Development of limited, chronic graft-vs-host disease (GVHD) following allogeneic hematopoietic stem cell transplantation (HSCT) was associated with a survival benefit for patients with high-risk myelodysplastic syndrome (MDS), according to results of a retrospective study published in Clinical Cancer Research.1

MDS is a heterogeneous group of clonal hematopoietic stem cell disorders characterized by an inadequate production of normal, mature blood cells in bone marrow.

At the present time, the only curative treatment for patients with MDS is allogeneic HSCT. Although risks associated with this approach include posttransplant relapse, as well as the development of acute and/or chronic GVHD, previous findings from studies of patients with acute leukemia treated with allogeneic HSCT have shown potent graft-vs-tumor effects manifesting as lower mortality in those patients who subsequently experienced chronic GVHD.

The clinical data used in this study were collected from more than 300 HSCT centers throughout Japan by the Japanese Data Center for Hematopoietic Cell Transplantation.

MDS was characterized as low- or high-risk disease according to the

French-American-British or World Health Organization classification schemes, depending on the year of diagnosis.2,3 Consensus criteria were used to assign GVHD severity and distinguish acute and chronic forms of the condition.

Study inclusion criteria dictated patients should be aged 16 through 70 years, had received first allogeneic HSCT between 2001 and 2017, had achieved neutrophil engraftment, and had a follow-up period of over 60 days.

Of the 3119 patients included in this study, 1193 and 1926 were classified as having low- and high-risk disease, respectively. In the overall group, the median patient age was 54 years, more than 90% of patients had an Eastern Cooperative Oncology Group (ECOG) performance status score of 0 or 1, and 85% were diagnosed with de novo disease.

At a median follow-up of 55 months, rates of 5-year overall survival (OS) were 63% and 48% for those with low- and high-risk disease, respectively (P <.001). The cumulative incidence of posttransplantation relapse at 5 years was approximately twice as high for those with high-risk disease (29%) compared with those with low-risk disease (15%; P <.001), although the cumulative incidence of nonrelapse mortality was similar in the 2 groups: 25% (low-risk disease) and 27% (high-risk disease; P =.338).

Multivariate analyses accounting for all confounding variables performed to evaluate these transplant outcomes in patient subgroups defined according to disease risk, as well the severity of GVHD and whether it was classified as acute or chronic, revealed the following:

In summarizing the results of this study, the study authors emphasized that these data demonstrated a survival benet of the graft-versus-MDS effect is present only in high-risk MDS patients with limited chronic GVHD.1

Authors of an accompanying editorial noted that in recent years, the mutational spectrum in MDS has become more associated with clinical phenotype and prognosis, and selection of a patient with MDS for HSCT has begun to incorporate the mutational landscape of the patients disease. Thus, one will have to be cautious in extrapolating the current data to ongoing and future trials, which have begun to incorporate molecular information.4

References

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Survival Benefit of GVHD in MDS Is Limited to Specific Patient Subgroup - Cancer Therapy Advisor

Bone Marrow Stem Cells Comments Off on Survival Benefit of GVHD in MDS Is Limited to Specific Patient Subgroup – Cancer Therapy Advisor | November 5th, 2020

Stem Cell Therapy Market Size And Forecast

A comprehensive overview of the Stem Cell Therapy Market is recently added by Verified Market Research to its humongous database. Furthermore, the Stem Cell Therapy Market report has been aggregated by collecting informative data of various dynamics such as market drivers, restraints, and opportunities. Furthermore, this innovative report makes use of SWOT, PESTLE, and Porters Five Forces analyses to get a closer outlook on the Stem Cell Therapy Market. Furthermore, the Stem Cell Therapy Market report offers a detailed analysis of the latest industry developments and trending factors in the market that are influencing the market growth. Furthermore, this statistical market research repository examines and estimates the Stem Cell Therapy Market at the global and regional levels. The study covers the impact of various drivers and manacles on the Stem Cell Therapy Market growth opportunities over the forecast period.

Impact of Covid-19 :

During the first quarter of 2020, different global economies were badly impacted by a viral outbreak of COVID-19. This viral outbreak of the Covid-19 was later recognized as a global pandemic by the World Health Organization (WHO). COVID-19 spread in different global countries, affecting a large number of people in a short timeframe. The outburst of COVID-19 adversely hit different global economies in the world. The stringent regulations imposed by several governments, including complete lockdown and quarantine methodologies to fight against COVID-19, resulted in a massive impact on various business sectors. We at Verified Market Research offer an informative report on the Stem Cell Therapy Market which helps in making strategic decisions over the forecast period.

Competitive Landscape:

The degree of competition among leading global companies has been elaborated by examining various leading key players operating across the global regions An expert team of research analysts sheds light on various attributes such as -global market competition, market share, latest industry developments, innovative product launches, partnerships, mergers or acquisitions by leading companies in the Stem Cell Therapy Market. The leading manufacturers have been analyzed by using research methodologies for getting insight views on global competition.

Following key players have been profiled with the help of proven research methodologies:

The Stem Cell Therapy Market has been examined into different global market segments such as type, applications and global geographies. Each and every global market segment has been studied to get informative insights into various global regions.

Global Stem Cell Therapy Market Segmentation:

1.Stem Cell Therapy Market, By Cell Source:

Adipose Tissue-Derived Mesenchymal Stem Cells Bone Marrow-Derived Mesenchymal Stem Cells Cord Blood/Embryonic Stem Cells Other Cell Sources

2.Stem Cell Therapy Market, By Therapeutic Application:

Musculoskeletal Disorders Wounds and Injuries Cardiovascular Diseases Surgeries Gastrointestinal Diseases Other Applications

3.Stem Cell Therapy Market, By Type:

Allogeneic Stem Cell Therapy Market, By Application Musculoskeletal Disorders Wounds and Injuries Surgeries Acute Graft-Versus-Host Disease (AGVHD) Other Applications Autologous Stem Cell Therapy Market, By Application Cardiovascular Diseases Wounds and Injuries Gastrointestinal Diseases Other Applications

Global Stem Cell Therapy Market Segment by Global Presence:

North America Latin America Middle East Asia-Pacific Africa Europe

The report has been aggregated by using a couple of research methodologies such as primary and secondary research techniques. It helps in collecting informative pieces of professional information for deriving effective insights into the market. This informative report helps in making well informed and strategic decisions throughout the forecast period.

Key questions answered through this analytical market research report include:

What are the latest trends, new patterns and technological advancements in the Stem Cell Therapy Market? Which factors are influencing the Stem Cell Therapy Market over the forecast period? What are the global challenges, threats and risks in the Stem Cell Therapy Market? Which factors are propelling and restraining the Stem Cell Therapy Market? What are the demanding global regions of the Stem Cell Therapy Market? What will be the global market size over the coming future? What are the different effective business strategies followed by global companies?

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About Us:

Verified Market Research is a leading Global Research and Consulting firm servicing over 5000+ customers. Verified Market Research provides advanced analytical research solutions while offering information enriched research studies. We offer insight into strategic and growth analyses, Data necessary to achieve corporate goals, and critical revenue decisions.

Our 250 Analysts and SMEs offer a high level of expertise in data collection and governance use industrial techniques to collect and analyze data on more than 15,000 high impact and niche markets. 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.

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Stem Cell Therapy Market Size, Key Development Trends, and Growth Projection to 2027 - Stock Market Vista

Bone Marrow Stem Cells Comments Off on Stem Cell Therapy Market Size, Key Development Trends, and Growth Projection to 2027 – Stock Market Vista | November 5th, 2020

The ability to grow and reproduce is a fundamental property of living organisms. Whether an organism is composed of a single cell or trillions of cells, individual cells must be able to grow and divide in an appropriately regulated fashion.

Cell growth is accomplished through the synthesis of new molecules of proteins, nucleic acids, carbohydrates and lipids. As the accumulation of these molecules causes the volume of a cell to increase, the plasma membrane grows to prevent the cell from burst-ing.

But cells cannot continue to enlarge indefinitely; as a cell grows larger, there is an accompanying decrease in its surface area/volume ratio and hence in its capacity for ef-fective exchange with the environment.

Therefore, cell growth is generally accompanied by cell division, whereby one cell gives rise to two new daughter cells (The term daughter is used by convention and does not indicate that cells have gender).

For single-celled organisms, cell division increases the total number of individuals in a population. In multicellular organisms, cell division either increases the number of cells, leading to growth of the or-ganism, or replaces cells that have died. In an adult human, for example, about two million stem cells in bone marrow divide every second to maintain a constant num-ber of red blood cells in the body. When cells grow and divide, the newly formed daugh-ter cells are usually genetic duplicates of the parent cell, containing the same (or virtually the same) DNA sequences.

Therefore, all the genetic information in the nucleus of the parent cell must be duplicated and carefully distributed to the daughter cells during the division process.

In accomplishing this task, a cell passes through a series of discrete stages, collectively known as the cell cycle. The cell cycle begins when two new cells are formed by the division of a single parental cell and ends when one of those cells divides again into two cells.

To early cell biologists studying eukaryotic cells with the mi-croscope, the most dramatic events in the life of a cell were those associated with the point in the cycle when the cell actually divides. This division process, called the M phase, involves two overlapping events in which the nucleus divides first and the cytoplasm second. Nuclear division is called mitosis, and the division of the cytoplasm to pro-duce two daughter cells is termed cytokinesis.

The stars of the mitotic drama are the chromosomes.

The beginning of mitosis is marked by condensation (coiling and folding) of the cells chromatin, which generates chromosomes that are thick enough to be individually discernible under the micro-scope.

Because DNA replication has already taken place, each chromosome actually consists of two chromosome copies that remain attached to each other until the cell divides. As long as they remain attached, the two new chromosomes are referred to as sister chromatids.

As the chromatids become visible, the nuclear envelope breaks into fragments. Then, in a stately ballet guided by the mi-crotubules of the mitotic spindle, the sister chromatids separate and each now a full-fledged chromosome move to opposite ends of the cell.

By this time, cytokinesis has usually begun, and new nuclear membranes envelop the two groups of daughter chromosomes as cell division is completed. While visually striking, the events of the mitotic phase account for a relatively small portion of the total cell cycle; for a typical mammalian cell, the mitotic phase usually lasts less than an hour.

Cells spend the majority of their time in the growth phase between divisions, called interphase. Most cellular contents are synthesised continuously during interphase, so cell mass gradually increases as the cell approaches division.

During interphase the amount of nuclear DNA doubles, and experiments using radioactive DNA precursors have shown that the new DNA is synthesised during a particular portion of interphase named the S phase (S for synthesis). A time gap called G1 phase separates the S phase from the preceding M phase, and a second gap, the G2 phase, separates the end of S phase from the beginning of the next M phase.

Although the cells of a multicellular organism divide at varying rates, most studies of the cell cycle involve cells growing in culture, where the length of the cycle tends to be similar for different cell types. We can easily determine the overall length of the cell cycle the generation time for cultured cells by counting the cells under a microscope and determining how long it takes for the population to double.

In cultured mammalian cells, for example, the total cycle usually takes about 18-24 hours. Once we know the total length of the cycle, it is possible to determine the length of specific phases. To determine the length of the S phase, we can expose cells to a radioactively labelled DNA precursor for a short period of time and then examine the cells by autoradiography.

The fraction of cells with silver grains over their nuclei represents the fraction of cells that were somewhere in S phase when the radioactive compound was available. When we mul-tiply this fraction by the total length of the cell cycle, the result is an estimate of the average length of the S phase.

For mammalian cells in culture, this fraction is often around 0.33, which indicates that S phase is about six to eight hours in length. Similarly, we can estimate the length of the M phase by multiplying the generation time by the percentage of the cells that are actually in mitosis at any given time.

This percentage is called the mitotic index.

The mitotic index for cultured mammalian cells is often about three to five per cent, which means that M phase lasts less than an hour (usually 30-45 minutes). In contrast to the S and M phases, whose lengths tend to be quite similar for different mammalian cells, the length of G1 is quite variable, depending on the cell type. Although a typical G1 phase lasts 8-10 hours, some cells spend only a few minutes or hours in Gl, whereas others are delayed for long periods of time. During Gl, a major decision is made as to whether and when the cell is to divide again. Cells that become arrested in Gl, awaiting for a signal that will trigger re-entry into the cell cycle and a commitment to divide, are said to be in G0 (G zero).

Other cells exit from the cell cycle entirely and undergo terminal differentiation, which means that they are destined never to divide again; most of the nerve cells in our body are in this state. In some cells, a transient arrest of the cell cycle can also occur in G2. In general, however, G2 is shorter than Gl and is more uniform in duration among different cell types, usually lasting 4-6 hours.

The writer is associate professor and head, department of botany, Ananda Mohan College, Kolkata.

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Putting it all together - The Statesman

Bone Marrow Stem Cells Comments Off on Putting it all together – The Statesman | November 5th, 2020

NEW YORK, Nov. 4, 2020 /PRNewswire/ -- Aruvant Sciences, a private company focused on developing gene therapies for rare diseases, announced that an abstract demonstrating clinical benefit of the company's lead product candidate ARU-1801 has been published online and will be the subject of an oral presentation at the 62nd American Society of Hematology (ASH) Annual Meeting and Exposition. The meeting will take place virtually from December 5 to 8. Michael S. Grimley, M.D., Professor of Clinical Pediatrics, Medical Director of the Division of Bone Marrow Transplantation and Immune Deficiency at the Cincinnati Children's Hospital Medical Center, will present the data at 2:15 PM ET on December 7, 2020. Today the abstract was published online and will be published in the upcoming supplemental issue of Blood.

Data presented at ASH is from the MOMENTUM study, an open label Phase 1/2 clinical trial examining ARU-1801 as a one-time potentially curative gene therapy for individuals with sickle cell disease (SCD). The MOMENTUM study, which continues to enroll patients, examines ARU-1801, an autologous cell therapy leveraging a modified gamma globin lentivirus vector, in individuals with severe SCD. Unlike investigational gene therapies that require fully myeloablative conditioning, ARU-1801 is given with reduced intensity conditioning (RIC), which is a lower dose chemotherapy. ARU-1801 is designed to address the limitations of current curative treatment options, such as low donor availability and the risk of Graft-versus-Host Disease (GvHD) seen with allogeneic stem cell transplants. The data to be presented at ASH highlights participants dosed with product manufactured with both the original academic manufacturing process and the enhanced Process II.

"The clinical results thus far demonstrate that ARU-1801 holds significant promise for achieving durable responses with a reduced intensity conditioning approach to gene therapy," said Dr. Grimley, a principle investigator in the MOMENTUM study. "Given the impact chemotherapy toxicity has on physician and patient decision making around treatment options, ARU-1801 has the potential to be a unique option for SCD patients seeking gene therapy."

Abstract and Oral Presentation Information

Title: Early Results from a Phase 1/2 Study of ARU-1801 Gene Therapy for Sickle Cell Disease (SCD): Manufacturing Process Enhancements Improve Efficacy of a Modified Gamma Globin Lentivirus Vector and Reduced Intensity Conditioning TransplantPublication Number: 680Session Name: 114. Hemoglobinopathies, Excluding ThalassemiaClinical: Novel Treatments for Sickle Cell DiseaseDate:Monday, December 7, 2020Session Time:1:30 PM - 3:00 PMPresentation Time:2:15 PM

About ARU-1801ARU-1801 is a one-time potentially curativeinvestigational gene therapy for individuals living with sickle cell disease. This product candidate was designed to address the limitations of current treatment options including chemotherapy toxicity, donor availability, andchronic administration and replace it with a curative therapy. ARU-1801 incorporates a patented modified gamma-globin into autologous stem cells, with the aim of restoring normal red blood cell function through increased levels of fetal hemoglobin. The high potency of the modified gamma globin enables ARU-1801 engraftment with only reduced intensity conditioning (RIC). Preliminary clinical data from the MOMENTUMstudy, an ongoing Phase 1/2 trial in patients with sickle cell disease, demonstrate continuing durable reductions in disease burden.

The MOMENTUM StudyAruvant is currently conducting the MOMENTUM study, which is evaluating ARU-1801, a one-time only potentially curative gene therapy for patients with SCD. This Phase 1/2 study currently is enrolling individuals with SCD, and information may be found at http://www.momentumtrials.com.

About Aruvant SciencesAruvant Sciences, part of the Roivant family of companies, is a clinical-stage biopharmaceutical company focused on developing and commercializing gene therapies for the treatment of rare diseases. The company has a talentedteamwith extensive experience in the development, manufacturing and commercialization of gene therapy products. Aruvant has an activeresearchprogram with a lead product candidate, ARU-1801, in development for individuals suffering fromsickle cell disease(SCD). ARU-1801 is an investigational lentiviral gene therapy currently in aclinical trial,the MOMENTUM study, as a potential one-time curative treatment for SCD. Preliminary clinical data from the ongoing Phase 1/2 study demonstrated engraftment of ARU-1801 and amelioration of SCD is possible with one dose of low intensity chemotherapy. For more information on the clinical study, please visit http://www.momentumtrials.com and for more on the company, please visitwww.aruvant.com.

SOURCE Aruvant Sciences

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Aruvant Announces Updated Data to be Presented in Oral Presentation of ARU-1801 Data at the 62nd American Society of Hematology (ASH) Annual Meeting -...

Bone Marrow Stem Cells Comments Off on Aruvant Announces Updated Data to be Presented in Oral Presentation of ARU-1801 Data at the 62nd American Society of Hematology (ASH) Annual Meeting -… | November 5th, 2020

NEW YORK, Nov. 04, 2020 (GLOBE NEWSWIRE) -- Bragar Eagel & Squire, P.C., a nationally recognized shareholder rights law firm, reminds investors that class actions have been commenced on behalf of stockholders of Precigen, Inc. f/k/a Intrexon Corporation (NASDAQ: PGEN; XON), Royal Caribbean Group (NYSE: RCL), Mesoblast Limited (NASDAQ: MESO), and Loop Industries, Inc. (NASDAQ: LOOP). Stockholders have until the deadlines below to petition the court to serve as lead plaintiff. Additional information about each case can be found at the link

Precigen, Inc. f/k/a Intrexon Corporation (NASDAQ: PGEN; XON)

Class Period: May 10, 2017 to September 25, 2020

Lead Plaintiff Deadline: December 4, 2020

On September 25, 2020, the U.S. Securities and Exchange Commission (SEC) issued a cease and desist order against Precigen. The cease and desist order involved inaccurate reports concerning the companys purported success converting relatively inexpensive natural gas into more expensive industrial chemicals using a proprietary methane bioconversion (MBC) program. The order noted that the Company was primarily using significantly more expensive pure methane for the relevant laboratory experiments but was indicating that the results had been achieved using natural gas. The cease-and-desist order further stated that although the Company pitched the MBC program privately to numerous potential business partners over the course of 2017 and 2018 and [a] number of these potential partners performed due diligence on the MBC program including reviewing lab results and plans for commercialization. [The Company] has not yet found a partner for the MBC program.

The complaint, filed on October 5, 2020, alleges that throughout the Class Period defendants made false and/or misleading statements and/or failed to disclose to investors that: (1) the Company was using pure methane as feedstock for its announced yields for its methanotroph bioconversion platform instead of natural gas; (2) yields from natural gas as a feedstock were substantially lower than the aforementioned pure methane yields; (3) due to the substantial price difference between pure methane and natural gas, pure methane was not a commercially viable feedstock; (4) the Companys financial statements for the quarter ended March 31, 2018 were false and could not be relied upon; (5) the Company had material weaknesses in its internal controls over financial reporting; (6) the Company was under investigation by the SEC since October 2018; and (7) as a result of the foregoing, defendants public statements were materially false and misleading at all relevant times.

For more information on the Precigen class action go to: https://bespc.com/cases/PGEN

Royal Caribbean Group (NYSE: RCL)

Class Period: February 4, 2020 to March 17, 2020

Lead Plaintiff Deadline: December 7, 2020

The complaint, filed on October 7, 2020, alleges that throughout the Class Period defendants failed to disclose material facts about the Companys decrease in bookings outside China, instead maintaining that it was only experiencing a slowdown in bookings from China. The Action further alleges that defendants failed to disclose material facts about the Companys inadequate policies and procedures to prevent the spread of COVID-19 on its ships. The truth about the scope of the impact that COVID-19 had on the Companys overall bookings and the inability of Royal Caribbean to prevent the virus spread on its ships was revealed through a series of disclosures.

First, on February 13, 2020, Royal Caribbean issued a press release stating that it had canceled 18 voyages in Southeast Asia due to recent travel restrictions and further warning that recent bookings had been softer for its broader business.

On this news, Royal Caribbean shares fell over 3 percent.

Second, on February 25, 2020, Royal Caribbean filed its 2019 Form 10-K, indicating that COVID-19 concerns were negatively impacting its overall business.

On this news, Royal Caribbean shares fell over 14 percent.

Third, on March 10, 2020, Royal Caribbean withdrew its 2020 financial guidance, increased its revolving credit facility by $550 million, and announced that it would take cost-cutting actions due to the proliferation of COVID-19, further revealing that COVID-19 was severely impacting Royal Caribbeans 2020 customer booking and that its safety measures were inadequate to prevent the spread of the virus on its ships.

On this news, Royal Caribbean shares fell over 14 percent.

Fourth, on March 11, 2020, Royal Caribbeans largest competitor, Carnival, announced a 60-day suspension of all operations, prompting concern that Royal Caribbean would follow suit. At the same time, Royal Caribbean also cancelled two cruises, beginning a series of cancellations and suspensions to follow.

On this news, Royal Caribbean shares fell almost 32 percent.

Fifth, on March 14, 2020, Royal Caribbean announced a suspension of all global cruises for 30 days.

On this news, Royal Caribbean stock fell over 7 percent.

Sixth, on March 16, 2020, the Company revealed that global operations could be suspended longer than anticipated, announcing the cancellations of two additional cruises throughout April and into May.

On this news, Royal Caribbean shares fell over 7 percent.

Finally, on March 18, 2020, analysts downgraded Royal Caribbeans stock and slashed their price targets.

On this news, Royal Caribbean shares fell more than 19 percent.

For more information on the Royal Caribbean class action go to: https://bespc.com/cases/RCL

Mesoblast Limited (NASDAQ: MESO)

Class Period: April 16, 2019 to October 1, 2020

Lead Plaintiff Deadline: December 7, 2020

Mesoblast develops allogeneic cellular medicines using its proprietary mesenchymal lineage cell therapy platform. Its lead product candidate, RYONCIL (remestemcel-L), is an investigational therapy comprising mesenchymal stem cells derived from bone marrow. In February 2018, the Company announced that remestemcel-L met its primary endpoint in a Phase 3 trial to treat children with steroid refractory acute graft versus host disease (aGVHD).

In early 2020, Mesoblast completed its rolling submission of its Biologics License Application (BLA) with the FDA to secure marketing authorization to commercialize remestemcel-L for children with steroid refractory aGVHD.

On August 11, 2020, the FDA released briefing materials for its Oncologic Drugs Advisory Committee (ODAC) meeting to be held on August 13, 2020. Therein, the FDA stated that Mesoblast provided post hoc analyses of other studies to further establish the appropriateness of 45% as the null Day-28 ORR for its primary endpoint. The briefing materials stated that, due to design differences between these historical studies and Mesoblasts submitted study, it is unclear that these study results are relevant to the proposed indication.

On this news, the Companys share price fell $6.09, or approximately 35%, to close at $11.33 per share on August 11, 2020.

On October 1, 2020, Mesoblast disclosed that it had received a Complete Response Letter (CRL) from the FDA regarding its marketing application for remestemcel-L for treatment of SR-aGVHD in pediatric patients. According to the CRL, the FDA recommended that the Company conduct at least one additional randomized, controlled study in adults and/or children to provide further evidence of the effectiveness of remestemcel-L for SR-aGVHD. The CRL also identified a need for further scientific rationale to demonstrate the relationship of potency measurements to the products biologic activity.

On this news, the Companys share price fell $6.56, or 35%, to close at $12.03 per share on October 2, 2020.

The complaint, filed on October 8, 2020, alleges that throughout the Class Period defendants made materially false and/or misleading statements, as well as failed to disclose material adverse facts about the Companys business, operations, and prospects. Specifically, defendants failed to disclose to investors: (1) that comparative analyses between Mesoblasts Phase 3 trial and three historical studies did not support the effectiveness of remestemcel-L for steroid refractory aGVHD due to design differences between the four studies; (2) that, as a result, the FDA was reasonably likely to require further clinical studies; (3) that, as a result, the commercialization of remestemcel-L in the U.S. was likely to be delayed; and (4) that, as a result of the foregoing, defendants positive statements about the Companys business, operations, and prospects were materially misleading and/or lacked a reasonable basis.

For more information on the Mesoblast class action go to: https://bespc.com/cases/MESO

Loop Industries, Inc. (NASDAQ: LOOP)

Class Period: September 24, 2018 to October 12, 2020

Lead Plaintiff Deadline: December 14, 2020

On October 13, 2020, Hindenburg Research published a report alleging, among other things, that Loops scientists, under pressure from CEO Daniel Solomita, were tacitly encouraged to lie about the results of the companys process internally. The report also stated that Loops previous claims of breaking PET down to its base chemicals at a recovery rate of 100% were technically and industrially impossible, according to a former employee. Moreover, the report alleged that Executives from a division of key partner Thyssenkrupp, who Loop entered into a global alliance agreement with in December 2018, told us their partnership is on indefinite hold and that Loop underestimated both costs and complexities of its process.

On this news, the Companys share price fell $3.78, or over 32%, to close at $7.83 per share on October 13, 2020.

The complaint, filed on October 13, 2020, alleges that throughout the Class Period defendants made materially false and/or misleading statements, as well as failed to disclose material adverse facts about the Companys business, operations, and prospects. Specifically, defendants failed to disclose to investors: (1) that Loop scientists were encouraged to misrepresent the results of Loops purportedly proprietary process; (2) that Loop did not have the technology to break PET down to its base chemicals at a recovery rate of 100%; (3) that, as a result, the Company was unlikely to realize the purported benefits of Loops announced partnerships with Indorama and Thyssenkrupp; and (4) that, as a result of the foregoing, defendants positive statements about the Companys business, operations, and prospects were materially misleading and/or lacked a reasonable basis.

For more information on the Loop class action go to: https://bespc.com/cases/Loop

About Bragar Eagel & Squire, P.C.:Bragar Eagel & Squire, P.C. is a nationally recognized law firm with offices in New York and California. The firm represents individual and institutional investors in commercial, securities, derivative, and other complex litigation in state and federal courts across the country. For more information about the firm, please visit http://www.bespc.com. Attorney advertising. Prior results do not guarantee similar outcomes.

Contact Information:Bragar Eagel & Squire, P.C.Brandon Walker, Esq. Melissa Fortunato, Esq.Marion Passmore, Esq.(212) 355-4648investigations@bespc.comwww.bespc.com

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Bragar Eagel & Squire, PC Reminds Investors That Class Action Lawsuits Have Been Filed Against Precigen, Royal Caribbean, Mesoblast, and Loop...

Bone Marrow Stem Cells Comments Off on Bragar Eagel & Squire, PC Reminds Investors That Class Action Lawsuits Have Been Filed Against Precigen, Royal Caribbean, Mesoblast, and Loop… | November 5th, 2020

The success of approved stem cell therapies has caused a surge in interest of biopharma developers in this field; many innovator companies are currently progressing proprietary leads across different phases of clinical development, with cautious optimism

Roots Analysis has announced the addition of Global Stem Cells Market: Focus on Clinical Therapies, 20202030 (Based on Source (Allogeneic, Autologous); Origin (Adult, Embryonic); Type (Hematopoietic, Mesenchymal, Progenitor); Lineage (Amniotic Fluid, Adipose Tissue, Bone Marrow, Cardiosphere, Chondrocytes, Corneal Tissue, Cord Blood, Dental Pulp, Neural Tissue Placenta, Peripheral Blood, Stromal Cells); and Potency (Multipotent, Pluripotent)) report to its list of offerings.

There is a growing body of evidence supporting the vast applicability and superiority of treatment outcomes of stem cell therapies, compared to conventional treatment options. In fact, the unmet needs within this domain have spurred the establishment of many start-ups in recent years.

To order this 500+ page report, which features 185+ figures and 220+ tables, please visit this link

Key Market Insights

Over 280 stem cell therapies are under development, most of which are allogeneic productsMore than 50% of the pipeline candidates are in the mid to late phase trials (phase II and above), and allogenic therapies (majority of which are derived from the bone marrow) make up 65% of the pipeline.

70% of pipeline candidates are based on mesenchymal stem cellsIt is worth highlighting that the abovementioned therapies are designed to treat musculoskeletal (22%), neurological (21%) and cardiovascular (15%) disorders. On the other hand, hematopoietic stem cell-based products are mostly being evaluated for the treatment of oncological disorders, primarily hematological malignancies.

Close to 85% stem cell therapy developers are based in North America and Asia-Pacific regionsWithin these regions, the US, China, South Korea and Japan, have emerged as key R&D hubs for stem cell therapies. It is worth noting that majority of the initiatives in this domain are driven by small / mid-sized companies

Over 1,500 grants were awarded for stem cell research, since 2015More than 45% of the total amount was awarded under the R01 mechanism (which supports research projects). The NCI, NHLBI, NICHD, NIDDK, NIGMS and OD emerged as key organizations that have offered financial support for time periods exceeding 25 years as well.

Outsourcing has become indispensable to R&D and manufacturing activity in this domainPresently, more than 80 industry / non-industry players, based in different regions across the globe, claim to provide contract development and manufacturing services to cater to the unmet needs of therapy developers. Examples include (in alphabetical order) Bio Elpida, Cell and Gene Therapy Catapult, Cell Tech Pharmed, GenCure, KBI Biopharma, Lonza, MEDINET, Nikon CeLL innovation, Roslin Cell Therapies, WuXi Advanced Therapies and YposKesi.

North America and Asia-Pacific markets are anticipated to capture over 80% share by 2030The stem cell therapies market is anticipated to witness an annualized growth rate of over 30% during the next decade. Interestingly, the market in China / broader Asia-Pacific region is anticipated to grow at a relatively faster rate.

To request a sample copy / brochure of this report, please visit this link

Key Questions Answered

The USD 8.5 billion (by 2030) financial opportunity within the stem cell therapies market has been analyzed across the following segments:

The report features inputs from eminent industry stakeholders, according to whom stem cell therapies are currently considered to be a promising alternatives for the treatment of a myriad of disease indications, with the potential to overcome challenges associated with conventional treatment options. The report includes detailed transcripts of discussions held with the following experts:

The research covers brief profiles of several companies (including those listed below); each profile features an overview of the company, financial information (if available), stem cell therapy portfolio and an informed future outlook.

For additional details, please visithttps://www.rootsanalysis.com/reports/view_document/stem-cells-market/296.html

or email [emailprotected]

You may also be interested in the following titles:

Contact:

Gaurav Chaudhary+1 (415) 800 3415+44 (122) 391 1091[emailprotected]

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Stem Cell Therapy Market is estimated to be worth USD 8.5 Billion by 2030 - PRnews Leader

Cardiac Stem Cells Comments Off on Stem Cell Therapy Market is estimated to be worth USD 8.5 Billion by 2030 – PRnews Leader | November 5th, 2020

With all the attention still focused on the devastating COVID-19 pandemic despite Australia slowly moving towards a new normal heart disease remains the countrys leading cause of death. It kills one person every 12 minutes, and causes one in four deaths in Australia and beyond.

The heart beats without our active thought, which is why, perhaps, we take for granted the health of this rhythmic, ticking pump; our most vital organ.

Watchthe 'A Different Lens' live event viaFacebookorLinkedInat 7.30pm on Thursday, 5 November

With the launch now of Monash Universitys Victorian Heart Institute (VHI), and the Victorian Heart Hospital (VHH) also opening on campus in 2022, the focus from the experts involved will be on this one-organ system, although from an expansive range of medical and other disciplines. When the under-construction hospital opens, the two new heart hubs will be housed in the same building, making it the centre of heart research, teaching and cardiac care in Australia. It will be the first and only dedicated heart hospital in the country.

Every year, 50,000 Australians will suffer a heart attack, killing 20 people a day, with one person dying every 12 minutes.

Professor Steve Nicholls, a world-renowned cardiologist originally from Adelaide, heads both. The work of the new institute is already underway, and is expected to break down barriers between research, teaching and clinical care.

There is something incredibly exciting about the fact that biomedical research will be happening in the same building that we will treat patients, Professor Nicholls says.

He's outlined what he calls the "five grand challenges"for the next decade of heart research, with the ambition of shifting the status quo in heart disease.

They are:

Living well is understanding that we need to take a more holistic approach to treating heart health, Professor Nicholls says.

We need to consider diet, sleep, mindfulness and wellbeing, but also survivorship. People who survive other diseases like cancer now find themselves at a great risk of heart disease. How do we improve health, and the patient experience for them?

Dr Emily Kotschet, a Monash cardiologist and electrophysiologist, is a specialist in the technology and "mechanical intervention"(pacemaker) side of the equation.

Technology is best when you are advancing in terms of treatment, not just prevention, she says.

The advances right now are miniaturisation and digital technology for managing patients remotely implantables that are remote-accessed, self-sufficient and patient driven. With the patients in more control than ever, their experience is continually improving.

Technologically, the old pacemaker was a big can on your shoulder with leads to the heart, she says.

The new ones are like AAA batteries that sit beside the heart. As we miniaturise for treatment, there will be way more engagement with patients to pick up their symptoms early and get on top of them early. Discussions with IT academics at Monash will bridge the gap between our method and the digital platforms that are emerging.

Dr Kotschet also says womens heart health has not had the media profile and reach that breast cancer has, so public awareness is low.

I think breast cancer really got cancer into the spotlight 15 or 20 years ago with celebrities and endorsements, and they are now well-funded. Their [clinical]trials are travelling quite nicely. Now I think its time for heart disease as a big killer to find its spotlight.

This ability to more freely collaborate across university disciplines on an ostensibly "medical"issue is a priority for the heart specialists and clinicians.

The head of the School of Public Health and Preventive Medicine, Professor Sophia Zoungas, is a leading expert in screening and managing cardiovascular disease. She likens the new institute and hospital to a forward-thinking company such as Google that, when presented with a problem, draws in the best minds available to help solve it.

Despite the fact the institute and hospital have a physical location, it also provides a forum for virtual, broader work, bringing in areas across the University that may not be co-located, she says.

Whether thats public health, engineering, science hopefully it will also provide that core clinical training for clinicians and researchers in the one place. We will be able to track the best people, the best minds.

She says COVID-19 has put heart disease further under the radar.

People forget heart disease is still our biggest killer. We have all been a little distracted this year with the global pandemic but even within the context of this pandemic, one of the most serious outcomes of it [for patients]has been the cardiovascular complications.

For Professor Peter Currie, the head of Monashs renowned Australian Regenerative Medicine Institute (ARMI), the future of heart health relies on scientists understanding the fundamental building blocks of the heart. Despite the heart being unable to repair itself (unlike other organs), and the fact that stem cells do not work, Professor Currie has an optimistic view of how regenerative medicine can create the heart disease solutions of the future. He sees this is as the challenge, and the new institute and hospital as the place to do it.

I think the great opportunity is to cherry-pick interested and dedicated researchers who have an interest in this area of biology and medicine to work on these big problems.

Everyone thinks cardiovascular disease has been hit on the head because weve got a few drugs, he says, but nothing could be further from the truth.

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ADL live: Matters of the Heart Monash University - Monash Lens

Cardiac Stem Cells Comments Off on ADL live: Matters of the Heart Monash University – Monash Lens | November 5th, 2020

Researchers discuss the development and potential of stem cellbased therapies in the treatment of Parkinson disease.

In assessing treatment for Parkinson disease (PD), the current standard of care involves levodopa, potentially in combination with carbidopa, to address the loss of dopamine known to occur as the condition progresses. However, several innovations in therapy for PD have occurred in recent years, particularly deep brain stimulation and the potential use of stem cells.

Discussing in a review published in International Journal of Molecular Sciences, researchers Zhaohui Liu, PhD, MSc, and Hoi-Hung Cheung, PhD, sought to discuss the development of new therapeutic strategies that have led to the initiation of exploratory clinical trials, particularly the application of stem cells for the treatment of PD.

Delving into the use of stem cellbased treatments in PD, the researchers say that several important pathways have emerged as targets for potential therapeutic intervention.

Conventional therapeutic strategies for relieving the symptomatic stages of PD remain, but with new genetic insights, it may be possible to use preventive neuroprotective treatments for people at risk of developing PD, they highlight. In parallel with efforts to prevent and control symptomatic PD, researchers are also investigating stem cells as replacements for diseased neurons or degenerated tissues.

As they note, dopaminergic (DA) cell transplantation is believed to be the most promising cell replacement therapy. Aligned with this approach, a recent novel treatment showcased the plausibility of reprogramming the skin cells of a single patient with PD to take on the characteristics of DA neurons and replace damaged brain cells. In their findings, the patient exhibited improvements in quality of life and day-to-day activities requiring motor skills. However, as this treatment was performed on only 1 person, the researchers cautioned that larger, diverse clinical studies are needed to demonstrate further efficacy and long-term results.

Other notable stem cellbased treatments include:

Although we are not yet examining a disease-modifying treatment, stem cell transplantation has the potential to be at the forefront of such PD treatments in the future, conclude the researchers. The transplantation process and the procedures required for its optimization are still not fully understood, and further research is required to achieve treatment for PD.

Reference

Liu Z, Cheung H-H. Stem cell-based therapies for Parkinson disease. Int J Mol Sci. Published online October 29, 2020. doi:10.3390/ijms21218060

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A Review of Stem CellBased Therapies for Parkinson Disease - AJMC.com Managed Markets Network

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You most likely have noticed this phenomenon. When someone you know gets critically injured, experiences a serious illness or a major stressor, they soon look older. Sound familiar? Next time you see your friend, their hair is gray or even white. Have you ever wondered why that happens?

A new study from scientists at Harvard now reveals our sympathetic nervous system likely plays a major role in this process. The sympathetic nervous system is also called the fight or flight system. When youre in a stressful or dangerous situation, the sympathetic nervous system releases hormones to increase your alert level and heart rate to prepare you to act.

It all starts in a small area of the brain called the amygdala, and it eventually activates adrenal glands in the kidneys, which release adrenaline to coordinate the response of your internal organs and heighten your mental focus.

We have stem cells in the bottom of each hair follicle. These stem cells mature into cells called melanocytes, which produce pigment for our hair and skin color. Using mice, researchers found stressful events can lead to damage in the stem cells in our hair follicles.

Stress caused these stem cells to mature much faster than normal, which meant the supply of stem cells in the hair follicles eventually ran out. Without the stem cells producing melanocytes, the hair in the follicle lost its color and looked gray.

But how did this happen? The researchers thought maybe the immune system attacked these melanocytes resulting in the graying or that a hormone called cortisol produced by the adrenal glands might be responsible. Neither of those turned out to be the cause of the graying hair.

In some intricate experiments, the scientists discovered sympathetic nerve cells associated with hair follicles were the key. These nerve cells released a hormone called noradrenaline into the melanocyte stem cells, which caused them to mature and eventually disappear from the base of the follicle and caused the graying of the hair.

In other experiments, noradrenaline treatment of human melanocytes in lab cultures lead to rapid growth, suggesting this same process likely occurs in humans leading to the graying of hair.

Other scientists also have shown depleting melanocytes leads to a progression of the first gray hairs to gray and then to white fur in dark-colored mice, which sounds like what we see in humans.

So heres a question: If you have rapid growth of these melanocytes, can you prevent the hair from graying? The answer appears to be yes, based on the treatment of these same mice with drugs that block the release of noradrenaline.

This treatment couldnt be used in humans because blocking the flight or flight response would have severe consequences in other areas of our lives. But this new information could be used in the future for more specific drugs that would just work on the hair follicles. This would be a great benefit to me if I only had enough hair.

Medical Discovery News is hosted by professors Norbert Herzog at Quinnipiac University, and David Niesel of the University of Texas Medical Branch. Learn more at http://www.medicaldiscoverynews.com.

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Research providing better understand of graying hair | Health - Galveston County Daily News

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The latest research report on the Anti-Ageing Drugs Market Industry Analysis, Market Size, Opportunities and Forecast, 2020 2028 provides a comprehensive assessment of the Anti-Ageing Drugs market for the forecast period from 2020 to 2028, including market values for the years 2018 and 2019. The investigative report provides a detailed analysis of the impact of COVID-19 on various segments in the Anti-Ageing Drugs market based on product type, application, and end-use across numerous countries around the world. Further, the report also provides insights into market developments, trends, supply and demand changes across various regions across the globe. Thereby, the report provides a holistic view on the Anti-Ageing Drugs Market in order to help decision makers with various strategic insights and future outlook. The Anti-Ageing Drugs market is expected to witness continued growth during the forecast period from 2020 to 2028.

Leading companies reviewed in the Anti-Ageing Drugs Market report are: La Roche-Posay, Revision Optics, Calico, Nu Skin, LORAL, Unity Biotechnology

Get Free Exclusive Sample of this Premium Report at: https://www.zealinsider.com/report/6400/anti-ageing-drugs-market#sample

The report covers various aspects of the Anti-Ageing Drugs market segmented into product type, application and end-use. The report provides market numbers for the years 2018 and 2019 based on actual market findings also market estimates for forecasts for the period from 2020 to 2020 for each of the products types, applications and end-use segments.

Furthermore, the report includes a detailed competitive analysis among the market participants in the Anti-Ageing Drugs market. The report offers an in-depth comparative analysis of the competitors in the market based on their product offerings, market share and geographic presence. Some of the leading companies covered in the report include La Roche-Posay, Revision Optics, Calico, Nu Skin, LORAL, Unity Biotechnology

***NOTE***

We are continuously monitoring the market developments and changes occurring as a direct or indirect impact of the ongoing COVID-19 pandemic. Thereby, we are in a position to provide information on the market values and trends for both pre-COVID-19 and post-COVID-19 scenarios.

Target audiences for the report include:

Anti-Ageing Drugs Market Segmentation, By Product Type:Serums and supplements, Antioxidants and enzymes, Stem cells and drugs

Anti-Ageing Drugs Market Segmentation, By Application:Skin and hair, Skeletal and muscles, Age-related disorders, Others

Anti-Ageing Drugs Market Segmentation, By Geography:

Access Full Report information, here: https://www.zealinsider.com/report/6400/anti-ageing-drugs-market

Key Focus Areas in the Report:

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Global Anti-Ageing Drugs Market (2020) to Witness Huge Growth by 2026 | La Roche-Posay, Revision Optics, Calico, Nu Skin, L'ORAL, Unity Biotechnology,...

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DUBLIN--(BUSINESS WIRE)--The "Regenerative Medicine Market: Global Industry Trends, Share, Size, Growth, Opportunity and Forecast 2020-2025" report has been added to ResearchAndMarkets.com's offering.

The global regenerative medicine market grew at a CAGR of around 16% during 2014-2019. Looking forward, the publisher expects the global regenerative medicine market to continue its strong growth during the next five years.

Regenerative medicine refers to a branch of biomedical sciences aimed at restoring the structure and function of damaged tissues and organs. It involves the utilization of stem cells that are developed in laboratories and further implanted safely into the body for the regeneration of damaged bones, cartilage, blood vessels and organs. Cellular and acellular regenerative medicines are commonly used in various clinical therapeutic procedures, including cell, immunomodulation and tissue engineering therapies. They hold potential for the effective treatment of various chronic diseases, such as Alzheimer's, Parkinson's and cardiovascular disorders (CVDs), osteoporosis and spinal cord injuries.

The increasing prevalence of chronic medical ailments and genetic disorders across the globe is one of the key factors driving the growth of the market. Furthermore, the rising geriatric population, which is prone to various musculoskeletal, phonological, dermatological and cardiological disorders, is stimulating the market growth. In line with this, widespread adoption of organ transplantation is also contributing to the market growth. Regenerative medicine minimizes the risk of organ rejection by the body post-transplant and enhances the recovery speed of the patient.

Additionally, various technological advancements in cell-based therapies, such as the development of 3D bioprinting techniques and the adoption of artificial intelligence (AI) in the production of regenerative medicines, are acting as other growth-inducing factors. These advancements also aid in conducting efficient dermatological grafting procedures to treat chronic burns, bone defects and wounds on the skin. Other factors, including extensive research and development (R&D) activities in the field of medical sciences, along with improving healthcare infrastructure, are anticipated to drive the market further.

Companies Mentioned

Key Questions Answered in This Report:

Key Topics Covered:

1 Preface

2 Scope and Methodology

3 Executive Summary

4 Introduction

4.1 Overview

4.2 Key Industry Trends

5 Global Regenerative Medicine Market

5.1 Market Overview

5.2 Market Performance

5.3 Impact of COVID-19

5.4 Market Forecast

6 Market Breakup by Type

6.1 Stem Cell Therapy

6.1.1 Market Trends

6.1.2 Market Forecast

6.2 Biomaterial

6.2.1 Market Trends

6.2.2 Market Forecast

6.3 Tissue Engineering

6.3.1 Market Trends

6.3.2 Market Forecast

6.4 Others

6.4.1 Market Trends

6.4.2 Market Forecast

7 Market Breakup by Application

7.1 Bone Graft Substitutes

7.1.1 Market Trends

7.1.2 Market Forecast

7.2 Osteoarticular Diseases

7.2.1 Market Trends

7.2.2 Market Forecast

7.3 Dermatology

7.3.1 Market Trends

7.3.2 Market Forecast

7.4 Cardiovascular

7.4.1 Market Trends

7.4.2 Market Forecast

7.5 Central Nervous System

7.5.1 Market Trends

7.5.2 Market Forecast

7.6 Others

7.6.1 Market Trends

7.6.2 Market Forecast

8 Market Breakup by End User

8.1 Hospitals

8.1.1 Market Trends

8.1.2 Market Forecast

8.2 Specialty Clinics

8.2.1 Market Trends

8.2.2 Market Forecast

8.3 Others

8.3.1 Market Trends

8.3.2 Market Forecast

9 Market Breakup by Region

9.1 North America

9.2 Asia Pacific

9.3 Europe

9.4 Latin America

9.5 Middle East and Africa

10 SWOT Analysis

11 Value Chain Analysis

12 Porters Five Forces Analysis

13 Price Analysis

14 Competitive Landscape

14.1 Market Structure

14.2 Key Players

14.3 Profiles of Key Players

For more information about this report visit https://www.researchandmarkets.com/r/erd0e3

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Global Regenerative Medicine Market (2020 to 2025) - Industry Trends, Share, Size, Growth, Opportunity and Forecast - ResearchAndMarkets.com -...

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"It also hydrates and plumps up collagen making the skin appear more luminous." Go hard on it.

Retinol

You'll also need to have an exfoliant in your routine. We're talking chemical exfoliants, like retinol (can be in the form of a serum or cream - whatever works).

"Retinol (vitamin A) helps to improve cellular turnover, so that melanin patches are reduced in colour and some pigment may also be permanently shed too," said Dr D'Anna.

If retinol doesn't agree with your skin at this stage, try lactic acid or glycolic acid (again - can be used in a cleanser, toner, serum etc). These will do the job, too.

SPF

Okay. This is less of an option, and more of awe're-telling-you-to-do-it thing. Even Dr D'Anna agreed: "SPF is mandatory in reducing the darkening of the spots. Without the sun, the amount of melanin produced is very low."

"Prevention is much better than treatment. So, wear SPF every day, and cover your arms/hands and head/face with a good hat or long sleeves," added Dr D'Anna.

Prescription skincare

If all else fails on the skincare front - see your doctor for other topicaloptions.

"There are some pharmaceuticals that may be prescribed by your doctor too to help reduce the pigmentation," said Dr D'Anna. "This needs to be done under medical guidance and care to ensure that the skin has been examined and then diagnosed correctly."

Maybe. But you need to check in with a dermatologist or skin specialist first to make sure your skin type can be safely treated.

Dr D'Anna said, "The best treatment will vary according to your skin, the level of pigmentation and other skin considerations. It is best to get the advice of a qualified dermal therapist before proceeding."

Here are some professional treatments that can help reduce these melanin pigmentation patches:

Laser or IPL

These are good non-invasive solutions that will usually give you significant results after a course of treatments.

"A combination of topical treatments, light and laser therapies work best," said Dr Gunatheesa. "Broad-based light therapy, fractional ablative lasers will fade or remove existing liver spots."

Okay. How does that work?

"Laser or IPL also reduce the amount of colour in the skin," said Dr D'Anna. "The light energy heats the damaged and pigmented patches, so that the pigment is disrupted and lightened over a series of sessions."

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Here's how to treat those brown spots on your face, chest and hands. - Mamamia

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Share on PinterestPhotography by Gabriela Hasbun

We include products we think are useful for our readers. If you buy through links on this page, we may earn a small commission. Heres our process.

Gommage is a French exfoliation technique thats been gaining popularity in the United States. The word gommage literally translates to erasing or exfoliation.

The concept of exfoliation isnt new in France. Marie Antoinette supposedly used a mask made of cognac, eggs, powdered milk, and lemon juice to cleanse and exfoliate her skin while ruling France in the 1700s.

Modern gommage uses a combination of ingredients that exfoliate your skin chemically through the combination of enzymes and scrubbing. Along with other exfoliating techniques, it has the potential to clear away dead skin cells and stimulate skin cell growth to keep your skin looking polished and smooth.

Keep reading to find out how gommage exfoliation works, why you may want to include it in your skin care routine, and who makes a good candidate.

Gommage products contain one of several enzymes that have proteolytic effects on dead skin cells. Proteolytic simply means they break down the proteins that make up these cells so that they can easily be removed.

The enzymes found in gommage products can be extracted from plant or animal sources. Some of the most commonly used enzymes include:

Gommage exfoliants also contain sticky ingredients like xanthan gum or paraffin that mechanically exfoliate your skin by pulling away dead skin cells when the product is removed from your skin.

When performing a gommage treatment at home, you can follow the instructions on the package. Most products will instruct you to:

Exfoliants are usually divided into two categories:

There are many types of exfoliation techniques, ranging from homemade scrubs to chemical peels. Most exfoliation products work by exfoliating your skin either mechanically or chemically, but gommage products do both when applied through gentle massage.

Theres no research available specifically comparing gommage products with other exfoliant techniques, but many products claim to be gentler on your skin than other exfoliants. Gommage formulas vary widely among products so some of these products are gentler and more effective than others.

Gommage exfoliants have the potential to have the same benefits as traditional exfoliating techniques, such as:

No matter what type of product youre using, over-exfoliating can lead to skin thats:

Gommage exfoliants often use plant-sourced enzymes in their formulas. If you have a known allergy to any fruits or plants, you may want to check the ingredients carefully before using a gommage product. Pineapples, papayas, and pumpkin are three common plants often used in these products.

Any time you start using a new skin care product, its a good idea to use it on only a small part of your skin to see how your body reacts before applying to your face or other sensitive areas.

Gommage products are gentle enough to be used by most adults. People with naturally oily skin can exfoliant as often as every day. If you have drier skin, you may only need to exfoliate once per week.

Gommage products are often marketed as gentler alternatives to traditional exfoliants. However, formulas vary among brands. If you have very sensitive skin, you may want to stick to a washcloth and mild chemical exfoliator.

If you have acne or are taking retinol or benzoyl peroxide for acne, its a good idea to talk to a dermatologist before using exfoliants since they can lead to worse breakouts

Its also a good idea to talk to a dermatologist if your skin is thinning, you have open wounds, or you have another skin condition you think could be affected.

Some aestheticians in your area may offer gommage treatments. You can also buy gommage exfoliants at some pharmacies and other places that sell cosmetics.

Shop for gommage exfoliants online.

Gommage comes from the French word for erasing. Gommage treatment involves applying a cream or paste to your skin and waiting for it to dry. As the product hardens, enzymes in the product break down dead skin cells. When you rub the product away, the friction rubs these dead skin cells away.

Gommage exfoliation is relatively safe and may be a good option if youre looking for a gentle exfoliant. Whenever you start using a new skin care product, its a good idea to use it on a small patch of skin before using it on your entire face to see how your body reacts first.

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Gommage (Gentle Exfoliation) Benefits, Precautions, and How to Do It - Healthline

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Bones make up the skeletal system and serve the important function of giving the body support to be able to move. Whats inside the bones also is essential to personal health.

Bone marrow can be found in the center of bones. According to the online wellness resource Healthline, this viscous or spongy tissue comes in two types: red or yellow bone marrow. Both have specific functions in the body.

Red bone marrow is essential for a process called hematopoiesis, or blood cell production. Hematopoietic stem cells in the red bone marrow can develop into key blood cells, including red blood cells, which carry oxygen-rich blood to the body; platelets, which help blood to clot; and white blood cells, which are involved in immune system responses.

Yellow bone marrow is involved with the storage of fats. These fats can be used as an energy source as needed. Yellow bone marrow also contains mesenchymal stem cells that can develop into bone, fat, muscle, or cartilage cells.

Over time, yellow bone marrow replaces red bone marrow in most of the bones in the adult body. Only a few bones, such as the pelvis, skull, vertebrae, and ribs, will contain red bone marrow into adulthood.

According to Medical News Today, bone marrow makes more than 200 billion new blood cells every day. Most blood cells in the body develop from bone marrow cells.

Issues with bone marrow can produce a host of side effects. Fatigue or weakness, fever, increased infections, easy bleeding and bruising, and specific conditions like leukemia and anemia can develop as a result of bone marrow-related problems. In some cases, a bone marrow transplant may be needed to replace diseased or nonfunctioning bone marrow. It also may help regenerate a new immune system that can fight leukemia or other cancers.

Bone marrow transplants also may involve replacing existing bone marrow with genetically healthy bone marrow to prevent future damage from certain genetic diseases, according to Medical News Today. Bone marrow transplants can come from ones own stem cells, a twin, a sibling, parent, or an unrelated donor. Marrow transplants also may come from stored umbilical cord blood.

Bone marrow is vital to the overall health and function of the human body. Bone marrow affects just about every other cell due to its unique relationship with blood production and immune function.

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The roles bone marrow plays in the body - Williston Daily Herald

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Only two decades ago, stem cell therapy was highly regulated in the United States and other countries but it was well underway in Hadassah Hospitals labs in Jerusalem. Never would we have imagined that the US expansion of one of the key clinical trials conducted in our labs in Israel would be later funded by Californias Stem Cell Institute.

In 2004, California had the foresight to advance this critical area of research, and Hadassah advocates played a major role in the passing of an unprecedented statewide ballot initiative that authorized state funding for stem cell research. This marked the passage of Proposition 71 in 2004.

Fast forward to today. Hadassahs commitment to stem cell research led the Californians for Stem Cell, Research, Treatments and Cures Initiative effort in 2020 to reach out for help with their grassroots effort to qualify the latest stem cell funding initiative for the November ballot. It qualified with your help, and I hope that in a few short weeks well be celebrating the passage of Proposition 14, which will provide $5.5 billion to help accelerate development of treatments and cures for life-threatening diseases and conditions.

The power of stem cells is mind-blowing: We are able to use these cells to replace damaged or diseased tissue, and in this way, treatments or cures for diseases like age-related macular degeneration, ALS, MS, Parkinsons, Alzheimers and diabetes could be a reality in the foreseeable future.

I come to this subject from a place of personal sorrow.

I watched my father-in-law, Irv, suffer for 12 and a half years with ALS, a man I loved as if he were my own father. He fought and fought, he made every minute of his battle meaningful, soaking as much life as he could, until he couldnt. Irv is the reason why I became involved in Hadassah because of their cutting-edge medical research and he is the reason that Im writing to you now.

Today, Hadassah is doing incredible things in stem cell research, and the stunning results of their clinical trials have riveted the worldwide medical community.

Of course, the research most personal to me is the ALS research. Hadassah researchers conducted the worlds first clinical trial using the patients own bone marrow stem cells to treat ALS.Pikuach nefesh, the preservation of life, is the most important obligation in Judaism, and the one that drives Hadassah. With the potential of stem research, we have the ability to save millions of lives throughout the world.

And, with the promise of stem cells, we can accelerate the development of treatments and cures for life-threatening diseases and conditions that affect someone in nearly half of all California families.

I believe that stem cell research is going to allow our children to look at the major diseases that plague our modern world the way we now view polio.That potential will not reveal itself on its own, nor did it with polio. It took decades of research and funding for a polio vaccine to be fully developed, tested and made available widely.

There are no medical miracles. Medical advancement happens because of research. Research takes will, knowledge, chutzpah and, of course, money. The path to get a therapy approved by the Food and Drug Administration can take 12 to 15 years, requires thousands of patients for clinical trials and costs billions of dollars. from life-saving vaccines, to pioneering cancer treatments, to the sequencing of the human genome.w When research stalls for lack of funding, opportunities are missed. Promising avenues go unexplored.

The passage of Proposition 14 would help to overcome those hurdles and create a streamlined process that delivers much-needed treatments to patients who have few options. How amazing would it be to be part of making medical history.I am so proud to be a member of Hadassah, which is not only leading the way in stem cell research but also doing its research in service to humanity. Together, we can make medical discoveries happen and continue to set the pace for the worldwide medical community.

I wish that my father-in-law was here to give you his final thumbs up.

Stacey Dorenfeld is the National State Advocacy Co-Chair and the Hadassah Southern California Advocacy Chair.

The views and opinions expressed in this article are the authors own and do not necessarily reflect those of the Forward.

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California Proposition 14 is about pikuach nefesh heres why - Forward

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Global Cell Banking Outsourcing Market: Overview

The global cell banking outsourcing market is likely to be driven by the rising demand for biopharmaceutical production targeting novel active sites, stem cell therapy, and gene therapy. A cell bank is a facility storing cells extracted from various organ tissue and body fluids so as to cater to the needs of the future. The cell banks make storage of cells with an elaborate characterization of the entire cell line as it reduces the possibilities of cross contamination. These benefits are estimated to fuel expansion of the global cell banking outsourcing market over the timeframe of assessment, from 2020 to 2030.

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Cell banking outsourcing industries engage testing, characterization, storage, and collection of tissues, cell lines, and the cells. These activities are done to assist in the production of biopharmaceuticals and in the research and development activities so as to ensure minimum adverse effects and high effectiveness. The procedure of the cell storage involves first proliferation of cells, which then multiplies in a huge number of identical cells and is then put inside cryovials safety for use in future. Cells are primarily utilized in the production of regenerative medicine. A surge in the number of cell banks together with the high demand for stem cell therapies is likely to work in favor of the global cell banking outsourcing market over the tenure of analysis, from 2020 to2030.

The global cell banking outsourcing market has been segmented on the basis of four important parameters, which are bank type, phase, cell type, and region.

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Global Cell Banking Outsourcing Market: Notable Developments

The global cell banking outsourcing market is considered a fairly competitive market and is marked with the presence of many leading market players. The companies in this market are forging mergers, partnerships, and collaborations so as to gain larger revenue and market share. The following development is expected to play an important role in the market:

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Global Cell Banking Outsourcing Market: Key Trends

The global cell banking outsourcing market is characterized by the presence of the following restraints, drivers, and opportunities.

High Demand for Stem Cell Therapies to Trigger Growth of the Market

The rising number of stem cell therapies across the globe primarily influences the global cell banking outsourcing market. According to a survey conducted by World Network for Blood and Marrow Transplantation (WBMN), nearly 1 million hematopoietic stem cell transplantation processes were conducted in between 2006 to 2014. These figure comprised removal of stem cells procedures from peripheral blood or bone marrow, proliferating, and then finally storing them cell banks for future use by patients. Stem cell therapies are able to multiple disease, such as amyotrophic lateral sclerosis, type 1 diabetes, cancer, Alzheimer's disease, Parkinson's disease, and so on. Ability to cure such a wide variety of diseases is expected to propel growth of the global cell banking outsourcing market in the years to come.

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Global Cell Banking Outsourcing Market: Geographical Analysis

North America is expected to dominate the global cell banking outsourcing market throughout the timeframe of analysis, from 2020 to 2030. Such high growth of the North America market is ascribed to the increased production of antibiotics, therapeutics protein, and vaccines. In addition, presence of several biopharmaceutical companies in the region is anticipated to foster growth of the cell banking outsourcing market in North America in the near future.

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Cell Banking Outsourcing Market: High Demand for Stem Cell Therapies to Trigger Growth of the Market - BioSpace

Bone Marrow Stem Cells Comments Off on Cell Banking Outsourcing Market: High Demand for Stem Cell Therapies to Trigger Growth of the Market – BioSpace | November 3rd, 2020

Global Hematopoietic Stem Cell Transplantation Market Report from AMA Research highlights deep analysis on market characteristics, sizing, estimates and growth by segmentation, regional breakdowns& country along with competitive landscape, players market shares, and strategies that are key in the market. The exploration provides a 360 view and insights, highlighting major outcomes of the industry. These insights help the business decision-makers to formulate better business plans and make informed decisions to improved profitability. In addition, the study helps venture or private players in understanding the companies in more detail to make better informed decisions.

Major Players in This Report Include,

Gilead Sciences Inc. (United States), Thermo Fisher Scientific (United States), PromoCell (Germany), CellGenix Technologie Transfer GmbH (Germany), Cesca Therapeutics Inc.(United States), R&D Systems (United States), Genlantis (United States), Lonza Group Ltd.(Switzerland), TiGenix N.V.(Belgium), ScienCell Research Laboratories (United States), Regen Biopharma Inc. (United States), China Cord Blood Corp (Hong Kong) and CBR Systems Inc. (United States).

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Analyst at AMA have conducted special survey and have connected with opinion leaders and Industry experts from various region to minutely understand impact on growth as well as local reforms to fight the situation. A special chapter in the study presents Impact Analysis of COVID-19 on Hematopoietic Stem Cell Transplantation Market along with tables and graphs related to various country and segments showcasing impact on growth trends.

Definition

Despite the increasing availability of smart antineoplastic therapies in recent years, Hematopoietic stem cell transplantation (HSCT) remains an optimal treatment modality for many hematologic malignancies. HSCT is one of a range of therapeutic options which is available to patients suffering from various diseases. It is a widely accepted treatment for many life-threatening diseases. The treatment is available to patients who suffer from refractory or relapsing neoplastic disease and non-neoplastic genetic disorders, as well as from chronic bone marrow failure. Hematopoietic stem cells are young or immature blood cells which are found to be living in bone marrow. These blood cells when matures in bone marrow very few enters into bloodstream.

Global Hematopoietic Stem Cell Transplantation Market Report offers a detailed overview of this market and discusses the dominant factors affecting the growth of the market. The impact of Porters five armies on the market over the next few years has been discussed for a long time in this study. We will also forecast global market size and market outlook over the next few years.

Types of Products, Applications and Global Hematopoietic Stem Cell Transplantation Market Report Geographical Scope taken as the Main Parameter for Market Analysis. This Research Report Conducts an assessment of the industry chain supporting this market. It also provides accurate information on various aspects of this market, such as production capacity, available production capacity utilization, industrial policies affecting the manufacturing chain and market growth.

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In this research study, the prime factors that are impelling the growth of the Global Hematopoietic Stem Cell Transplantation market report have been studied thoroughly in a bid to estimate the overall value and the size of this market by the end of the forecast period. The impact of the driving forces, limitations, challenges, and opportunities has been examined extensively. The key trends that manage the interest of the customers have also been interpreted accurately for the benefit of the readers.

The Hematopoietic Stem Cell Transplantation market study is being classified by Type, Applicationsand major geographies with country level break-up that includes South America (Brazil, Argentina, Rest of South America), Asia Pacific (China, Japan, India, South Korea, Taiwan, Australia, Rest of Asia-Pacific), Europe (Germany, France, Italy, United Kingdom, Netherlands, Rest of Europe), MEA (Middle East, Africa), North America (United States, Canada, Mexico).

The report concludes with in-depth details on the business operations and financial structure of leading vendors in the Global Hematopoietic Stem Cell Transplantation market report, Overview of Key trends in the past and present are in reports that are reported to be beneficial for companies looking for venture businesses in this market. Information about the various marketing channels and well-known distributors in this market was also provided here. This study serves as a rich guide for established players and new players in this market.

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Current Scenario Analysis for Decision Framework

Key Strategic Developments in Hematopoietic Stem Cell Transplantation Market:

The research includes the key strategic activities such as Research & Development (R&D) initiatives, Merger & Acquisition (M&A) completed, agreements, new launches, collaborations, partnerships & (JV) Joint ventures, and regional growth of the key competitors operating in the market at global and regional scale to overcome current slowdown due to COVID-19.

Key Market Features in Global Hematopoietic Stem Cell Transplantation Market

The report highlights Hematopoietic Stem Cell Transplantation market features, including revenue size, weighted average regional price, capacity utilization rate, production rate, gross margins, consumption, import & export, demand & supply, cost bench-marking in Hematopoietic Stem Cell Transplantation market share and annualized growth rate (Y-o-Y) and Periodic CAGR.

Extracts from Table of Contents

Global Hematopoietic Stem Cell Transplantation Market Research Report

Chapter 1 Global Hematopoietic Stem Cell Transplantation Market Overview

Chapter 2 Global Economic Impact on Industry

Chapter 3 Global Market Competition by Manufacturers

Chapter 4 Global Revenue (Value, Volume*) by Region

Chapter 5 Global Supplies (Production), Consumption, Export, Import by Regions

Chapter 6 Global Revenue (Value, Volume*), Price* Trend by Type

Chapter 7 Global Market Analysis by Application

.continued

This report also analyzes the regulatory framework of the Global Markets Hematopoietic Stem Cell Transplantation Market Report to inform stakeholders about the various norms, regulations, this can have an impact. It also collects in-depth information from the detailed primary and secondary research techniques analyzed using the most efficient analysis tools. Based on the statistics gained from this systematic study, market research provides estimates for market participants and readers.

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Hematopoietic Stem Cell Transplantation Market New Investments Expected to boost the Demand by 2025 - The Daily Philadelphian

Bone Marrow Stem Cells Comments Off on Hematopoietic Stem Cell Transplantation Market New Investments Expected to boost the Demand by 2025 – The Daily Philadelphian | November 3rd, 2020

The Global Stem Cell Therapy Market report, published by Verified Market Research, is an extensive compilation of the essential aspects of the global Stem Cell Therapy market, assessed thoroughly by our team of researchers. The market intelligence report offers insightful data and information relevant to the market to acquaint the readers with the lucrative growth prospects existing in this industry, eventually helping them formulate effective business strategies. The global Stem Cell Therapy market report has been methodically curated using industry-verified data to offer information concerned with the leading manufacturers and suppliers engaged in this sector. It further focuses on their pricing analysis, gross revenue, product portfolio, sales network & distribution channels, profit margins, and financial standing.

Global Stem Cell Therapy Market was valued at USD 117.66 million in 2019 and is projected to reach USD 255.37 million by 2027, growing at a CAGR of 10.97% from 2020 to 2027.

The global Stem Cell Therapy market is highly consolidated due to the presence of a large number of companies across this industry. The report discusses the current market standing of these companies, their past performances, demand and supply graphs, production and consumption patterns, sales network, distribution channels, and growth opportunities in the market. Moreover, it highlights the strategic approaches of the key players towards expanding their product offerings and reinforcing their market presence.

The report covers extensive analysis of the key market players in the market, along with their business overview, expansion plans, and strategies. The key players studied in the report include:

The report further sheds light on the various strategic business initiatives undertaken by the key market contenders to fortify their foothold in this business sector. These strategies majorly include mergers & acquisitions, partnerships & collaborations, joint ventures, government and corporate deals, brand promotions, new product launches, and numerous others. In the later part of the report, the major components of the Stem Cell Therapy industry, such as product type, application gamut, end-use industries, and the solutions and services offered by the leading manufacturers, have been analyzed. Numerical data and subjective information pertaining to each market segment have been featured in the report for better understanding.

Therefore, the latest research document includes competitive analysis, key market players, crucial industry-related facts & figures, sales revenue, product prices, gross margins, market shares, business strategies, dominant regions, and key developments.

1.Stem Cell Therapy Market, By Cell Source:

Adipose Tissue-Derived Mesenchymal Stem Cells Bone Marrow-Derived Mesenchymal Stem Cells Cord Blood/Embryonic Stem Cells Other Cell Sources

2.Stem Cell Therapy Market, By Therapeutic Application:

Musculoskeletal Disorders Wounds and Injuries Cardiovascular Diseases Surgeries Gastrointestinal Diseases Other Applications

3.Stem Cell Therapy Market, By Type:

Allogeneic Stem Cell Therapy Market, By Application Musculoskeletal Disorders Wounds and Injuries Surgeries Acute Graft-Versus-Host Disease (AGVHD) Other Applications Autologous Stem Cell Therapy Market, By Application Cardiovascular Diseases Wounds and Injuries Gastrointestinal Diseases Other Applications

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The report encompasses the significant effects of the coronavirus pandemic on the Stem Cell Therapy market and its key segments. The report offers a vivid picture of the current market scenario, closely investigating the impact of the pandemic on this specific business sphere, its leading players, supply chains, distribution channels, and its global scenario. The pandemic has affected the global industry extensively, subsequently disrupting the Stem Cell Therapy market mechanism. Furthermore, the research study examines the Stem Cell Therapy market and the recent disruptive changes in the business setting that followed the outbreak. Also, the future effects of the pandemic on the market have been assessed in the report.

Key Geographies Encompassed in the Report:

North America (U.S., Canada)Europe (U.K., Germany, Italy, France, Rest of EU)Asia Pacific (India, Japan, China, Australia, Rest of APAC)Latin America (Brazil, Argentina, Rest of Latin America)Middle East & Africa (Saudi Arabia, U.A.E., South Africa, Rest of MEA)

Market Taxonomy:

Chapter 1: Methodology & Scope

Definition and forecast parametersMethodology and forecast parametersData Sources

Chapter 2: Executive Summary

Business trendsRegional trendsProduct trends

Chapter 3: Industry Insights

Industry segmentationIndustry landscapeVendor matrixTechnological and innovation landscape

Chapter 4: Regional Landscape

Chapter 5: Competitive Outlook

Company ProfileBusiness OverviewFinancial DataProduct LandscapeStrategic Outlook

To read more about the report, visit @ https://www.verifiedmarketresearch.com/product/Stem-Cell-Therapy-Market/

Advantages of the Stem Cell Therapy Market Report:

The report offers a clear description of the global Stem Cell Therapy market, containing the current market growth inclinations and future estimations to help businesses identify the potential investment areas.

The report covers the major market growth drivers, and constraints, alongside an extensive COVID-19 impact analysis.

The all-inclusive market feasibility reveals the profit-making trends to obtain a powerful foothold in the Stem Cell Therapy industry.

The SWOT analysis and Porters Five Forces Analysis explicate the effectiveness of the customers and providers from a global perspective.

About us:

Verified Market Research is a leading Global Research and Consulting firm servicing over 5000+ customers. Verified Market Research provides advanced analytical research solutions while offering information enriched research studies. We offer insight into strategic and growth analyses, Data necessary to achieve corporate goals, and critical revenue decisions.

Our 250 Analysts and SMEs offer a high level of expertise in data collection and governance use industrial techniques to collect and analyze data on more than 15,000 high impact and niche markets. 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.

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Stem Cell Therapy Market To Exceed Revenues Worth US$ By The End Of 2020 2027 - Eurowire

Bone Marrow Stem Cells Comments Off on Stem Cell Therapy Market To Exceed Revenues Worth US$ By The End Of 2020 2027 – Eurowire | November 3rd, 2020

The potential of gene therapies as cures for some hard-to-treat genetic diseases can be very attractive. But one such product is now suspected of causing a serious safety problem.

Friday, Orchard Therapeutics said its Strimvelis treatment, approved by European authorities in 2016 to treatthe rare inherited condition ADA-SCID, has been linked to a patients leukemia.

Preliminary findings suggest this diagnosis may be attributable to an insertional event related to treatment with Strimvelis, the company said. Its now investigating whether theres indeed a causal relationship.

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Since its 2016 EU approvalwhen it was owned by original developer GlaxoSmithKlineonly 16 patients have been treated with Stimvelis. The patient who developed leukemia had apparently been treated under a GSK compassionate use program in 2016.

No more patients will get the therapy before the investigation is complete, Orchard said. The drug was never approved in the U.S.

ADA-SCIDis a condition marked by a mutation in the gene making the adenosine deaminase (ADA) enzyme, which is essential for maintaining normal white blood cells. ADA-SCID patients, with a dysfunctional immune system, have less than two years to live without effective intervention.

RELATED:Orchard licenses gene therapy tech from GSK

Strimvelis, originally developed by GSK and bought by Orchard in 2018, offers an option for patients who cant find a matched stem cell donor. It works by editing the patients own hematopoietic stem cells with the functional ADA gene. The cells arethen transferred back into the patient's bone marrow to mature and produce the normal ADA protein.

The therapy uses a gammaretrovirus as the vector to carry the gene. Problem is, retrovirus can incorporate their own genetic information into the human genome, causing unintended changes that can give rise to cancer. It is a known risk factor of gammaretroviral vector-based gene therapy and has been described as one of the important potential risks for Strimvelis in its EU approval.

Besides Strimvelis, Orchard is also developing OTL-101, which uses a lentivirus to insert a functional copy of the ADA gene into a patients cells. The drug is currently undergoing a registrational trial and has won breakthrough and orphan drug designations from the FDA.

All the gene therapy candidates in Orchards pipeline use lentiviral vectors that have been specifically designed to avoid insertional oncogenesis after administration, Orchard said, adding that no dangerous gene insertion has been reported around lentiviral vector-based stem cell gene therapy in any indication.

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Orchard Therapeutics' gene therapy Strimvelis linked to a leukemia case - FiercePharma

Bone Marrow Stem Cells Comments Off on Orchard Therapeutics’ gene therapy Strimvelis linked to a leukemia case – FiercePharma | November 3rd, 2020

TEL AVIV, Israel, Oct. 30, 2020 /PRNewswire/ -- BioLineRx Ltd. (NASDAQ: BLRX) (TASE: BLRX), a clinical-stage biopharmaceutical company focused on oncology, today announced positive results from a planned interim analysis of the ongoing GENESIS Phase 3 trial of motixafortide for stem cell mobilization (SCM) in multiple myeloma patients.

At a meeting of the study's independent Data Monitoring Committee (DMC), a planned interim analysis of the study's primary endpoint was conducted independently by the DMC. Based on the statistically significant evidence favoring treatment with motixafortide, the DMC issued a recommendation to the Company that patient enrollment may be ceased immediately, without the need to recruit all 177 patients originally planned for the study.

In accordance with the DMC's recommendation, study enrollment is now complete at 122 patients. Full results for the study, including secondary and exploratory efficacy endpoints, as well as extended safety data, will be announced after the last patient enrolled reaches 100 days of follow-up post-transplantation, which is expected to occur in the first half of 2021.

"The compelling results of this planned interim analysis are a very significant milestone for our Company, as our SCM program is the Company's most efficient path to registration for motixafortide," stated Philip Serlin, Chief Executive Officer of BioLineRx. "Stem cell mobilization represents a significant unmet medical need in multiple myeloma, as between 50% and 70% of patients are poor mobilizers. We eagerly await the final results of the study, expected in the first half of next year, which we hope will support our goal of changing the treatment paradigm in autologous stem-cell mobilization, thus positioning motixafortide in combination with G-CSF as the new standard of care in this indication."

The GENESIS trial was initiated in December 2017. GENESIS is a randomized, placebo-controlled, multicenter study, evaluating the safety, tolerability and efficacy of motixafortide and G-CSF, compared to placebo and G-CSF, for the mobilization of HSCs for autologous transplantation in multiple myeloma patients. The primary objective of the study is to demonstrate that only one dose of motixafortide on top of G-CSF is superior to G-CSF alone in the ability to mobilize 6x106 CD34+ cells in up to two apheresis sessions. Secondary objectives include time to engraftment of neutrophils and platelets and durability of engraftment, as well as other efficacy and safety parameters.

About BioLineRx

BioLineRx Ltd. (NASDAQ/TASE: BLRX) is a late clinical-stage biopharmaceutical company focused on oncology. The Company's business model is to in-license novel compounds, develop them through clinical stages, and then partner with pharmaceutical companies for further clinical development and/or commercialization.

The Company's lead program, motixafortide (BL-8040), is a cancer therapy platform currently being evaluated in a Phase 2a study for the treatment of pancreatic cancer in combination with KEYTRUDA and chemotherapy under a collaboration agreement with MSD. Motixafortide is also being evaluated in a Phase 2b study in consolidation AML and a Phase 3 study in stem cell mobilization for autologous bone-marrow transplantation.

BioLineRx is developing a second oncology program, AGI-134, an immunotherapy treatment for multiple solid tumors that is currently being investigated in a Phase 1/2a study.

For additional information on BioLineRx, please visit the Company's website at http://www.biolinerx.com, where you can review the Company's SEC filings, press releases, announcements and events. BioLineRx industry updates are also regularly updated on Facebook,Twitter, and LinkedIn.

Various statements in this release concerning BioLineRx's future expectations constitute "forward-looking statements" within the meaning of the Private Securities Litigation Reform Act of 1995. These statements include words such as "may," "expects," "anticipates," "believes," and "intends," and describe opinions about future events. These forward-looking statements involve known and unknown risks and uncertainties that may cause the actual results, performance or achievements of BioLineRx to be materially different from any future results, performance or achievements expressed or implied by such forward-looking statements. Factors that could cause BioLineRx's actual results to differ materially from those expressed or implied in such forward-looking statements include, but are not limited to: the initiation, timing, progress and results of BioLineRx's preclinical studies, clinical trials and other therapeutic candidate development efforts; BioLineRx's ability to advance its therapeutic candidates into clinical trials or to successfully complete its preclinical studies or clinical trials; BioLineRx's receipt of regulatory approvals for its therapeutic candidates, and the timing of other regulatory filings and approvals; the clinical development, commercialization and market acceptance of BioLineRx's therapeutic candidates; BioLineRx's ability to establish and maintain corporate collaborations; BioLineRx's ability to integrate new therapeutic candidates and new personnel; the interpretation of the properties and characteristics of BioLineRx's therapeutic candidates and of the results obtained with its therapeutic candidates in preclinical studies or clinical trials; the implementation of BioLineRx's business model and strategic plans for its business and therapeutic candidates; the scope of protection BioLineRx is able to establish and maintain for intellectual property rights covering its therapeutic candidates and its ability to operate its business without infringing the intellectual property rights of others; estimates of BioLineRx's expenses, future revenues, capital requirements and its needs for additional financing; risks related to changes in healthcare laws, rules and regulations in the United States or elsewhere; competitive companies, technologies and BioLineRx's industry; risks related to the coronavirus outbreak; and statements as to the impact of the political and security situation in Israel on BioLineRx's business. These and other factors are more fully discussed in the "Risk Factors" section of BioLineRx's most recent annual report on Form 20-F filed with the Securities and Exchange Commission on March 12, 2020. In addition, any forward-looking statements represent BioLineRx's views only as of the date of this release and should not be relied upon as representing its views as of any subsequent date. BioLineRx does not assume any obligation to update any forward-looking statements unless required by law.

Contact:

Tim McCarthy LifeSci Advisors, LLC +1-212-915-2564 [emailprotected]

or

Moran Meir LifeSci Advisors, LLC +972-54-476-4945 [emailprotected]

SOURCE BioLineRx Ltd.

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BioLineRx Announces Positive Results from Interim Analysis of GENESIS Phase 3 Trial of Motixafortide (BL-8040) in Stem Cell Mobilization - PRNewswire

Bone Marrow Stem Cells Comments Off on BioLineRx Announces Positive Results from Interim Analysis of GENESIS Phase 3 Trial of Motixafortide (BL-8040) in Stem Cell Mobilization – PRNewswire | November 3rd, 2020