Category Archives: Embryonic Stem Cells


Explore the Mice Model Market: CRISPR As a Powerful Tool in the Field of BioMedical Research – WhaTech Technology and Markets News

[269 Pages Report] Mice Model Market report categorizes the Global market by Type (Inbred, Knockout, Hybrid), Technology (CRISPR, Microinjection), Application (Oncology, Diabetes), Service (Breeding, Quarantine, Genetic testing) & Care Products (Bedding, Feed) & Geography. COVID-19 impact on Mice Model Industry.

MarketsandMarkets forecaststhemice model marketto grow from USD 1.11 billion in 2016 to USD 1.59 billion by 2021, at a Compound Annual Growth Rate (CAGR) of 7.5%during the forecast period. The growth of the market can be attributed to ongoing innovations in mice models, continuous support in the form of investments and grants, and growing demand for humanized mice models.

By Technology, the CRISPR technology segment to account for the largest share of the global mice model market in 2016

Based on technology, the market is segmented into CRISPR/Cas9, microinjection, embryonic stem cell injection, nuclear transfer, and other technologies. The CRISPR technology accounts for the largest share of the global mice model market in 2016.

The large share of this segment can primarily be attributed to the fact that CRISPR is the most widely used technique due to the various advantages associated with it, such as ease of design, high efficiency, and relatively low cost.

Emergence of CRISPR as a powerful tool in the field of biomedical research

CRISPR (clustered, regularly interspaced, short palindromic repeat) is seen as a revolutionary technology for gene editing. The use of Cas9 enzyme differentiates CRISPR from other forms of genetic modification.

This technology edits and rearranges genes by cutting out damaged or unwanted parts of the DNA, allowing the remaining DNA to be rearranged in a new way.

Moreover, this fast, precise, and easy-to-use technology is considered as a revolutionary tool in research, and there is an intense interest to validate its therapeutic usage in humans.

CRISPR was first shown to work in mouse and human cells less than three years ago and has already been applied to a range of biological systems and disease areas. CRISPR is used in the development of genetically modified mice strains, making the process not only quicker but also less expensive.

Thus, the emergence of CRISPR as a popular technology is expected to offer potential growth opportunities in the coming years.

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North America to account for the largest market size during the forecast period.

North America is accounted for the largest share of the market. North Americas leadership in the market can be attributed to the increased focus on biomedical research in the U.S., rising demands for monoclonal antibody production, nexus between CROs and pharmaceutical companies, continued and responsible use of animals ensured by animal care organizations, rising preclinical activities by CROs and pharmaceutical companies, and growing stem cell research in Canada.

Asia Pacific is the third-largest market for mice model market and is slated to register the highest CAGR of 7.9% during the forecast period. The high growth in the region can be attributed to less stringent regulations on the use of animal models for research in the region, international alliances for R&D activities in China, growth in regenerative medicine, biomedical, and medical research in Japan, growing presence of global players, development of bioclusters to boost the biotechnology industry in India, ongoing biomedical research activities in Australia, and rising pharmaceutical & biotechnology R&D activities.

Key Market Players

Charles River Laboratories International, Inc. (U.S.), The Jackson Laboratory (U.S.), Taconic Biosciences, Inc.(U.S.), TRANS GENIC Inc. (Japan), Horizon Discovery Group plc (U.S.), Envigo (U.K.), Laboratory Corporation of America Holdings (U.S.), and genOway (France).

Charles River Laboratories is a leading player in the global mice models and services market. The mice models offered by the company include inbred, outbred, hybrid, immunodeficient, congenic, and genetically engineered mice.

The company also offers mice modeling services such as surgical services for rodents, genetic testing services, colony management services, and health monitoring services. The strong portfolio enables the company to increase collaboration with clientsfrom early lead generation to candidate selection.

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Human Embryonic Stem Cells Market Size Detailed Analysis …

The MarketWatch News Department was not involved in the creation of this content.

Jun 08, 2020 (Market Insight Reports) --Selbyville, Delaware, Global Human Embryonic Stem Cells Market Report added at Market Study Report LLC offers industry size, share, growth, trends and forecast analysis up to 2026. Human Embryonic Stem Cells Market Report also covers top key players, porters five forces analysis and market segmentation in detail. This report examines the global Human Embryonic Stem Cells market and provides information regarding the revenue for the period 2020 to 2026.

Due to COVID-19 pandemic, the market is facing challenges because of government protocols to stay at home across the world. Human Embryonic Stem Cells (hESCs) are derived from blastocyst and are capable of differentiating into number of cell types that make up the human body as well as it replicates indefinitely and produce non-regenerative tissues such as neural and myocardial cells.

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They are used in treating a number of blood and genetic disorders related to the immune system, cancers, and disorders as well as used in investigational studies of early human development, genetic diseases and toxicology testing. The technological advancement involving stem cells therapy, rising demand for regenerative medicines, R&D in toxicology testing, technological advancements for the production of embryonic stem cells through alternative methods and increasing prevalence of genetic disorders are the few factors responsible for growth of the market over the forecast period.

Furthermore, the introduction of innovative products and other strategic advancements by market players will create lucrative opportunities for the market. For instance, as per company's news release in January 2019, Stemcell Technologies Inc. launched mTeSR(TM) Plus, an enhanced version of mTeSR(TM)1. mTeSR(TM) Plus is the stabilized feeder-free maintenance medium for human embryonic stem (ES) and induced pluripotent stem (iPS) cells. However, ethical concern related to stem cell research is the major factor restraining the growth of global Vegetable Chips market during the forecast period.

Major market player included in this report are:

The regional analysis of global Human Embryonic Stem Cells market is considered for the key regions such as Asia Pacific, North America, Europe, Latin America and Rest of the World. Asia Pacific is the leading/significant region across the world due to the presence of several prominent entities incorporated in the U.S. Whereas, Asia-Pacific is also anticipated to exhibit highest growth rate / CAGR over the forecast period 2020-2026.

The objective of the study is to define market sizes of different segments & countries in recent years and to forecast the values to the coming eight years. The report is designed to incorporate both qualitative and quantitative aspects of the industry within each of the regions and countries involved in the study. Furthermore, the report also caters the detailed information about the crucial aspects such as driving factors & challenges which will define the future growth of the market. Additionally, the report shall also incorporate available opportunities in micro markets for stakeholders to invest along with the detailed analysis of competitive landscape and product offerings of key players.

By Region:

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Global Human Embryonic Stem Cells (HESC) Market Size, Status and Forecast 2025

This report studies the global Human Embryonic Stem Cells (HESC) market size, industry status and forecast, competition landscape and growth opportunity. This research report categorizes the global Human Embryonic Stem Cells (HESC) market by companies, region, type and end-use industry.

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Science News Roundup: Tiny 13,500-year-old bird statuette shows origins of Chinese art; World’s largest green turtle colony nearly twice as big as…

Following is a summary of current science news briefs.

Tiny 13,500-year-old bird statuette shows origins of Chinese art

A tiny statuette of a bird carved from the burnt bone about 13,500 years ago reveals the origins of Chinese art, embodying a style different from prehistoric three-dimensional artwork by people in other parts of the world, researchers said on Wednesday. The figurine, found at a site called Lingjing in Henan Province in central China, depicts a standing bird on a pedestal and was crafted using stone tools employing four sculpting methods - abrasion, gouging, scraping, and incision, the researchers said.

World's largest green turtle colony nearly twice as big as thought

The world's largest population of nesting green turtles is nearly twice as big as previously thought, scientists said on Wednesday, after drones enabled better surveys of the animals. Australian scientists determined that there were about 64,000 green turtles waiting to lay eggs on Raine Island - a vegetated coral cay on the outer edges of the Great Barrier Reef - significantly more than thought.

China set to complete Beidou network rivalling GPS in global navigation

The Chinese Beidou navigation network will be complete this month when its final satellite goes into orbit, giving China greater independence from U.S.-owned GPS and heating up competition in a sector long dominated by the United States. The idea to develop Beidou, or the Big Dipper in Chinese, took shape in the 1990s as the military sought to reduce reliance on the Global Positioning System (GPS) run by the U.S. Air Force.

Scientists create embryo-like research model from human stem cells

Scientists have used human embryonic stem cells to create an embryo-like research model to help them study some of the earliest stages of human development. The model overcomes some of the ethical restrictions on using human embryos for research and will allow scientists to study a period of human development known as the "black box" period, which they say has never been directly observed before.

Researchers in Chile unearth 74 million year old mammal teeth

Chilean and Argentine researchers have unearthed teeth in far-flung Patagonia belonging to a mammal that lived 74 million years ago, the oldest such remains yet discovered in the South American country, the Chilean Antarctic Institute reported on Thursday. Scientists uncovered the tiny teeth, which belonged to a species called Magallanodon baikashkenke, on a dig near Torres del Paine National Park, a remote area of Patagonia famous for its glacier-capped Andean spires and frigid ocean waters.

Ground-penetrating radar reveals splendor of ancient Roman city

In a glimpse into the future of archeology, researchers have used ground-penetrating radar to map an entire ancient Roman city, detecting remarkable details of buildings still deep underground including a temple and a unique public monument. The technology was used at Falerii Novi, a walled city spanning 75 acres (30.5 hectares) about 30 miles (50 km) north of Rome, researchers said on Monday.

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Science News Roundup: Tiny 13,500-year-old bird statuette shows origins of Chinese art; World's largest green turtle colony nearly twice as big as...

Sales Revenue of Adipose Tissue-derived Stem Cells to Increase in Coming 10 years on Back of Rapid Adoption Across Major Industries Medic Report -…

Adipose tissue is rich in multi potent stem cells that have the capability to differentiate into a number of cell types including adipocytes, osteocytes, chondrocytes and others, in vitro. These Adipose Tissue-derived Stem Cells are used for a number of applications including stem cell differentiation studies, regenerative medicine, cell therapy, tissue engineering and development of induced pluripotent stem cell lineage. Adult stem cells such as the Adipose Tissue-derived Stem Cells have a very good potential for regenerative medicine. The Adipose Tissue-derived Stem Cells show higher yields compared with other stem cell sources. Some of the regenerative medicine applications using Adipose Tissue-derived Stem Cells include skin, bone and cartilage regeneration.

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Although, Adipose Tissue-derived Stem Cells have the ability to differentiate into different cell types in vitro, unlike the embryonic stem cells they lack the ability to differentiate into all types of organs and tissues of the body. Derivation of stem cells from adipose tissue have a number of advantages including that fat tissue contain 100 to 1000 times more mesenchymal stem cells than the bone marrow. Furthermore the method of collection of fat tissue is relatively easier and is less invasive than that of bone marrow collection. Although Adipose Tissue-derived Stem Cells have a potential to be used in cell-based therapy, there are a number of challenges the Adipose Tissue-derived Stem Cells market has to face. Some of the challenge include the safety issue for the clinical use of Adipose Tissue-derived Stem Cells, development and differentiation of the cells, delivery of the cells in vivo and immune response after the transplant.

The global Adipose Tissue-derived Stem Cells market is segmented based on product type and end user. Based on product type the Adipose Tissue-derived Stem Cells can be categorized into cell line and reagent & kits. Cell line can be further classified based on the source of the adipose tissue such as human and rodents. Based on reagents the Adipose Tissue-derived Stem Cells market is further classified as media & sera and kits. Based on application the Adipose Tissue-derived Stem Cells market is classified into regenerative medicine, cell therapy, tissue engineering, and other applications such as cell differentiation studies and other similar research. End users of Adipose Tissue-derived Stem Cells market are biotechnology companies and academic and research institutes.

The Global Adipose Tissue-derived Stem Cells market is classified on the basis of product type, end user and region:

Based on the Product Type, Adipose Tissue-derived Stem Cells market is segmented into following:

Based on the application, Adipose Tissue-derived Stem Cells market is segmented into following:

Based on the end user, Adipose Tissue-derived Stem Cells market is segment as below:

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Growing research activities using stem cells along with the growth of regenerative medicine and cell therapy the global Adipose Tissue-derived Stem Cells market is set to expand considerably during the forecast period. However, ethical concerns and stringent regulations may hinder the growth of the global Adipose Tissue-derived Stem Cells market.

On the basis of geography, global Adipose Tissue-derived Stem Cells market is segmented into six major regions that include North America, Latin America, Europe, Asia-Pacific excluding China, China and Middle East & Africa. North America is expected to be the most lucrative Adipose Tissue-derived Stem Cells market owing to increased research activity of stem cells. Furthermore government support for regenerative and stem cell based studies along with cell therapy studies is driving the growth of the Adipose Tissue-derived Stem Cells market in the region. Changing government regulations in china is supporting the research activity that supports the growth of the adipose tissue-derived stem cell market in the region at a considerable rate.

Key participants operating in the Adipose Tissue-derived Stem Cells market are: Lonza, ThermoFisher Scientific, Celprogen, Inc, American CryoStem, Rexgenero Ltd, iXCells Biotechnologies, Merck KGaA, Lifeline Cell Technology, and others.

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Sales Revenue of Adipose Tissue-derived Stem Cells to Increase in Coming 10 years on Back of Rapid Adoption Across Major Industries Medic Report -...

Global Stem Cells Market 2020 (COVID-19) Impact Analysis: Business Trends, Growth Insight, Statistics And Forecast to 2025 – Surfacing Magazine

Global Stem Cells Market Growth (Status and Outlook) 2020-2025 published by MarketandResearch.biz presents immense clarity on the market size, share, and growth rate across different regions. The report is a comprehensive representation of the global Stem Cells market area through research, development, and analysis of information collected from different sources. The report covers the present scenario, the growth prospects, and enlists several important factors related to the market. It also covers the product contributions, revenue segmentation, and business overview of the leading players in the market. In the present day, the market is experiencing a massive growth velocity. The document offers an assessment of future trends and future changes in the market in 2020.

NOTE: Our analysts monitoring the situation across the globe explains that the market will generate remunerative prospects for producers post COVID-19 crisis. The report aims to provide an additional illustration of the latest scenario, economic slowdown, and COVID-19 impact on the overall industry.

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The data regarding the financial dynamic, business ups and downs, product demands, product sales, global market statistics, market growth enhancers, and others are delivered with an in-depth format. Then it incorporates key aspects related to the global Stem Cells industry driving factors, opportunities, challenges, market threats, restraints, new product launch, geographical analysis, and competitive tactics designed by key players in the market. Later on, the report features capital requirements, region classes, application, sales, and earnings, analysis on market competition, regional analysis, and market demand. It contains segmentation based on the type of product, application of the product, and the key geographical region supplying the product.

Key companies are focusing on organic growth strategies such as product launches, product approvals, and others such as patents and events. Below mentioned is the list of few companies engaged in the market: CCBC, Vcanbio, Beikebiotech, Boyalife.

This report studies the global market analyzes and researches the development status and forecast in Americas (United States, Canada, Mexico, Brazil), APAC (China, Japan, Korea, Southeast Asia, India, Australia), Europe (Germany, France, UK, Italy, Russia), Middle East & Africa (Egypt, South Africa, Israel, Turkey, GCC Countries).

Market analysis by type: Umbilical Cord Blood Stem Cell, Embryonic Stem Cell, Adult Stem Cell, Other

Market analysis by application: Diseases Therapy, Healthcare,

Moreover, the report includes an analysis of the Stem Cells consumption of each region studied in the report on the basis of country, type, and application. There are different players of the global market profiled in this section of the report. Additionally, all of the players are analyzed considering their recent developments, products, revenue, and company details. Later, production and production value estimates by type, estimates of key producers, and production and production volume estimates by region added in the research report.

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All The Segments In This Report Are Structured On The Basis of The Following:

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Microglia: the brains ‘immune cells’ protect against diseases but they can also cause them – The Conversation UK

We know that the bodys immune system is important for keeping everything in check and protecting us. But a lot of us dont realise that the brain also has an immune system.

Microglia, which are the brains immune system cells, are involved in everything from brain development to protecting against diseases such as meningitis and Alzheimers. But for all the good these cells do for us, under the wrong conditions they can also cause us harm.

Microglia belong to a group of non-neuronal cells called glia, which originally were thought to play a supportive role for the brains neurons. Now research shows that microglia actually do much more than only support the neurons: they nourish, protect and sometimes even destroy them.

These cells are unique because they come from the same place as other immune system cells, but have a different origin from other brain cells, which develop from neural stem cells. Microglia come from the yolk sac an extra embryonic membrane and travel to the brain early during its development.

Once established, microglia perform numerous functions. They help neurons connect, clean the brain of waste and dead or injured cells, constantly check everything is in order, and defend the brain from external threats (such as microbes), and internal threats including misfolded proteins (when a protein takes on the wrong form, which can cause disease). Their ability to change physical form and behaviour in response to their environment allows them to perform these many roles.

Microglial functions are especially crucial during brain development, when they help young neurons grow, and ensure the right connections are made between neurons. Through a procedure called pruning, microglia eat connections between neurons, maintaining strong ones while eliminating weaker or unnecessary ones. This continues somewhat during adulthood. For example, microglia remove unimportant memories by eating or altering synapses involved in their maintenance.

Faulty pruning during brain development has been linked with disorders such as schizophrenia and autism. But uncontrollable pruning by microglia in adulthood has been implicated in developing diseases such as Alzheimers.

Microglia have specific receptors on their surface which recognise distress signals from other cells. These signals attract microglia to the site of the problem. When the brains balance is disturbed (usually as a result of inflammation), living neurons can become stressed and produce these signals. This may cause them to be eaten alive by microglia. As neurons are killed, the connections they have with other neurons are also eliminated, which can cause severe issues in brain connectivity and functions.

Inflammation in the brain can be caused by stress, pathogens, and auto-immune conditions, and is also connected to inflammation in other parts of the body. Brain inflammation is common in neurodegenerative diseases, as well as mental health disorders, including depression.

Inflammation causes microglia to change roles, and turn into their aggressive form to defend the brain. Usually, when stress signals stop and anti-inflammatory signals are received, microglia go back to first repairing, then protecting the brain.

But there are cases, such as with chronic stress, ageing and neurodegenerative disorders, where microglia can become more aggressive and less easy to regulate, making them more dangerous for the brain. In these cases, microglia can increase in numbers, unnecessarily kill nearby cells, and may contribute to making the brain even more inflamed by secreting inflammatory molecules. They also dont go back to their protective role easily.

But there are many things we can do to keep our microglia happy and our brains healthy such as:

Maintain a healthy diet: Compounds found in fruits, vegetables, and healthy fats, can keep your microglia young, and shift them towards an anti-inflammatory form.

Keep your gut bacteria happy: The brain and the gut are connected by the vagus nerve, so microbes living in our gut have a large effect on the brain. These microorganisms are involved in the development, maintenance, and overall health of microglia.

Avoid alcohol and smoking: Alcohol causes brain damage. A recent study found that one of the ways it does so is by activating the microglias inflammatory response. Research shows this activation is also induced by a specific compound found in cigarette smoke.

Sleep: Microglia never sleep, but they clean and repair the brain and improve memory while you do. Lack of sleep, however, has also been shown to make microglia take on their inflammatory form.

Take care of your mental health: Microglia can sense stress, and they respond to it by turning into their inflammatory form. This form is present in numerous neuropsychiatric disorders, and also in some cases mental health issues (such as depression) that precede neurodegenerative disorders.

It has also been shown that anti-inflammatory treatment can help with managing the symptoms of psychiatric disorders, and that some medications used for the treatment of mental health issues have an anti-inflammatory element. Antidepressants have also been shown to directly regulate microglia responses.

Exercise: A recent review found exercise directly affects microglia, and shifts them towards having a protective form. Exercising the brain has also been shown to train microglia to resist Alzheimers disease.

Although we know some things about microglia, we dont know everything. We know some things about how they form, that theyre involved in many diseases, and that they might essentially control the brain. But we also know we cant control them. Future research might focus on how we can stop microglia from causing diseases, and how to stop these cells from turning against the brain.

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Microglia: the brains 'immune cells' protect against diseases but they can also cause them - The Conversation UK

1st transplant using liver cells from embryonic stem cells conducted on baby in Japan – The Mainichi

This photo provided by the National Center for Child Health and Development shows liver cells produced from embryonic stem cells.This photo provided by the National Center for Child Health and Development shows human embryonic stem cells.

The National Center for Child Health and Development in Tokyo announced it has successfully conducted a clinical trial to transplant liver cells created from human embryonic stem cells into a baby with a serious liver condition.

It is the first clinical trial in Japan to use human embryonic stem cells, and is also believed to be the first case in the world of liver cells produced from embryonic stem cells being transplanted into a person.

The baby that received the transplant had hyperammonemia, a condition in which an abnormality in the natural urea cycle prevents toxic ammonia from being broken down in the liver. The abnormality is said to be prevalent in between one in 8,000 and one in 44,000 people.

In serious cases a liver transplant is required to treat it, but newborns have a high risk of experiencing major side effects. As a result, transplants cannot be conducted safely until several months after birth, when the baby weighs 6 kilograms or more.

In Europe and North America, doctors have utilized translational medicine, in which normally functioning liver cells are transplanted into newborns, to keep the liver functioning until an organ transplant can be carried out. In Japan, the National Center for Child Health and Development has previously transplanted liver cells from living donors into newborns with the condition soon after birth, but it has had difficulty in steadily securing liver cells.

Because of this, the center drew up plans to create liver cells from embryonic stem cells and transplant them. Over a period of two days in October 2019, it injected about 190 million liver cells into blood vessels in the umbilical cord of a 6-day-old newborn with hyperammonemia. The ammonia concentration in the infant's blood then stopped rising, enabling researchers to confirm that the liver cells had reached the newborn's liver, and the baby was temporarily discharged from the hospital.

Five months later, when the baby weighed 7 kilograms, a living donor liver transplant was carried out with the baby's father serving as the donor. The baby was again able to be discharged from the hospital in late April.

The center has received approval from the national government to use liver cells derived from embryonic stem cells in regenerative medicine, and plans to transplant them into several people subject to clinical trials in the future.

Center official Mureo Kasahara of the national center's organ transplant center commented, "It was often the case that babies with this condition died from seizures or suffered brain damage before the liver transplant could take place. The latest case is hugely significant in that we have proved the effectiveness of the method."

(Japanese original by Ayumu Iwasaki, Science & Environment News Department)

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1st transplant using liver cells from embryonic stem cells conducted on baby in Japan - The Mainichi

Global Stem Cell Reconstructive Market- Industry Analysis and Forecast… – Azizsalon News

Global Stem Cell Reconstructive Marketwas valued US$ XX Mn in 2019 and is expected to reach US$ XX Mn by 2027, at a CAGR of 24.5% during a forecast period.

Market Dynamics

The Research Report gives an in-depth account of the drivers and restraints in the stem cell reconstructive market. Stem cell reconstructive surgery includes the treatment of injured or dented part of body. Stem cells are undifferentiated biological cells, which divide to produce more stem cells. Growing reconstructive surgeries led by the rising number of limbs elimination and implants and accidents are boosting the growth in the stem cell reconstructive market. Additionally, rising number of aged population, number of patients suffering from chronic diseases, and unceasing development in the technology, these are factors which promoting the growth of the stem cell reconstructive market. Stem cell reconstructive is a procedure containing the use of a patients own adipose tissue to rise the fat volume in the area of reconstruction and therefore helping 3Dimentional reconstruction in patients who have experienced a trauma or in a post-surgical event such as a mastectomy or lumpectomy, brain surgery, or reconstructive surgery as a result of an accident or injury. Stem cell reconstructive surgeries are also used in plastic or cosmetic surgeries as well. Stem cell and regenerative therapies gives many opportunities for development in the practice of medicine and the possibility of an array of novel treatment options for patients experiencing a variety of symptoms and conditions. Stem cell therapy, also recognised as regenerative medicine, promotes the repair response of diseased, dysfunctional or injured tissue using stem cells or their derivatives.

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The common guarantee of all the undifferentiated embryonic stem cells (ESCs), foetal, amniotic, UCB, and adult stem cell types is their indefinite self-renewal capacity and high multilineage differentiation potential that confer them a primitive and dynamic role throughout the developmental process and the lifespan in adult mammal.However, the high expenditure of stem cell reconstructive surgeries and strict regulatory approvals are restraining the market growth.

The report study has analyzed revenue impact of covid-19 pandemic on the sales revenue of market leaders, market followers and disrupters in the report and same is reflected in our analysis.

Global Stem Cell Reconstructive Market Segment analysis

Based on Cell Type, the embryonic stem cells segment is expected to grow at a CAGR of XX% during the forecast period. Embryonic stem cells (ESCs), derived from the blastocyst stage of early mammalian embryos, are distinguished by their capability to distinguish into any embryonic cell type and by their ability to self-renew. Owing to their plasticity and potentially limitless capacity for self-renewal, embryonic stem cell therapies have been suggested for regenerative medicine and tissue replacement after injury or disease. Additionally, their potential in regenerative medicine, embryonic stem cells provide a possible another source of tissue/organs which serves as a possible solution to the donor shortage dilemma. Researchers have differentiated ESCs into dopamine-producing cells with the hope that these neurons could be used in the treatment of Parkinsons disease. Upsurge occurrence of cardiac and malignant diseases is promoting the segment growth. Rapid developments in this vertical contain protocols for directed differentiation, defined culture systems, demonstration of applications in drug screening, establishment of several disease models, and evaluation of therapeutic potential in treating incurable diseases.

Global Stem Cell Reconstructive Market Regional analysis

The North American region has dominated the market with US$ XX Mn. America accounts for the largest and fastest-growing market of stem cell reconstructive because of the huge patient population and well-built healthcare sector. Americas stem cell reconstructive market is segmented into two major regions such as North America and South America. More than 80% of the market is shared by North America due to the presence of the US and Canada.

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Europe accounts for the second-largest market which is followed by the Asia Pacific. Germany and UK account for the major share in the European market due to government support for research and development, well-developed technology and high healthcare expenditure have fuelled the growth of the market. This growing occurrence of cancer and diabetes in America is the main boosting factor for the growth of this market.

The objective of the report is to present a comprehensive analysis of the Global Stem Cell Reconstructive Market including all the stakeholders of the industry. The past and current status of the industry with forecasted market size and trends are presented in the report with the analysis of complicated data in simple language. The report covers all the aspects of the industry with a dedicated study of key players that includes market leaders, followers and new entrants. PORTER, SVOR, PESTEL analysis with the potential impact of micro-economic factors of the market has been presented in the report. External as well as internal factors that are supposed to affect the business positively or negatively have been analysed, which will give a clear futuristic view of the industry to the decision-makers.

The report also helps in understanding Global Stem Cell Reconstructive Market dynamics, structure by analysing the market segments and projects the Global Stem Cell Reconstructive Market size. Clear representation of competitive analysis of key players by Application, price, financial position, Product portfolio, growth strategies, and regional presence in the Global Stem Cell Reconstructive Market make the report investors guide.Scope of the Global Stem Cell Reconstructive Market

Global Stem Cell Reconstructive Market, By Sources

Allogeneic Autologouso Bone Marrowo Adipose Tissueo Blood Syngeneic OtherGlobal Stem Cell Reconstructive Market, By Cell Type

Embryonic Stem Cell Adult Stem CellGlobal Stem Cell Reconstructive Market, By Application

Cancer Diabetes Traumatic Skin Defect Severe Burn OtherGlobal Stem Cell Reconstructive Market, By End-User

Hospitals Research Institute OthersGlobal Stem Cell Reconstructive Market, By Regions

North America Europe Asia-Pacific South America Middle East and Africa (MEA)Key Players operating the Global Stem Cell Reconstructive Market

Osiris Therapeutics NuVasives Cytori Therapeutics Takeda (TiGenix) Cynata Celyad Medi-post Anterogen Molmed Baxter Eleveflow Mesoblast Ltd. Micronit Microfluidics TAKARA BIO INC. Tigenix Capricor Therapeutics Astellas Pharma US, Inc. Pfizer Inc. STEMCELL Technologies Inc.

MAJOR TOC OF THE REPORT

Chapter One: Stem Cell Reconstructive Market Overview

Chapter Two: Manufacturers Profiles

Chapter Three: Global Stem Cell Reconstructive Market Competition, by Players

Chapter Four: Global Stem Cell Reconstructive Market Size by Regions

Chapter Five: North America Stem Cell Reconstructive Revenue by Countries

Chapter Six: Europe Stem Cell Reconstructive Revenue by Countries

Chapter Seven: Asia-Pacific Stem Cell Reconstructive Revenue by Countries

Chapter Eight: South America Stem Cell Reconstructive Revenue by Countries

Chapter Nine: Middle East and Africa Revenue Stem Cell Reconstructive by Countries

Chapter Ten: Global Stem Cell Reconstructive Market Segment by Type

Chapter Eleven: Global Stem Cell Reconstructive Market Segment by Application

Chapter Twelve: Global Stem Cell Reconstructive Market Size Forecast (2019-2026)

Browse Full Report with Facts and Figures of Stem Cell Reconstructive Market Report at:https://www.maximizemarketresearch.com/market-report/global-stem-cell-reconstructive-market/54666/

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Global Stem Cell Reconstructive Market- Industry Analysis and Forecast... - Azizsalon News

Anti-Aging: HGH Can Reduce Biological Age by One Year and a Half Study Shows – Gilmore Health News

Researchers have been able to reduce the biological age of nine people by administering synthetic growth hormone injections (HGH) for 12 months.

HGH Injections

A lot of research is being done around the world to rejuvenate body cells and slow down the aging process. One of them, published in the journal Cell Aging, suggests that a persons biological clock can be set back a year and a half. A feat in the race against time.

Read Also: Do HGH Supplements Like Genf20 Plus, GenfX, Hypergh 14X, HGH X2 and Provacyl Work?

Nine healthy men aged 51 to 65 took a synthetic growth hormone (HGH) to stimulate the thymus gland, a small gland located in the upper thorax between the lungs. The thymus gland plays an important role in the immune system, but atrophies with age and loses its effectiveness.

Using blood samples taken before and after the experiment, researchers from the University of California found that the epigenetic age of the participants was reduced by one and a half years in 12 months of treatment. Epigenetics is the study of changes in gene activity: it measures the biological age of a person, i.e. the age of their cells, not their chronological age.

Read Also: Is NAD+ The Anti Aging Substance Mankind Has Been Searching For?

This strongly suggests that their risk of mortality has decreased without us being able to give an accurate estimate of their life expectancy, says Steve Horvath, Professor of Biostatistics and lead author of the study. However, this study, which was conducted only on white males in a single age group, needs to be conducted on a larger sample of people of different ages, ethnicity, and gender. A new trial with 50 participants is planned.

Recently, researchers at Stanford University succeeded in rejuvenating human cells with the help of proteins involved in the early stages of embryonic development and induced pluripotent stem cells, more simply called iPS (for induced pluripotent stem cells).

Read Also: HGH May Help Heal Age-Induced Tissue Damage By Activating Vital Gene

When iPS cells are produced from adult cells, they become younger and pluripotent, said Vittorio Sebastiano, assistant professor at Stanford University. For a while we wondered whether it would not be possible to simply stop the aging clock without inducing pluripotency, i.e. the ability to reproduce. And we succeeded, said the researchers, who were able to rejuvenate the cells of several people.

References

Reversal of epigenetic aging and immunosenescent trends in humans

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Anti-Aging: HGH Can Reduce Biological Age by One Year and a Half Study Shows - Gilmore Health News

Stem Cell Therapy Market by Treatment,Application,End Users and Geography Forecast To… – Azizsalon News

Stem Cell Therapy Marketis expected to reach 202.77 billion by 2026 from XX billion in 2018 at CAGR of XX %.

Stands for use of stem cells to treat or prevent disease or condition.Bone marrow transplant and some therapies derived from umbilical cord blood are mainly used in stem cell therapy. Advancement, in order to establish new sources for stem cells, and to apply stem-cell treatments for neurodegenerative diseases and conditions such as diabetes, heart disease, and other conditions, are increased in recent years.

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The report study has analyzed revenue impact of covid-19 pandemic on the sales revenue of market leaders, market followers and disrupters in the report and same is reflected in our analysis.

Stem Cell Therapy Market Researchers are making efforts to discover novel methods to create human stem cells. This will increase the demand as well as supply for stem cell production and potential investigation in disease management. Increasing investment & research grants for developing safe and effective stem cell therapy products, the growing patient base for target diseases, concentrated product pipelines, increasing approval of the new clinical trials, rapid technological advancement in genomics, and the rising awareness about the stem cell are expected to drive the growth of the Stem Cell Therapy solutions market during the forecast period.

However, improper infrastructure, insufficient storage systems, nascent technology in underdeveloped economies, Ethical issues related to an embryonic stem cell, low patient acceptance rate, Difficulty in the preservation of stem cell are expected to restrain the market growth. North America is expected to be the largest growing region by 2026; the reason behind that is extensive funding by Government. However, Emerging countries like India, china, Korea have low growth rate as compared to Developed regions in 2017 but increase in awareness about stem cell therapy will lead the Asia Pacific to generate a significant level of revenue by 2026.

Key Highlights of Stem Cell Therapy Market report

Detailed quantitative analysis of the current and future trends from 2017 to 2026, which helps to identify the prevailing market opportunities.Comprehensive analysis of factors instrumental in changing the market scenario, rising prospective opportunities, market shares, core competencies in terms of market development, growth strategies and identification of key companies that can influence this market on a global and regional scale.Assessment of Market definition along with the identification of key drivers, restraints opportunities and challenges for this market during the forecast period.Complete analysis of micro-markets with respect to individual growth trends, prospects, and contributions to the overall Stem Cell Therapy Solutions market.Stem Cell Therapy market analysis and comprehensive segmentation with respect to the Application, End users, Treatment, and geography to assist in strategic business planning.Stem Cell Therapy market analysis and forecast for five major geographies-North America, Europe, Asia Pacific, Middle East & Africa, Latin America, and their key regions.For company profiles, 2017 has been considered as the base year. In cases, wherein information was unavailable for the base year, the years prior to it have been considered.

Research Methodology:

The market is estimated by triangulation of data points obtained from various sources and feeding them into a simulation model created individually for each market. The data points are obtained from paid and unpaid sources along with paid primary interviews with key opinion leaders (KOLs) in the market. KOLs from both, demand and supply side were considered while conducting interviews to get an unbiased idea of the market. This exercise was done at a country level to get a fair idea of the market in countries considered for this study. Later this country-specific data was accumulated to come up with regional numbers and then arrive at a global market value for the stem cell therapy market.Key Players in the Stem Cell Therapy Market are:

Chiesi Farmaceutici S.P.A Are:Gamida CellReNeuron Group, plcOsiris Therapeutics, Inc.Stem Cells, Inc.Vericel Corporation.Mesoblast, Ltd.

Key Target Audience:

Stem Cell Associations and OrganizationsGovernment Research Boards and OrganizationsResearch and consulting firmsStem Cell Therapy Market InvestorsHealthcare Service Providers (including Hospitals and Diagnostic Centers)Stem Cell Therapeutic Product Manufacturing OrganizationsResearch LabsClinical research organizations (CROs)Stem Cell Therapy Marketing PlayersPharmaceutical Product Manufacturing Companies

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Scope of the Stem Cell Therapy Market Report:

Stem Cell Therapy market research report categorizes the Stem Cell Therapy market based on Application, End users, Treatment, and geography (region wise). Market size by value is estimated and forecasted with the revenues of leading companies operating in the Stem Cell Therapy market with key developments in companies and market trends.Stem Cell Therapy Market, By Treatments:

Allogeneic Stem Cell TherapyAutologous Stem Cell Therapy

Stem Cell Therapy Market, By End Users:

HospitalsAmbulatory Surgical Centers

Stem Cell Therapy Market, By Application:

OncologyCentral Nervous System DiseasesEye DiseasesMusculoskeletal DiseasesWound & InjuriesMetabolic DisordersCardiovascular DisordersImmune System DisordersStem Cell Therapy Market, By Geography:

North AmericaEuropeAsia PacificMiddle East & AfricaLatin America

MAJOR TOC OF THE REPORT

Chapter One: Stem Cell Therapy Market Overview

Chapter Two: Manufacturers Profiles

Chapter Three: Global Stem Cell Therapy Market Competition, by Players

Chapter Four: Global Stem Cell Therapy Market Size by Regions

Chapter Five: North America Stem Cell Therapy Revenue by Countries

Chapter Six: Europe Stem Cell Therapy Revenue by Countries

Chapter Seven: Asia-Pacific Stem Cell Therapy Revenue by Countries

Chapter Eight: South America Stem Cell Therapy Revenue by Countries

Chapter Nine: Middle East and Africa Revenue Stem Cell Therapy by Countries

Chapter Ten: Global Stem Cell Therapy Market Segment by Type

Chapter Eleven: Global Stem Cell Therapy Market Segment by Application

Chapter Twelve: Global Stem Cell Therapy Market Size Forecast (2019-2026)

Browse Full Report with Facts and Figures of Stem Cell Therapy Market Report at:https://www.maximizemarketresearch.com/market-report/stem-cell-therapy-market/522/

About Us:

Maximize Market Research provides B2B and B2C market research on 20,000 high growth emerging technologies & opportunities in Chemical, Healthcare, Pharmaceuticals, Electronics & Communications, Internet of Things, Food and Beverages, Aerospace and Defense and other manufacturing sectors.

Contact info:

Name: Vikas Godage

Organization: MAXIMIZE MARKET RESEARCH PVT. LTD.

Email: sales@maximizemarketresearch.com

Contact: +919607065656/ +919607195908

Website:www.maximizemarketresearch.com

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Stem Cell Therapy Market by Treatment,Application,End Users and Geography Forecast To... - Azizsalon News