leader in exporting these advances.

The missing ingredients are a strategic framework, research funding that targets innovation goals and the ambition to launch medical research moon shots.

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Canadian scientists discovered stem cells now give them the tools to end diabetes - Toronto Star

Opinion | This Could Be One of the Most Brazen Attacks on … – The New York Times

In their zeal to continue upending abortion access after the overturning of Roe v. Wade, legislators, activists and litigants have pushed increasingly extreme measures that disregard medical science, insert government into the exam room and increase the odds of maternal deaths. Not satisfied with banning abortion in their home states, some lawmakers are trying to restrict access in other states as well a chilling attempt to intimidate patients and physicians alike.

Against this backdrop, the Supreme Court faces a decision that lays bare the threat to facts, evidence and the health of Americas patients. The case, Alliance for Hippocratic Medicine v. F.D.A. in which anti-abortion organizations and doctors who have never prescribed the pill mifepristone argue, absurdly, that 23 years ago the F.D.A. did not follow proper protocol in approving it as part of a two-drug regimen for abortion is one of the most brazen attacks yet against reproductive health. If the lower courts rulings on mifepristone are not reversed entirely, it could also upend the Food and Drug Administrations drug regulatory process. This would throw our health care system into chaos in ways that extend far beyond the specific fight over mifepristone, a highly effective drug that has been used safely by millions of patients for medication abortions and for miscarriage care for more than two decades.

In seeking to restrict access to abortion across the United States, the plaintiffs in this case have, intentionally or not, seriously jeopardized our nations 85-year-old drug regulatory system. We must be cleareyed; upholding any parts of the district courts dangerous ruling would in all likelihood almost immediately prompt challenges to other longstanding safe and effective F.D.A.-approved drugs that doctors and patients rely on every day.

After three years of politicization fueled by disinformation, this would surely include challenges to many vaccines, including those that reduce the risks of serious illness from Covid-19. We should expect lawsuits against common types of safe and highly effective hormonal birth control, including emergency contraception. Also at risk: drugs used to treat cancer and arthritis that can incidentally affect unexpected pregnancies, drugs to prevent or treat H.I.V., and medications aimed at providing gender-affirming care.

The threat may ultimately include promising drugs and treatments built around stem cell technology to treat Parkinsons, Alzheimers, multiple sclerosis or even more common types of chronic disease, such as diabetes. With ever-growing anti-science aggression, disinformation campaigns and vitriol about all types of medical advancements, there is no telling where the court challenges may lead perhaps even to widely used drugs now sold over the counter to treat pain, allergies or heartburn that happen to have been studied with fetal stem cells.

This would represent a dangerous and reckless step backward for our country. More people would live sicker, suffer more and die younger while the scientifically proven safe and effective drugs they need remain locked away.

We simply cannot be a country where your access to the care you need is determined by the whims of ideologically driven judges and lawmakers without medical or scientific training. Thats why a dozen of the nations leading medical organizations, including the one I head, the American Medical Association, strongly oppose this politically motivated assault on patient and physician autonomy and have filed amicus briefs to make our case.

We cannot allow pseudoscience and speculation to override the substantial weight of scientific evidence from more than 100 studies and millions of patients that confirm the safety and efficacy of a drug or course of treatment.

The legal challenge to mifepristone threatens grave harm to our patients, public health and the shared decision-making at the core of the physician-patient relationship. But there are even broader implications of this case: the integrity of the long-established F.D.A.-approval process and whether we want science or ideologues informing decisions about our individual and collective health.

Jack Resneck Jr. (@JackResneckMD), a physician at the University of California, San Francisco, is president of the American Medical Association.

Source photograph by James Worrell/Time & Life Pictures, via Shutterstock.

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Opinion | This Could Be One of the Most Brazen Attacks on ... - The New York Times