Global Single-cell Analysis Market Research Report 2020-2026 Featuring Major Players and Companies to Watch in the Future – PRNewswire

DUBLIN, Dec. 1, 2020 /PRNewswire/ -- The "Single-cell Analysis Market by Product, Cell Type, Technique, End User, and by Geography - Forecast to 2026" report has been added to ResearchAndMarkets.com's offering.

Single-cell Analysis Market is predicted to grow at a CAGR of ~17.1%. The market is predicted to reach $2005 million in 2026 from $763.4 million in 2020.

The information collected from this analysis is significant for cancer research for the discovery of tumor cells and genetic diagnosis. The factors such as advanced technology in products of single-cell analysis, increasing preference for customized medicine and rapidly increasing various chronic diseases such as cancer, which fuel the demand for the single-cell analysis market. However, the expensive products in the single-cell analysis are restraining market growth.

Single-cell analysis is the examination & study of proteins, study of small molecules, and other cells at the single-cell level. This analysis allows the study of variations of cell-to-cell in the group of cells. The objective of the single-cell analysis is to gain insight into the mechanisms of cellular functionality, which requires an understanding of each of the cellular components, including protein content, DNA, and RNA, as well as the cellular metabolites.

In the product based segmentation consumables segment is expected to have the largest share in the market. The reasons for the demand for consumables products are regularly purchasing the consumables compared to the instruments and the significant usage of consumables in the research and genetic exploration and segregation of RNA and DNA.

Based on cell type segmentation, the human cell segment is having the largest share in the market. The human cell is greatly used in the research laboratories due to the rising incidence of infectious diseases in the elderly population and the high investments in stem cell research.

On the bases of technique, the next-generation sequencing segment is expected to have the largest share in the market due to the increasing chronic diseases and next-generation sequencing allowing researchers to perform various applications.

Further, based on end-user segmentation, the academic and research laboratories segment is expected to have the largest share in the market. The increasing number of colleges and universities of medical and high investments in life science research are the factors accelerating the demand for single-cell analysis.

Moreover, based on the geography Asia Pacific region is playing a vital role in the market share compared to other regions due to rising number of patients in countries such as China and India, growing investments in the research and development in this field and outsourcing of drug discovery services to the Asia Pacific region. In addition, North America is the second-largest contributor to the market due to the high expenditure in the research and development and increased scope for stem cell research in this region.

The single-cell analysis market is expanding globally due to the increasingly advanced technology in the single-cell analysis products. The major factors accelerating the single-cell analysis market include rapidly increasing chronic diseases and cancer cases all over the world, increasing biotechnology & biopharmaceutical industries, and life science research. Although, due to high competition, the persistence of new entrants and small players is difficult in the market, and this is a challenge for market growth. The emerging markets in Asia are the future opportunities for the market.

The key market competitors in the market are Becton, Dickinson and Company, Danaher Corporatio, Merck Millipore, Qiagen N.V., Thermo Fisher Scientific, Inc, General Electric Company, BARCO, Promega Corporation, Shanghai Goodview Electronics, Fluidigm Corporation, Agilent Technologies, Inc, Nanostring Technologies, Inc., Tecan Group Ltd, Sartorius AG, LUMINEX CORPORATION, Takara Bio Inc., Takara Bio Inc., Fluxion Biosciences and Menarini Silicon Biosystems.

Moreover, the single-cell analysis has the largest scope in cancer research for the detection of the various tumor cells, preimplantation, and genetic diagnosis as the drastic increase in the cancer cases globally. The government is also supporting financially for cell-based research.

Key Topics Covered:

1. Executive Summary

2. Industry Outlook

3. Market Snapshot

3.1. Market Definition

3.2. Market Outlook

3.3. PEST Analysis

3.4. Porter Five Forces

3.5. Related Markets

4. Market characteristics

4.1. Market Evolution

4.2. Market Trends and Impact

4.3. Advantages/Disadvantages of Market

4.4. Regulatory Impact

4.5. Market Offerings

4.6. Market Segmentation

4.7. Market Dynamics

4.8. DRO - Impact Analysis

5. Technique: Market Size & Analysis

5.1. Overview

5.2. Consumables

5.2.1. Beads

5.2.2. Microplates

5.2.3. Reagents

5.2.4. Assay Kits

5.2.5. Other Consumables

5.3. Instruments

5.3.1. Flow Cytometers

5.3.2. NGS Systems

5.3.3. PCR Instruments

5.3.4. Spectrophotometers

5.3.5. Microscopes

5.3.6. Cell Counters

5.3.7. HCS Systems

5.3.8. Microarrays

5.3.9. Other Instruments

6. Cell Type: Market Size & Analysis

6.1. Overview

6.2. Human Cells

6.3. Animal Cells

6.4. Microbial Cells

7. Technique: Market Size & Analysis

7.1. Overview

7.2. Flow Cytometry

7.3. Next-generation Sequencing

7.4. Polymerase Chain Reaction

7.5. Microscopy

7.6. Mass Spectrometry

7.7. Other Techniques

8. End User: Market Size & Analysis

8.1. Overview

8.2. Academic & Research Laboratories

8.3. Biotechnology & Pharmaceutical Companies

8.4. Hospitals & Diagnostic Laboratories

8.5. Cell Banks & IVF Centers

9. Geography: Market Size & Analysis

9.1. Overview

9.2. North America

9.3. Europe

9.4. Asia Pacific

9.5. Rest of the World

10. Competitive Landscape

10.1. Competitor Comparison Analysis

10.2. Market Developments

10.3. Mergers and Acquisitions, Legal, Awards, Partnerships

10.4. Product Launches and execution

11. Vendor Profiles

11.1. Becton, Dickinson and Company

11.2. Danaher Corporation

11.3. Merck Millipore.

11.4. Qiagen N.V.

11.5. Thermo Fisher Scientific, Inc

11.6. General Electric Company

11.7. BARCO

11.8. Promega Corporation

11.9. Shanghai Goodview Electronics

12. Companies to Watch

12.1. Fluidigm Corporation

12.2. Agilent Technologies, Inc

12.3. Nanostring Technologies, Inc.

12.4. Tecan Group Ltd

12.5. Sartorius AG

12.6. LUMINEX CORPORATION

12.7. Takara Bio Inc.

12.8. Fluxion Biosciences

12.9. Menarini Silicon Biosystems

Companies Mentioned

Becton

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Global Single-cell Analysis Market Research Report 2020-2026 Featuring Major Players and Companies to Watch in the Future - PRNewswire

Cell Therapy Technologies Market | Extensive Information on a Plethora of Aspects Related to the Growth of the Market – BioSpace

The cell therapy technologies market is expected to gain immense growth opportunities through the forecast period of 2019-2029 owing to the rising influence of cell therapies across the life sciences sector. The overwhelming need for novel and enhanced therapies for a variety of diseases and disorders may bring extensive growth prospects for the cell therapy technologies market during the forecast period.

The increased funding by the government may also prove to be a great growth prospect for the cell therapy technologies market. The precision medicine sector is evolving at a rapid rate across the globe. In this, a patient is given personalized treatment and is useful in making more accurate decisions. Thus, this factor may boost the growth of the cell therapy technologies market.

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Cellular therapy is the transplantation of human cells to replace cells or tissues. This therapy can be used for treating various diseases and disorders. The evolution of cell therapy technologies is bringing immense advancements across the sector. This therapy is used mainly for nervous system disorders and cancer. The growing cases of these diseases may further invite promising growth.

On the basis of product, the cell therapy technologies market can be segmented into consumables, cell processing equipment, single-use equipment, other equipment, and systems and software. Based on cell type, the cell therapy technologies market can be classified into stem cells, T-cells, and other cells. Cell therapy technology is utilized expansively in biopharmaceutical and biotechnology companies and CROs, and research institutes and cell banks.

The enhancements in cell therapy technology research through immense investments from various sectors may invite prominent growth prospects for the cell therapy technologies market.

This report has extensive information on a plethora of aspects related to the growth of the cell therapy technologies market. The L.E.A.P mechanism applied by the researchers enables a 360-degree view of the cell therapy technologies market. The CXOs derive the perfect information that allows them to chalk out their business strategy accordingly. This report also has scrutinized information about the novel coronavirus outbreak and its effect on the cell therapy technologies market.

Cell Therapy Technologies Market: Competitive Insights

The cell therapy technologies market is highly fragmented. Numerous players are involved in intense competition for gaining a prominent position among the end-users. The players are also involved in expansion activities through mergers and acquisitions. Some well-entrenched players in the cell therapy technologies market are Danaher Corporation, CellGenix GmbH, IxCells Biotechnology, Wilson Wolf Corporation, SIRION Biotech GmbH, Dickinson and Company, and FUJIFILM Irvine Scientific.

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Cell Therapy Technologies Market: COVID-19 Impact

The COVID-19 impact may offer bright opportunities for the cell therapy technologies market to gain growth. The rising transmission of COVID-19 has led to rapid research and development activities in terms of an effective drug or vaccine. Cell-based research and technologies play an important role in the discovery of vaccines. Hence, this aspect may bring expansive growth prospects for the cell therapy technologies market.

Cell Therapy Technologies Market: Regional Prospects

The cell therapy technologies market in North America may gain a dominant position throughout the forecast period of 2019-2029. The maximizing research and development activities across the region for a good COVID-19 vaccine may bring profitable growth for the cell therapy technologies market. Robust healthcare expenditure, rising disposable income, and growing healthcare awareness may invite promising growth.

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About TMR Research

TMR Research is a premier provider of customized market research and consulting services to business entities keen on succeeding in todays supercharged economic climate. Armed with an experienced, dedicated, and dynamic team of analysts, we are redefining the way our clients conduct business by providing them with authoritative and trusted research studies in tune with the latest methodologies and market trends.

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Cell Therapy Technologies Market | Extensive Information on a Plethora of Aspects Related to the Growth of the Market - BioSpace

Stem Cell Therapy Market Research Report Forecast to 2029 (Includes Business Impact of COVID-19) – Cheshire Media

Trusted Business Insights answers what are the scenarios for growth and recovery and whether there will be any lasting structural impact from the unfolding crisis for the Stem Cell Therapy market.

Trusted Business Insights presents an updated and Latest Study on Stem Cell Therapy Market 2020-2029. The report contains market predictions related to market size, revenue, production, CAGR, Consumption, gross margin, price, and other substantial factors. While emphasizing the key driving and restraining forces for this market, the report also offers a complete study of the future trends and developments of the market.The report further elaborates on the micro and macroeconomic aspects including the socio-political landscape that is anticipated to shape the demand of the Stem Cell Therapy market during the forecast period (2020-2029). It also examines the role of the leading market players involved in the industry including their corporate overview, financial summary, and SWOT analysis.

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Abstract, Snapshot, Market Analysis & Market Definition: Stem Cell Therapy Market Industry / Sector Trends

Stem Cell Therapy Market size was valued at USD 7.8 billion in 2018 and is expected to witness 10.2% CAGR from 2019 to 2025.

U.S. Stem Cell Therapy Market Size, By Type, 2018 & 2025 (USD Million)

Rising prevalence of chronic diseases will positively impact the stem cell therapy market growth. Cardiovascular diseases, neurological disorders and other chronic conditions have resulted in high mortality over past few years. Conventional therapeutic methods and treatments are currently replaced due to lack of efficiency and efficacy. Recently developed stem cell therapies are capable of replacing defective cells to treat diseases that has reduced morbidity drastically. Therefore, people have now started relying on stem cell therapy that has long term positive effects.

Advancements in stem cell therapy in developed regions such as North America and Europe have boosted the industry growth. Since past few years, there have been several researches carried out for stem cell therapy. Currently developed stem cell therapies have shown positive outcomes in treatment of leukemia. Similarly, due to advancements in regenerative medicine, several other chronic conditions such as muscular dystrophy and cardiovascular diseases also have been cured. Aforementioned factors have surged the industry growth. However, high cost of allogenic stem cell therapy may hamper the industry growth to some extent.

Market Segmentation, Outlook & Regional Insights: Stem Cell Therapy Market

Stem Cell Therapy Market, By Type

Allogenic stem cell therapy segment held around 39% revenue share in 2018 and it is anticipated to grow substantially during the analysis timeframe. Allogenic stem cell is available as off the shelf therapy and it is easily scalable that helps in providing treatment without delay. Moreover, the procedure includes culturing donor-derived immunocompetent cells that are highly effective in treatment of several diseases. Stem cells obtained in allogenic therapy are free of contaminating tumor cells. This reduces risk for disease recurrence that will surge its demand thereby, stimulating segment growth.

Autologous stem cell therapy segment is estimated to witness 10.1% growth over the forthcoming years. People usually prefer autologous stem cell therapy as it has minimum risk of immunological rejection. However, on introduction of allogenic stem cell therapy, demand for autologous stem cell therapy has declined as it is difficult to scale up. However, there are concerns regarding risk of cross contamination during large scale manufacturing of autologous stem cell lines that will impede segmental growth to some extent.

Stem Cell Therapy Market, By Application

The neurology segment was valued at around USD 1.6 billion in 2018 and it is estimated that it will witness significant growth over the forthcoming years. Stem cells are used to replenish the disrupted neurological cells that help in quick patient recovery. Pluripotent stem cells provide a replacement for cells and tissues to treat Alzheimers, Parkinsons disease, cerebral palsy, amyotrophic lateral sclerosis, and other neurodegenerative diseases. Thus, the pivotal role of stem cells in treating the life-threatening neurological condition will escalate segment growth.

The cardiovascular segment will witness 10% growth over the analysis timeframe. Considerable segmental growth can be attributed to development in stem cell therapies that have enhanced recovery pace in patients suffering from cardiovascular diseases. Recently developed allogeneic stem cell therapies are efficient and easily available that have reduced the mortality rates in cardiovascular patients. Above mentioned factors will propel cardiovascular segment growth in near future.

Stem Cell Therapy Market, By End-users

The hospital segment held over 56% revenue share in 2018 and it is anticipated to grow significantly in near future. The rising preference for stem cell therapies offered by hospitals proves beneficial for business growth. Hospitals have affiliations with research laboratories and academic institutes that carry out research activities for developing stem cell therapies. On the introduction and approval of any novel stem therapy, hospitals implement it immediately. Associations with research and academic institutes further help hospitals to upgrade its stem cell treatment offerings that positively impact the segmental growth.

The clinics segment is expected to grow at around 10% during the forecast timeframe. Clinics specializing in providing stem cell therapies are well-equipped with advanced medical devices and superior quality reagents required for imparting stem cell therapies. However, as clinics offer specialized stem cell therapies, their treatment cost is much higher as compared to hospitals that may reduce its preference.

Stem Cell Therapy Market, By Region

North America stem cell therapy market held around 41.5% revenue share in 2018 and it is estimated to grow substantially in near future. Increasing the adoption of novel stem cell therapies will prove beneficial for regional market growth. Moreover, favorable government initiatives have a positive impact on regional market growth. For instance, the government of Canada has initiated Strategic Innovation Fund Program that invests in research activities carried out for stem cell therapies enabling development in stem cell therapy. Above mentioned factors are expected to drive the North America market growth.

Asia Pacific stem cell therapy market is anticipated to witness 10.8% growth in the near future owing to increasing awareness amongst people pertaining to the benefits of advanced stem cell therapies. Additionally, favorable initiatives undertaken by several organizations will promote industry players to come up with innovative solutions. For instance, according to Pharma Focus Asia, members of the Asia-Pacific Economic Cooperation collaborated with Life Sciences Innovation Forum to involve professionals having expertise in stem cell therapies from academia and research centers to promote developments in stem cell research. Thus, growing initiatives by organizations ensuring the availability of new stem cell therapies will foster regional market growth.

Latin America Stem Cell Therapy Market Size, By Country, 2025 (USD Million)

Key Players, Recent Developments & Sector Viewpoints: Stem Cell Therapy Market

Key industry players in the stem cell therapy market include Astellas Pharma Inc, Cellectis, Celyad, Novadip Biosciences, Gamida Cell, Capricor Therapeutics, Cellular Dynamics, CESCA Therapeutics, DiscGenics, OxStem, Mesoblast Ltd, ReNeuron Group, and Takeda Pharmaceuticals. Chief industry players implement several initiatives such as mergers and acquisitions to sustain market competition. Also, receiving approvals for stem cell therapy products from regulatory authorities fosters the companys growth. For instance, in March 2018, the European Commission approved Takedas Alofisel that is off-the-shelf stem cell therapy. Product approval will help the company to gain a competitive advantage and capture market share.

Stem Cell Therapy Industry Viewpoint

The stem cells industry can be traced back to the 1950s. In 1959 first animals were made by in-vitro fertilization by preserving the stem cells. Till 2000, research was being carried out on stem cells to study its therapeutic effect. In 2000, fund allocations were made to research on cells derived from aborted human fetuses. In the same year, scientists derived human embryonic stem cells from the inner cell mass of blastocytes. Later, in 2010, clinical trials for human embryonic stem cell-based therapy were initiated. As technology progressed, stem cell therapy for treating cancer was developed. However, due to ethical issues, the use of stem cells for curing diseases witnessed slow growth for a few years. But as the regulatory scenario changed, people started preferring stem cell therapies due to its better efficacy. Stem cell therapy is in the developing stage and has numerous growth opportunities in developing economies with a high prevalence of chronic diseases.

Key Industry Development

In September 2020, Takeda Pharmaceutical Company Limited announced the expansion of its cell therapy manufacturing capabilities with the opening of a new 24,000 square-foot R&D cell therapy manufacturing facility at its R&D headquarters in Boston, Massachusetts. The facility provides end-to-end research and development capabilities and will accelerate Takedas efforts to develop next-generation cell therapies, initially focused on oncology with the potential to expand into other therapeutic areas.

The R&D cell therapy manufacturing facility will produce cell therapies for clinical evaluation from discovery through pivotal Phase 2b trials. The current Good Manufacturing Practices (cGMP) facility is designed to meet all U.S., E.U., and Japanese regulatory requirements for cell therapy manufacturing to support Takeda clinical trials around the world.

The proximity and structure of Takedas cell therapy teams allow them to quickly apply what they learn across a diverse portfolio of next-generation cell therapies including CAR NKs, armored CAR-Ts, and gamma delta T cells. Insights gained in manufacturing and clinical development can be quickly shared across global research, manufacturing, and quality teams, a critical ability in their effort to deliver potentially transformative treatments to patients as fast as possible.

Takeda and MD Anderson are developing a potential best-in-class allogeneic cell therapy product (TAK-007), a Phase 1/2 CD19-targeted chimeric antigen receptor-directed natural killer (CAR-NK) cell therapy with the potential for off-the-shelf use being studied in patients with relapsed or refractory non-Hodgkins lymphoma (NHL) and chronic lymphocytic leukemia (CLL). Two additional Phase 1 studies of Takeda cell therapy programs were also recently initiated: 19(T2)28z1xx CAR T cells (TAK-940), a next-generation CAR-T signaling domain developed in partnership with Memorial Sloan Kettering Cancer Center (MSK) to treat relapsed/refractory B-cell cancers, and a cytokine and chemokine armored CAR-T (TAK-102) developed in partnership with Noile-Immune Biotech to treat GPC3-expressing previously treated solid tumors.

Takedas Cell Therapy Translational Engine (CTTE) connects clinical translational science, product design, development, and manufacturing through each phase of research, development, and commercialization. It provides bioengineering, chemistry, manufacturing, and control (CMC), data management, analytical, and clinical and translational capabilities in a single footprint to overcome many of the manufacturing challenges experienced in cell therapy development.

Key Insights Covered: Exhaustive Stem Cell Therapy Market

1. Market size (sales, revenue and growth rate) of Stem Cell Therapy industry.

2. Global major manufacturers operating situation (sales, revenue, growth rate and gross margin) of Stem Cell Therapy industry.

3. SWOT analysis, New Project Investment Feasibility Analysis, Upstream raw materials and manufacturing equipment & Industry chain analysis of Stem Cell Therapy industry.

4. Market size (sales, revenue) forecast by regions and countries from 2019 to 2025 of Stem Cell Therapy industry.

Research Methodology: Stem Cell Therapy Market

Looking for more? Check out our repository for all available reports on Stem Cell Therapy in related sectors.

Quick Read Table of Contents of this Report @ Stem Cell Therapy Market Research Report Forecast to 2029 (Includes Business Impact of COVID-19)

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Stem Cell Therapy Market Research Report Forecast to 2029 (Includes Business Impact of COVID-19) - Cheshire Media

Stem Cell Assay Market Overview, Development by Companies and Comparative Analysis by 2026 – Cheshire Media

The research study of the global Stem Cell Assay market provides the market size information and market trends along with the factors and parameters impacting it in both the short and long term. The report ensures a 360-degree assessment, bringing out the complete key insights of the industry. These insights help the business decision-makers to make better business plans and informed decisions for the future business. In addition, the study helps the venture capitalist in understanding the companies better and take informed decisions.

The Stem Cell Assay market research report provides essential statistics on the market position of the Stem Cell Assay manufacturers and is a valuable source of guidance and direction for companies and individuals interested in the industry. The report provides a basic summary of theStem Cell Assay industry including its definition, applications and manufacturing technology. The report presents the company profile, product specifications, capacity, production value, and market shares for key vendors.

The overall market is split by the company, by country, and by application/type for the competitive landscape analysis. The report estimates market development trends of Stem Cell Assay industry. Analysis of upstream raw materials, downstream demand and current market dynamics is also carried out. The Stem Cell Assay market report makes some important proposals for a new project of Stem Cell Assay Industry before evaluating its feasibility.

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Key segments covered in Stem Cell Assay market report: Major key companies, product type segment, end use/application segment and geography segment.

The information for each competitor includes:

Company segment, the report includes global key players of Stem Cell Assay as well as some small players:

For product type segment, this report listed the main product type of Stem Cell Assay market

For end use/application segment, this report focuses on the status and outlook for key applications. End users are also listed.

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This report covers the following regions:

Key Questions Answered in the Report:

We also can offer a customized report to fulfill the special requirements of our clients. Regional and Countries report can be provided as well.

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Stem Cell Assay Market Overview, Development by Companies and Comparative Analysis by 2026 - Cheshire Media

Precision BioSciences Reports Positive Interim Results from PBCAR0191 Phase 1/2a Trial in Relapsed/Refractory (R/R) Non-Hodgkin Lymphoma (NHL) and R/R…

DURHAM, N.C., Dec. 04, 2020 (GLOBE NEWSWIRE) -- Precision BioSciences Inc. (Nasdaq: DTIL) a clinical stage biotechnology company dedicated to improving life with its novel and proprietary ARCUS genome editing platform, today announced positive interim clinical results from its Phase 1/2a study of PBCAR0191, the Companys off-the-shelf allogeneic CAR T cell therapy investigational candidate targeting CD19. As of the November 16, 2020 cutoff, 27 patients including 16 patients with aggressive NHL and 11 patients with aggressive B-ALL were enrolled and evaluated.

Were very proud to share the latest update to our PBCAR0191 study. PBCAR0191, when combined with enhanced lymphodepletion resulted in a high objective response rate of 83% across enrolled NHL and B-ALL patients including those that previously received autologous CAR T therapy or stem cell transplants, said Matt Kane, CEO and Co-Founder of Precision BioSciences. We believe that this data set represents an important and meaningful step forward in the development of allogeneic CAR T therapies and establishes Precision BioSciences as a leader in the field.

I am extremely encouraged by what we have observed in this Phase I clinical trial of PBCAR0191. The data answered multiple questions associated with allogeneic cell therapies, including having seen no cases of GvHD. In the enhanced lymphodepletion arm, we observed the highest complete response rate seen to date in R/R aggressive NHL with an allogeneic product, said Bijal Shah, M.D., Associate Professor, Malignant Hematology Department, H. Lee Moffitt Cancer Center and Research Institute. As a result, I am encouraged that the interim data from the PBCAR0191 Phase 1 trial is a meaningful step toward the goal of an off-the-shelf CAR T product that could help patients immediately, when they need it most.

Trial Design Interim data from the Phase 1/2a study of PBCAR0191 includes data from 27 patients: 16 patients with R/R NHL and 11 patients with R/R B-ALL from multiple dose levels. In the NHL cohort, 100% of patients had aggressive lymphomas, 81% had stage III/IV disease, 63% had four or more courses of prior treatment and 25% had prior autologous CAR T. In the B-ALL cohort, 55% of patients had >20% blasts burden at baseline, 82% had 4+ courses of prior treatment and 45% had prior allogeneic stem cell transplant.

PBCAR0191 treatment at dose level (DL) 1 (3x105 cells), DL2 (1x106 cells), DL3 (3x106 cells) and split dose DL4 (2 doses at 3x106 cells) employed a single standard lymphodepletion (sLD) consisting of fludarabine (30 mg/m2/day for 3 days) plus cyclophosphamide (500 mg/m2/day for 3 days). PBCAR0191 was also dosed in an Enhanced Lymphodepletion Regimen consisting of PBCAR0191 cells at DL3 (n=5) or DL4 (n=1) plus fludarabine (30 mg/m2/day for 4 days) and cyclophosphamide (1000 mg/m2/day for 3 days).

For this study, in which patients received either sLD or eLD, response rates across R/R NHL and R/R B-ALL patient cohorts were as follows:

PBCAR0191, which incorporates Precisions patented N6 co-stimulatory domain, demonstrated a clear dose dependent increase in peak cell expansion. Compared to sLD, eLD with PBCAR0191 at DL3 resulted in approximately 95-fold increase in peak cell expansion, and approximately 45-fold increase in area under the curve. This was associated with a higher complete response rate in NHL (75%).

Safety and Tolerability In this dose escalation and dose expansion study, PBCAR0191 had an acceptable safety profile with no cases of GvHD, no cases of Grade 3 CRS, and no cases of Grade 3 ICANS.

One NHL patient who was treated with PBCAR0191 and eLD had previously received nine prior lines of therapy before entering the trial. The patient presented with persistent cytopenias at baseline and a history of infections, including bacterial sepsis. The patient had an episode of sepsis at day 27 which appeared to have resolved at day 33, following which a partial response was achieved at day 34. Unfortunately, the patient died at day 42 with grade 5 sepsis.

We are rapidly leveraging learnings from this study and enrolling more patients into our enhance lymphodepletion regimen. In parallel, we continue to evaluate higher cell doses, repeat dosing and other novel methods to further optimize our dosing strategy, said Chris Heery, Chief Medical Officer at Precision BioSciences. We also plan to pursue clinical development of PBCAR19B, our CD19 Stealth Cell candidate, which has shown to delay both T cell and natural killer cell mediated allogeneic rejection in vitro. We believe this is likely to result in improved persistence of allogeneic CAR T cells. We expect to move PBCAR19B into the clinic in 2021.

Company-Hosted Conference Call and Web Cast Information Precision will host a conference call and webcast today, December 4, 2020 at 8:00 a.m. ET to discuss the updated interim clinical data and the learnings for PBCAR0191 from both the NHL and B-ALL cohorts of this trial, as well as PBCAR19B. The dial-in conference call numbers for domestic and international callers are (866) 996-7202 and (270) 215-9609, respectively. The conference ID number for the call is 6368255. Participants may access the live webcast and the accompanying presentation materials on Precisions website https://investor.precisionbiosciences.com/events-and-presentations in the Investors and Media section under Events and Presentations. An archived replay of the webcast will be available on Precisions website.

About Precision BioSciences, Inc. Precision BioSciences, Inc. is a clinical stage biotechnology company dedicated to improving life (DTIL) with its novel and proprietary ARCUS genome editing platform. ARCUS is a highly specific and versatile genome editing platform that was designed with therapeutic safety, delivery, and control in mind. Using ARCUS, the Companys pipeline consists of multiple off-the-shelf CAR T immunotherapy clinical candidates and several in vivo gene correction therapy candidates to cure genetic and infectious diseases where no adequate treatments exist. For more information about Precision BioSciences, please visit http://www.precisionbiosciences.com.

About PBCAR0191 PBCAR0191 is an investigational allogeneic chimeric antigen receptor T cell therapy (CAR T) in Phase 1/2a trials for the treatment of patients with R/R NHL and R/R B-ALL. PBCAR0191 was designed using Precision BioSciences novel and proprietary ARCUS genome editing platform. It has been granted Fast Track Designation by the FDA for B-ALL. Precision also holds Orphan Drug Designation from the FDA for this program in mantle cell lymphoma, an aggressive subtype of NHL. PBCAR0191 is being developed in collaboration with Servier.

About Precisions Collaboration with Servier Under the terms of the agreement with Servier, Precision is solely responsible for early-stage research activities as well as PBCAR0191 Phase 1/2a clinical trial execution and clinical supply. Servier has the exclusive right to opt in for late-stage development and commercialization, and Precision has the right to participate in the development and commercialization of any licensed products resulting from the collaboration through a 50/50 co-development and co-promotion option in the United States.

Forward-Looking Statements This press release contains forward-looking statements within the meaning of the Private Securities Litigation Reform Act of 1995. All statements contained in this press release that do not relate to matters of historical fact should be considered forward-looking statements, including, without limitation, statements regarding the expected timing of clinical updates and interim data reports related to PBCAR0191 and the commencement of clinical studies for PBCAR19B. In some cases, you can identify forward-looking statements by terms such as aim, anticipate, believe, could, expect, should, plan, intend, estimate, target, mission, goal, may, will, would, should, could, target, potential, project, predict, contemplate, potential, or the negative thereof and similar words and expressions.

Forward-looking statements are based on managements current expectations, beliefs and assumptions and on information currently available to us. Such statements are subject to a number of known and unknown risks, uncertainties and assumptions, and actual results may differ materially from those expressed or implied in the forward-looking statements due to various important factors, including, but not limited to: our ability to become profitable; our ability to procure sufficient funding and requirements under our current debt instruments and effects of restrictions thereunder; risks associated with raising additional capital; our operating expenses and our ability to predict what those expenses will be; our limited operating history; the success of our programs and product candidates in which we expend our resources; our limited ability or inability to assess the safety and efficacy of our product candidates; our dependence on our ARCUS technology; the initiation, cost, timing, progress, achievement of milestones and results of research and development activities, preclinical or greenhouse studies and clinical or field trials; public perception about genome editing technology and its applications; competition in the genome editing, biopharmaceutical, biotechnology and agricultural biotechnology fields; our or our collaborators ability to identify, develop and commercialize product candidates; pending and potential liability lawsuits and penalties against us or our collaborators related to our technology and our product candidates; the U.S. and foreign regulatory landscape applicable to our and our collaborators development of product candidates; our or our collaborators ability to obtain and maintain regulatory approval of our product candidates, and any related restrictions, limitations and/or warnings in the label of an approved product candidate; our or our collaborators ability to advance product candidates into, and successfully design, implement and complete, clinical or field trials; potential manufacturing problems associated with the development or commercialization of any of our product candidates; our ability to obtain an adequate supply of T cells from qualified donors; our ability to achieve our anticipated operating efficiencies at our manufacturing facility; delays or difficulties in our and our collaborators ability to enroll patients; changes in interim top-line and initial data that we announce or publish; if our product candidates do not work as intended or cause undesirable side effects; risks associated with applicable healthcare, data protection, privacy and security regulations and our compliance therewith; the rate and degree of market acceptance of any of our product candidates; the success of our existing collaboration agreements, and our ability to enter into new collaboration arrangements; our current and future relationships with and reliance on third parties including suppliers and manufacturers; our ability to obtain and maintain intellectual property protection for our technology and any of our product candidates; potential litigation relating to infringement or misappropriation of intellectual property rights; our ability to effectively manage the growth of our operations; our ability to attract, retain, and motivate key executives and personnel; market and economic conditions; effects of system failures and security breaches; effects of natural and manmade disasters, public health emergencies and other natural catastrophic events effects of the outbreak of COVID-19, or any pandemic, epidemic or outbreak of an infectious disease; insurance expenses and exposure to uninsured liabilities; effects of tax rules; risks related to ownership of our common stock and other important factors discussed under the caption Risk Factors in our Quarterly Report on Form 10-Q for the quarterly period ended September 30, 2020, as any such factors may be updated from time to time in our other filings with the SEC, which are accessible on the SECs website at http://www.sec.gov and the Investors & Media page of our website at investor.precisionbiosciences.com.

All forward-looking statements speak only as of the date of this press release and, except as required by applicable law, we have no obligation to update or revise any forward-looking statements contained herein, whether as a result of any new information, future events, changed circumstances or otherwise.

Investor Contact: Alex Kelly Chief Corporate Affairs Officer Alex.Kelly@precisionbiosciences.com

Media Contact: Maurissa Messier Senior Director, Corporate Communications Maurissa.Messier@precisionbiosciences.com

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Precision BioSciences Reports Positive Interim Results from PBCAR0191 Phase 1/2a Trial in Relapsed/Refractory (R/R) Non-Hodgkin Lymphoma (NHL) and R/R...

Cancer center is a contributor to 49 research studies at the 62nd American Society of Hematology Annual Meeting – Newswise

Newswise Researchers from The University of Kansas Cancer Center are involved in the presentation of nearly 50 research studies at the 62ndAmerican Society of Hematology (ASH) Annual Meeting, to be held virtually Dec. 5-8 because of the COVID-19 pandemic. With more than 18,000 members from nearly 100 countries, the ASH is the world's largest professional society serving both clinicians and scientists around the world who are working to conquer blood diseases.

The KU Cancer Center is one of only 71 cancer centers designated by the National Cancer Institute because they meet rigorous standards for transdisciplinary, state-of-the-art research focused on developing new and better approaches to preventing, diagnosing and treating cancer. Its catchment area includes the state of Kansas as well as western Missouri.

These 49 research studies represent the hard work of our many researchers focused on blood diseases, said Roy Jensen, M.D., director of the KU Cancer Center. This includes innovations in immunotherapy, advances in leukemia and significant work in stem cell transplants. While the conference is virtual this year, the KU Cancer Center will be well represented.

While a full list of abstracts involving KU Cancer Center researchers can be found online, three of the most significant are listed below.

# # #

About The University of Kansas Cancer Center:

The University of Kansas Cancer Center is transforming cancer research and clinical care by linking an innovative approach to drug discovery, delivery and development to a nationally-accredited patient care program. Our consortium center includes cancer research and health care professionals associated with the University of Kansas Medical Center and The University of Kansas Health System; the University of Kansas, Lawrence; The Stowers Institute for Medical Research; Childrens Mercy; and in partnership with members of the Masonic Cancer Alliance.

About the University of Kansas Medical Center:

The University of Kansas Medical Centers mission is to educate exceptional health care professionals through a full range of undergraduate, graduate, professional, postdoctoral and continuing education programs in the schools of Medicine, Nursing and Health Professions. KU Medical Center also advances the health sciences through world-class research programs; provides compassionate and state-of-the-art patient care in an academic medical center environment; and works with communities in every Kansas county to improve the health of Kansans.

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Cancer center is a contributor to 49 research studies at the 62nd American Society of Hematology Annual Meeting - Newswise

Bayer Launches Cell and Gene Therapy Platform to Maximize Recent Acquisitions – BioSpace

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Less than two months after life sciences giant Bayer acquired N.C.-based AskBio, a gene therapy company, the healthcare giant launched a cell and gene therapy platform within its pharmaceutical division.

This morning, Bayer said the launch of the new platform is a deeply transformative move for its business. Stefan Oelrich, a member of Bayers Board of Management and president of the companys Pharmaceuticals Division, pointed to the impact cell and gene therapies have made in treating diseases and said the companys goal is to be at the forefront of this revolution in science. The company tapped Wolfram Carius, its current vice president of Pharmaceuticals Product Supply, to head the new program.

The C> field is growing at an unprecedented pace. With the establishment of Bayers own C> Platform our company will propel its presence in this area. This will complement our existing C> pipeline which already includes five advanced assets with at least three investigational new drugs annually for the next years, Oelrich said in a statement.

To boost its cell and gene therapy presence, Bayer said it is strengthening its internal capabilities and will also pursue external strategic collaborations, technology acquisitions and licensing. In October, the company acquired AskBio's AAV-based gene therapy pipeline of treatments and its Pro10 AAV manufacturing process, which has become something of a standard across the industry. The Pro10 AAV process is used by multiple companies, including Pfizer, Takeda and Viralgen Vector Core SA.Bayer now owns AskBios pipeline of treatments for Pompe disease, Parkinsons disease, as well as therapies for neuromuscular, central nervous system, cardiovascular and metabolic diseases.

The addition of AskBio complements Bayers other cell and gene therapy company, BlueRock Therapeutics, which itacquired last year. BlueRock is developing induced pluripotent stem cells (iPSC), with its most advanced program aimed at Parkinsons disease. In addition to the two companies, Bayer also acquired a contract manufacturing organization that specializes in gene therapy. Bayer said it has established a C> pipeline that includes five advanced assets and more than fifteen preclinical candidates.

The new C> Platform will combine multiple functions by providing support across the entire value chain for the research and development of cell and gene therapies, the company said. This includes support in preclinical development, CMC, clinical programs, project management and more. The platform will guide projects form concept through commercial launch. The goal is to build robust platforms with broad application across different therapeutic areas, the company said.

The emerging bio revolution represents a once-in-a-lifetime opportunity and a new era for Bayer, said Carius said in a statement. A dedicated C> Platform is vital to accelerate innovation at its source, and to ensure its translation into tangible therapies for patients who have no time to wait.

The C> Platform will allow its partners to operate autonomously to develop and progress their portfolio and technology. The role of Bayers C> Platform is to serve as a strategic guide to ensure the different parts of the organization complement each other and combine the best in Biotech and Pharma know-how.

The formation of the C> Platform comes one day after Bayer and Blackford Analysis entered into a development and license agreement to establish an artificial intelligence (AI) platform for medical imaging. The platform will enable the integration of AI applications into the medical imaging workflow which can support the complex decision-making process of radiologists and is intended to enhance diagnostic confidence, the companies said.

Also this week, Bayer sold most of its stake in Elanco Animal Health for $1.6 billion to cover legal bills from ongoing litigation over the weedkiller Roundup and its alleged role as a carcinogen. Bayer owned approximately 15.5% of Elanco, but faces nearly $11 billion in potential damages related to Roundup lawsuits. In June, the company proposed a $12 billion agreement to resolve Roundup litigation.

Last week, a federal judge rejected a $650 million settlement claim for pollution related to polychlorinated biphenyl, or PCB, which is used to cool heavy-duty electrical equipment.

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Chrysalis BioTherapeutics Receives $10.4 Million From BARDA to Continue Development of TP508 as a Nuclear Countermeasure – Business Wire

GALVESTON, Texas--(BUSINESS WIRE)--Chrysalis BioTherapeutics, Inc., a clinical-stage biotechnology company focused on the development of regenerative medicines to save lives, announced today that the Biomedical Advanced Research and Development Authority (BARDA) part of the Office of the Assistant Secretary for Preparedness and Response (ASPR) within the U.S. Department of Health and Human Services executed options to add $10.4 million under contract # HHSO100201900016C with the Company to develop TP508 (ChrysalinTM ) as a nuclear medical countermeasure.

Chrysalis will conduct safety studies and additional options required to achieve Emergency Use Authorization and Animal Rule approval for TP508 as a medicinal treatment for acute and delayed effects of ionizing radiation exposure. TP508 mechanism of action represents a potential first in class countermeasure to mitigate radiation-induced vascular damage, reduce inflammation, prevent hemorrhage, and restore tissue function.

The decision of BARDA to further support the development of TP508 is evidence of successful milestones achieved under the original contract and emphasizes the potential of TP508 to save lives as an effective stand-alone post-exposure countermeasure or as a valuable therapeutic for use in combination with other countermeasure agents, said Chrysalis CEO, Dr. Darrell Carney.

This contract modification includes options to initiate nonclinical and human clinical safety/PK studies, assay development, large scale manufacturing, and clinical formulation development. This increases the total BARDA funding for this contract to over $21 million.

Our hope is that TP508 will never have to be used as a nuclear countermeasure, said Executive VP, Dr. Laurie Sower, But results show that if needed, a single injection of TP508 given 24 hours after a nuclear event may increase survival and prevent delayed radiation effects throughout the body.

About TP508

TP508 is a regenerative peptide drug representing a natural part of human thrombin that is released upon tissue injury to stimulate vascular and stem cell repair and to regenerate damaged tissue. TP508 has demonstrated safety and potential efficacy in non-clinical and in human clinical tissue repair trials, but it is not yet FDA-approved and only available for investigational use. TP508 is also in development as a potential solution to prevent thrombosis and systemic vascular damage caused by SARS-CoV-2 infection.

Chrysalis BioTherapeutics, Inc. is a biopharmaceutical company located in Galveston, TX. TP508 (rusalatide acetate) is licensed from The University of Texas Medical Branch Galveston, TX. For additional information, contact Dr. Darrell Carney, CEO, at dcarney@chrysbio.com or visit http://www.chrysbio.com.

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Chrysalis BioTherapeutics Receives $10.4 Million From BARDA to Continue Development of TP508 as a Nuclear Countermeasure - Business Wire

Reversing vision loss by turning back the aging clock – FierceBiotech

Aging has implications for a wide range of diseases. Researchers have been looking for ways to halt the aging process for millennia, but such methods remain elusive. Scientists at Harvard Medical School have now offered a glimmer of hope that the aging clock in the eye could be reversedat least in animals.

By reprogramming the expression of three genes, the Harvard team successfully triggered mature nerve cells in mice eyes to adopt a youthful state. The method reversed glaucoma in the mice and reversed age-related vision loss in elderly mice, according to results published in Nature.

GenScript ProBio is the bio-pharmaceutical CDMO segment of the worlds leading biotech company GenScript, proactively providing end-to-end service from drug discovery to commercialization with professional solutions and efficient processes to accelerate drug development for customers.

If further studies prove out the concept, they could pave the way for therapies that employ the same approach to repair damagein other organs and possibly treat age-related diseases in humans, the team said.

The researchers focused on the Yamanaka factors, which are four transcription factorsOct4, Sox2, Klf4 and c-Myc. In a Nobel Prize-winning discovery, Shinya Yamanaka found that the factors can change the epigenomehow genes are turned on or offand can thereby transform mature cellsback to a stem cell-like state. It has been hypothesized that changes to the epigenome drive cell aging, especially a process called DNA methylation, by which methyl groups are tagged onto DNA.

Past researches have tried to use the four Yamanaka factorsto turn back the age clock in living animals, but doing so caused cells to adopt unwanted new identities and induced tumor growth.

RELATED:Restoring eyesight with genetically engineered stem cells

To test whether the approach works in living animals, the scientists used adeno-associated virus to deliver the three genes into the retina of mice with optic nerve injuries. The treatment led to a two-fold increase in the number of retinal ganglion cells, which are neurons responsible for receiving and transmitting visual information. Further analysis showed that the injury accelerated DNA methylation age, while the gene cocktail counteracted that effect.

Next the scientists tested whether the gene therapy could also work in disease settings. In a mouse model of induced glaucomawhich is a leading cause of age-related blindness in peoplethe treatment increased nerve cell electrical activity and the animals visual acuity.

But can the therapy also restore vision loss caused by natural aging? In elderly, 12-month-old mice, the gene therapy also restored ganglion cells electrical activity as well as visual acuity, the team reported.

By comparing cells from the treated micewith retinal ganglion cells from young, 5-month-old mice, the researchers found that mRNA levels of 464 genes were altered during aging, and the gene therapy reversed 90% of those changes. The scientists also noticed reversed patterns of DNA methylation, which suggests that DNA methylation is not just the marker but rather the driver behind aging.

What this tells us is the clock doesn't just represent timeit is time. If you wind the hands of the clock back, time also goes backward, the studys senior author, David Sinclair, explained in a statement.

The study marks the first time that glaucoma-induced vision loss was reversednot just slowedin living animals, according to the team.

RELATED:Reprogrammed skin cells restore sight in mouse models of retinal disease

Other researchers are also studying regenerative approaches to treating eye diseases. A research group at the Centre for Genomic Regulation in Barcelona just showed that by modifying mesenchymal stem cells to express chemokine receptors Ccr5 and Cxcr6, retinal tissue could be saved from degeneration.

The idea of reversing age-related decline in humans by epigenetic reprogramming with a gene therapy is exciting, Sinclair said. The Harvard researchers intend to do more animal work that could allow them to start clinical trials in people with glaucoma in about two years.

Our study demonstrates that it's possible to safely reverse the age of complex tissues such as the retina and restore its youthful biological function, Sinclair said. If affirmed through further studies, these findings could be transformative for the care of age-related vision diseases like glaucoma and to the fields of biology and medical therapeutics for disease at large.

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Clinical Trials Offer Opportunities to Change Practice to Improve Prevention and Treatment of Blood Disorders – PRNewswire

WASHINGTON, Dec. 4, 2020 /PRNewswire/ --Four studies being presented during the 62nd American Society of Hematology (ASH) Annual Meeting and Exposition present opportunities to improve care for patients with a variety of blood disorders. Together, the studies provide support for new clinical approaches such as alternate treatment delivery methods, updated uses for existing therapies, and earlier referrals to specialty care.

"These are very practical trials with real-world implications," said press briefing moderator Lisa Hicks, MD, of St. Michael's Hospital and the University of Toronto. "They address important questions relevant to everyday practice in the clinic."

The first study supports administering the monoclonal antibody daratumumab for multiple myeloma via a quick injection instead of an intravenous infusion, an approach that could save significant time for patients and clinics.

The second study found that, despite being routinely used in practice, the clot stabilizer tranexamic acid does not prevent bleeding when used prophylactically for patients undergoing treatment for blood cancers, although it leaves open the possibility that the drug may be an effective treatment for these patients when bleeding occurs.

The third study reports the drug ruxolitinib can offer relief for patients with chronic graft-versus-host disease (GVHD) after a stem cell transplant, suggesting ruxolitinib is a viable second-line treatment for patients whose symptoms are not fully resolved with corticosteroids.

Finally, the fourth study supports referring older patients with myelodysplastic syndromes to transplant centers for allogeneic hematopoietic cell transplantation, an important shift from current practice that could offer many more patients the potential for a cure.

This press briefing will take place on Friday, December 4, at 9:30 a.m. Pacific time on the ASH annual meeting virtual platform.

Study Bolsters Case for Delivering Daratumumab Subcutaneously for Multiple Myeloma412: Apollo: Phase 3 Randomized Study of Subcutaneous Daratumumab Plus Pomalidomide and Dexamethasone (D-Pd) Versus Pomalidomide and Dexamethasone (Pd) Alone in Patients (Pts) with Relapsed/Refractory Multiple Myeloma (RRMM)

A new study suggests the monoclonal antibody daratumumab has similar benefits when delivered via subcutaneous injection as it does when delivered intravenously to individuals with multiple myeloma which persists or recurs after first-line treatments. Patients given subcutaneous daratumumab along with the immunomodulator pomalidomide and the anti-inflammatory steroid dexamethasone were 37% less likely to die or have their disease worsen compared to patients who received pomalidomide and dexamethasone alone in the phase III trial.

"This is an effective combination with a predictable safety profile that allows for the use of subcutaneous daratumumab along with oral pomalidomide and dexamethasone for patients who have received at least one prior line of therapy that included lenalidomide and a proteasome inhibitor," said senior study authorMeletios A. Dimopoulos, MD,of National and Kapodistrian University of Athens in Athens, Greece. "Subcutaneous daratumumab is much easier for the patient and reduces the time they need to spend at the outpatient chemotherapy unit."

The combination of intravenous daratumumab and pomalidomide with dexamethasone has been widely adopted in the U.S. as a second-line therapy for patients whose multiple myeloma does not respond durably to lenalidomide and proteasome inhibitors. However, delivering daratumumab intravenously typically requires patients to spend a full day at the clinic for each infusion. Administering the therapy via a five-minute subcutaneous injection can substantially reduce the burden for patients and clinics, Dr. Dimopoulos said.

The researchers enrolled 304 patients in 12 European countries. Half were randomly assigned to receive daratumumab plus pomalidomide with dexamethasone and half only received pomalidomide with dexamethasone. Patients underwent 28-day treatment cycles until their disease worsened or they experienced unacceptable side effects.

About one-third of patients died during the trial's median follow-up period of about 17 months. The study met its primary endpoint, showing a significantly higher rate of progression-free survival at 12 months among patients receiving the combination therapy. Participants receiving the daratumumab-pomalidomide combination were treated for a median of nearly 12 months, substantially longer than the median treatment duration of less than seven months among those receiving pomalidomide alone.

Patients receiving daratumumab experienced adverse events at a rate consistent with previous studies, raising no new safety concerns. Dr. Dimopoulos said the findings suggest the combination therapy can be a good option for patients who have not experienced lasting benefits from lenalidomide and proteasome inhibitors, particularly those whose cancer is resistant to lenalidomide. He noted that the study suggested a slight trend toward increased survival in the daratumumab arm, but additional follow-up is necessary to assess any survival benefit.

Meletios A. Dimopoulos, MD,National and Kapodistrian University of Athens, will present this study in an oral presentation on Sunday, December 6, at 12:00 noon Pacific time on the ASH annual meeting virtual platform.

Tranexamic Acid Not Found to Prevent Bleeding in Patients with Blood Cancers 2: Effects of Tranexamic Acid Prophylaxis on Bleeding Outcomes in Hematologic Malignancy: The A-TREAT Trial

The clot stabilizer tranexamic acid performed no better than placebo when administered prophylactically to prevent bleeding in patients with blood cancers who also received routine prophylactic platelet transfusions. Researchers cautioned that the study's focus is different from other situations in which tranexamic acid has been found effective, such as its use in treating bleeding related to childbirth, surgery, or inherited blood disorders.

"Clearly patients with low platelet counts and blood cancers have a different kind of bleeding than the bleeding experienced by patients who have suffered some kind of trauma or surgery," said senior study author Terry B. Gernsheimer, MD, of the University of Washington School of Medicine. "Their bleeding likely is due to endothelial damage damage to the lining of blood vessels that tranexamic acid would not treat. To prevent bleeding in these patients, we may need to look at ways to speed the healing of the endothelium that occurs with chemotherapy, radiation, and graft-versus-host disease in patients receiving a transplant."

Between 48% and 70% of patients undergoing treatment for blood cancers experience bleeding complications of World Health Organization grade 2 or higher. Though not life-threatening, grade 2 bleeding for example, a nosebleed lasting more than 30 minutes can be concerning. Bleeding of grade 3 or 4 can be life-threatening and warrant blood transfusions. Most patients undergoing treatment for blood cancers are routinely given platelet transfusions to prevent bleeding, but many continue to experience bleeding episodes, nevertheless.

Tranexamic acid works by slowing the process by which blood clots naturally break down. To determine whether tranexamic acid could help to further reduce bleeding in these patients, the researchers enrolled 327 patients undergoing treatment for blood cancers at three U.S. medical centers. Half were randomly assigned to receive tranexamic acid and half received a placebo, administered either orally or intravenously three times a day until they recovered their platelet count, or for up to 30 days. Researchers regularly followed up with participants to assess bleeding events both in and outside of the hospital.

The results revealed no significant differences among the study groups in terms of the number of bleeding events, the number of red blood cell transfusions, or the number of platelet transfusions patients required during the treatment period and for up to 14 days afterward. Patients receiving tranexamic acid had a significantly higher rate of occlusions in their central venous line (a catheter placed in a large vein commonly used for delivering cancer drugs) which required clearing with a clot-dissolving drug, but there was no difference in the occurrence of clots in patients' veins or arteries.

Dr. Gernsheimer noted that other studies could help elucidate whether the drug may be helpful for specific subgroups of patients with blood cancers or as a treatment for bleeding, rather than as a preventive measure in these patients. It may also be useful to prevent or treat bleeding in patients with other causes of low platelet counts.

Terry B. Gernsheimer, MD, University of Washington School of Medicine, will present this study in a plenary presentation on Sunday, December 6, 2020 at 7:00 a.m. Pacific time on the ASH annual meeting virtual platform.

Researchers Report First Successful Second-Line Treatment for Chronic Graft-Versus-Host Disease77: Ruxolitinib (RUX) Vs Best Available Therapy (BAT) in Patients with Steroid- Refractory/Steroid-Dependent Chronic Graft-Vs-Host Disease (cGVHD): Primary Findings from the Phase 3, Randomized REACH3 Study

The drug ruxolitinib brought relief from the debilitating effects of chronic graft-versus-host disease (GVHD) at twice the rate of the best available therapy in a phase III trial. The findings represent a major step forward for patients with chronic GVHD that is not resolved by taking corticosteroids, said researchers. There is currently no approved second-line therapy for chronic forms of the disease.

"This is the first multicenter randomized controlled trial for chronic, steroid-refractory or steroid-dependent GVHD that is positive," said senior study authorRobert Zeiser, PhD,of University Medical Center, Freiburg Im Breisgau, Germany. "It shows a significant advantage for ruxolitinib. It is likely that this trial will lead to approval for this indication and change the guidelines for the treatment of this disease."

GVHD is a complication of allogeneic hematopoietic (stem) cell transplantation, a therapy used to treat blood cancers. It occurs when T cells (the graft) received from a donor through the transplant see the patient's healthy cells and tissue (the host) as foreign and start to attack them. Roughly half of patients undergoing a stem cell transplant develop GVHD. About half of these patients are able to resolve their symptoms with a temporary course of corticosteroids, a class of drugs that lower inflammation in the body. The remaining patients either do not respond to steroids, cannot take them, or must take them continuously to stave off symptoms.

Ruxolitinib is designed to block a molecular signal involved in triggering inflammation. A previous trial, REACH2, found that ruxolitinib offered benefits for patients with acute GVHD, a severe form of GVHD with a mortality rate of 80%. The new trial, REACH3, aimed to determine whether the drug could bring similar benefits for the much larger number of patients affected by chronic GVHD. While chronic GVHD is not nearly as deadly as acute GVHD, its symptoms, which include weight loss, skin stiffness, and multiple disabilities, can severely and permanently affect patients' quality of life.

Researchers enrolled 329 patients with moderate-to-severe chronic GVHD. Half were randomly assigned to receive ruxolitinib for six 28-day cycles. The other half received one of nine alternative treatments, representing the best available therapy, at the discretion of their physician. At the end of the six treatment cycles, researchers assessed symptoms of 125 patients who had completed the full course of treatment to which they were assigned.

The trial met its primary endpoint, showing a clear and substantial improvement in the overall response to treatment among patients taking ruxolitinib. Of the 125 patients assessed, 50% of those receiving ruxolitinib had at least some reduction in symptoms, compared to only 25% among those receiving best available therapy. Seven percent of those taking ruxolitinib saw their symptoms resolve completely, compared to only 3% among those receiving best available therapy.

Participants in both arms of the study experienced similar rates of adverse events, which aligned with the health challenges commonly faced by patients with chronic GVHD, suggesting ruxolitinib has an acceptable safety profile in these patients, according to Dr. Zeiser.

Robert Zeiser, PhD, University Medical Center, Freiburg Im Breisgau, Germany, will present this study in an oral presentation on Saturday, December 5, at 8:00 a.m. Pacific time on the ASH annual meeting virtual platform.

Curative Transplant Improves Survival for Older Adults with Myelodysplastic Syndrome75: A Multi-Center Biologic Assignment Trial Comparing Reduced Intensity Allogeneic Hematopoietic Cell Transplantation to Hypomethylating Therapy or Best Supportive Care in Patients Aged 50-75 with Advanced Myelodysplastic Syndrome: Blood and Marrow Transplant Clinical Trials Network Study 1102

Allogeneic hematopoietic cell transplantation nearly doubled the rate of survival among patients 50 to 75 years old with myelodysplastic syndrome (MDS) in a trial conducted by the Blood and Marrow Transplant Clinical Trials Network. Despite being the only known cure for MDS, this therapy is typically only offered to younger patients because its benefits for older adults have not previously been proven. Researchers say the study offers the most definitive evidence to date that this type of stem cell transplantation significantly improves the outlook for older adults who would otherwise face a high likelihood of dying.

"Transplantation has been underutilized, historically, in this patient group," said senior study author Corey Cutler, MD, MPH,of Dana-Farber Cancer Institute. "Based on our findings, all patients should at least be referred to a transplant center so that those who are eligible and who have a suitable donor can undergo transplant and have better survival. It is important to refer these patients early so that the transplant center can work on finding an optimal donor right from the get-go."

Allogeneic hematopoietic (stem) cell transplantation is a process to replace a recipient's stem cells and immune system with cells from a healthy donor. It is the only known method to cure patients with MDS. The Centers for Medicare and Medicaid Services (CMS) covers transplantation for MDS as part of a Coverage with Evidence Development program. CMS approved the design of the trial and is expected to consider the findings when determining future payment policies.

Researchers from the Blood and Marrow Transplant Clinical Trials Network enrolled 384 patients treated for MDS at 34 U.S. medical centers. Patients were referred to transplant centers, which searched for suitable stem cell donors. The 260 patients who were matched with a donor within 90 days were assigned to receive a stem cell transplant; the other 124 patients with no suitable donor received standard supportive care. Participants were followed for roughly three years from their date of enrollment.

Overall survival was much higher in patients assigned to receive a stem cell transplant (47.9%) compared to those who were not (26.6%) at three years from treatment assignment. Leukemia-free survival was also higher in those assigned to receive a transplant (35.8%) than those who were not (20.6%). The researchers observed no significant differences among subgroups and no differences in quality of life between the two study arms.

Dr. Cutler noted that starting the transplantation process as early as possible can increase a patient's chance of finding a suitable donor and successfully proceeding with a transplant.

This study was co-funded by the National, Heart, Lung and Blood Institute (NHLBI) and the National Cancer Institute (NCI), both part of the National Institutes of Health.

Corey Cutler, MD, MPH, Dana-Farber Cancer Institute, will present this study in an oral presentation on Saturday, December 5, at 7:30 a.m. Pacific time on the ASH annual meeting virtual platform.

Additional press briefings will take place throughout the meeting on health disparities, genome editing and cellular therapy, COVID-19, and late-breaking abstracts. For the complete annual meeting program and abstracts, visit http://www.hematology.org/annual-meeting. Follow ASH and #ASH20 on Twitter, Instagram, LinkedIn, and Facebook for the most up-to-date information about the 2020 ASH Annual Meeting.

The American Society of Hematology (ASH) (www.hematology.org) is the world's largest professional society of hematologists dedicated to furthering the understanding, diagnosis, treatment, and prevention of disorders affecting the blood. For more than 60 years, the Society has led the development of hematology as a discipline by promoting research, patient care, education, training, and advocacy in hematology. ASH publishes Blood (www.bloodjournal.org), the most cited peer-reviewed publication in the field, and Blood Advances (www.bloodadvances.org), an online, peer-reviewed open-access journal.

SOURCE American Society of Hematology

http://www.hematology.org

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Clinical Trials Offer Opportunities to Change Practice to Improve Prevention and Treatment of Blood Disorders - PRNewswire