Notch Therapeutics Closes $85 Million Series A Financing to Develop Pipeline of Renewable Stem Cell-Derived Cancer Immunotherapies – PRNewswire

VANCOUVER, BC, Feb. 10, 2021 /PRNewswire/ --Notch Therapeutics, Inc., a biotechnology company developing renewable, induced pluripotent stem cell (iPSC)-derived cell therapies for cancer, announced today the closing of an oversubscribed U.S. $85 million Series A financing. The financing was led by an exclusively healthcare-focused investment fund, with participation by existing investors Allogene Therapeutics, Inc. (NASDAQ: ALLO), Lumira Ventures, and CCRM Enterprises Holdings Ltd., an affiliate of Centre for Commercialization of Regenerative Medicine (CCRM); along with new investors EcoR1 Capital, a undisclosed leading global investment firm, Casdin Capital, Samsara BioCapital, and Amplitude Ventures. Proceeds from the financing will support the continuing development of Notch's portfolio of iPSC-derived T cell therapeutic product candidates and clinical readiness of the company's proprietary Engineered Thymic Niche (ETN) platform. The financing will also enable Notch to expand its team to support the company's future growth, including establishing operations in Seattle, in addition to the company's existing operations in Vancouver and Toronto.

"We are gratified to have the confidence of this exceptional group of investors and have them share in our vision that our platform can be game-changing for cell therapies by easing cell manufacturing and broadening their clinical and commercial potential," said David Main, President and Chief Executive Officer of Notch. "The level of interest in this financing round enabled us to far exceed our original capital-raising goals. With this support, Notch is well positioned to support our partners and advance development of our initial cell therapy products for patients with cancer."

Notch is applying its scalable Engineered Thymic Niche (ETN) technology platform to develop homogeneous and universally compatible, stem cell-derived cell therapies. To date, Notch has assembled a world-class scientific team and built a fully integrated, tightly controlled platform for generating and editing immune cells from clonal stem cells to enable development of a broad range of T cell therapeutics. Notch has an existing partnership with Allogene Therapeutics to apply Notch's proprietary ETN platform to develop CAR-targeted, iPSC-derived, off-the-shelf T cell or natural killer (NK) cell therapies for hematologic cancer indications.

"We have great confidence in Notch's high-caliber management team and the rigorous science underlying its research programs," said David Chang, M.D., Ph.D., President, Chief Executive Officer, and Co-Founder of Allogene and a member of the Notch Board of Directors. "We are impressed by the company's innovation and accomplishments and pleased to continue our support of Notch as the company advances the development of a new generation of cell therapies for cancer and other immune disorders."

About Notch Therapeutics (www.notchtx.com) Notch is developing a pipeline of cellular immunotherapies originating from pluripotent stem cells that are specifically engineered to address the underlying biology of complex disease systems. The company has unlocked the ability for large-quantity production of T cells and other cells from any source of stem cells to bring best-in-class cell therapies for cancer and other immune disorders to thousands of patients. The core of the Notch platform is the Engineered Thymic Niche (ETN), which enables precision control of cell fate during the differentiation and expansion of stem cells in suspension bioreactors without the need for feeder cells or serum. The ETN has the potential to generate immunotherapies with decreased variability, increased potency, and engineered improvements. The technology was invented in the laboratories of Juan-Carlos Ziga-Pflcker, Ph.D. at Sunnybrook Research Institute and Peter Zandstra, Ph.D., FRSC at the University of Toronto. Notch was founded by these two institutions, in conjunction with MaRS Innovation (now Toronto Innovation Acceleration Partners) and the Centre for Commercialization of Regenerative Medicine (CCRM), which initially incubated the company.

Contact:Mary Moynihan M2Friend Biocommunications 802-951-9600 [emailprotected]

SOURCE Notch Therapeutics

Notch Therapeutics

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Notch Therapeutics Closes $85 Million Series A Financing to Develop Pipeline of Renewable Stem Cell-Derived Cancer Immunotherapies - PRNewswire

Global Biopreservation Market Is Expected to Reach USD 7.67 Billion by 2028 : Fior Markets – GlobeNewswire

February 10, 2021 13:00 ET | Source: Fior Markets

Newark, NJ, Feb. 10, 2021 (GLOBE NEWSWIRE) -- As per the report published by Fior Markets, theglobal biopreservation market is expected to grow from USD 3.55 billion in 2020 to USD 7.67 billion by 2028, at a CAGR of 10.1% during the forecast period 2021-2028.

Some of the critical factors that are fuelling the growth of the global biopreservation market are technological advancements in the field of biopreservation, increasing private as well as government investment in R&D, increasing health care expenditure, and a rising regenerative medicine demand due to the expanding rate of lifestyle diseases. Biopreservation is crucial for the success of distinct commercial & clinical applications of emerging cell-based technologies. Advancements in biopreservation such as next-gen cryopreservation solutions, integration & design with nanoscale technology, and standardization of hypothermic storage are leading to important long period preservation of complex tissues & organs in transplantation & regenerative medicine. The Cooperative Human Tissue Network (CHTN) was set up by the National Cancer Institute, which uses collective efforts to advance bio-banking.

With the outbreak of a global pandemic, many have faced salary cuts and job losses. Covid-19 has become a threat to the entire world's economy and has negatively impacted all kinds of markets, including the biopreservation market. With less disposable income and broken supply chains, the market's growth is expected to slow down. Research activities all over the world had been stopped due to lockdowns. The emergence of competing technologies like room temperature storage technology has a negative effect on the market. Another challenge is the strict regulations that governments have put up regarding biopreservation.

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Key players operating in the global biopreservation market include BioCision, Custom Biogenic Systems, Panasonic Biomedical, Thermo Fisher Scientific, VWR International, Atlanta Biologics, BioLife Solutions, Chart MVE Biomedical, LabVantage Solutions, and Taylor-Wharton Cryogenics, among others. To gain a significant market share in the global biopreservation market, the key players are now focusing on adopting strategies such as product innovations, mergers & acquisitions, recent developments, joint ventures, collaborations, and partnerships. Thermo Fisher Scientific and Taylor-Wharton Cryogenics are some of the biggest players in the global biopreservation market.

The equipment segment dominated the market and held the largest market share of 61.8% in the year 2020

The product segment consists of laboratory information management system, media, and equipment. The equipment segment dominated the market and held the largest market share of 61.8% in the year 2020. The extensive use of equipment in plasma, DNA, tissue, and stem cell research is driving the growth of this segment. Advanced equipment is necessary for high cost-efficiency, low maintenance and adequate storage capacity.

The tumor cells segment dominated the market and held the largest market share of 22.45% in the year 2020

Based on cell provider, the global market has been divided into tumor cells, hESC (human Embryonic Stem Cell), CD19+, CD34+, iPSC (Induced Pluripotent Stem Cells), MSC (Mesenchymal stem cells), and others. The tumor cells segment dominated the market and held the largest market share of 22.45% in the year 2020 due to its numerous applications in R&D, diagnosis, and cancer treatment. Tumor cells act as effective biomarkers in different types of cancers like breast, prostate, and colon cancer.

The bio-banking segment dominated the market and held the largest market share of 58.36% in the year 2020

On the basis of application, the biopreservation market has been segmented into bio-banking, regenerative medicine, and drug discovery. The bio-banking segment dominated the market and held the largest market share of 58.36% in the year 2020 due to the various advantages of stem cell preservation. The expanding number of egg banks and sperm banks around the world boost the growth of this segment.

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Regional Segment Analysis of the Biopreservation Market

On the basis of geography, the global biopreservation market has been classified into North America, Europe, South America, Asia Pacific, and Middle East and Africa. The North America region accounted for the major market share of 46.9% in the year 2020 and is anticipated to grow throughout the projected period. The large share of this segment is attributed to key factors such as the growing geriatric population, advancing drug development & biomedical research, an increasing number of patients needing specialized treatment for lifelong diseases, and the presence of significant pharmaceutical & pharmaceutical companies in the region. On the other hand, the Asia-Pacific region is expected to grow at the highest CAGR during the forecast period 2021-2028. This growth is owing to factors like an increasing patient base and rising government investments in biomedical research & development.

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Global Biopreservation Market Is Expected to Reach USD 7.67 Billion by 2028 : Fior Markets - GlobeNewswire

Apollomics, Inc. and Iterion Therapeutics Announce Exclusive Collaboration and License Agreement to Develop and Commercialize Tegavivint in Greater…

FOSTER CITY, Calif., HANGZHOU, China and HOUSTON, Feb. 10, 2021 (GLOBE NEWSWIRE) -- Apollomics, Inc., an innovative biopharmaceutical company committed to the discovery and development of mono- and combination- oncology therapies, and Iterion Therapeutics, Inc., a venture-backed, clinical stage biotechnology company developing novel cancer therapeutics, today announced an exclusive collaboration and license agreement for the development and commercialization of tegavivint in Mainland China, Hong Kong, Macau and Taiwan, also known as Greater China.

Tegavivint is a potent and selective inhibitor of nuclear -catenin that works through binding to TBL1 (Transducin Beta-like Protein One), a downstream target in the Wnt-signaling pathway. Iterion is pursuing the development of Tegavivint for the treatment of cancers where nuclear -catenin signaling is known to play a role. Tegavivint is currently the subject of a Phase 1/2a clinical trial in patients with progressive desmoid tumors.

As a potent and selective small molecule targeting the Wnt-signaling pathway, Tegavivint is an ideal addition to our clinical development pipeline, said Guo-Liang Yu, Ph.D., Chief Executive Officer of Apollomics. The preclinical work has demonstrated that the differentiated mechanism of action may be applicable in several indications as both a monotherapy and a combination treatment. We look forward to working with the Iterion team to expand development in Greater China.

Under the terms of the agreement, Apollomics will be responsible for clinical development and commercialization in Greater China. Apollomics and Iterion will form a joint development committee to ensure ongoing collaboration of Tegavivint across indications and geographies. Iterion has received an initial cash payment for ongoing research and development costs in connection with the companys global development of Tegavivint. Iterion is also eligible to receive potential development and sales milestone payments, as well as tiered royalties on net sales. Apollomics will be responsible for all costs related to development and commercialization activities for Tegavivint in Greater China.

Rahul Aras, Ph.D., President and Chief Executive Officer, Iterion Therapeutics, added, As we explore multiple indications for Tegavivint in the U.S., including desmoid tumors, acute myeloid leukemia, non-small cell lung cancer, and pediatric cancers, we are excited to partner with Apollomics to expand its development and potential commercialization in Greater China. With Apollomics oncology focus and growing footprint in China, they are the partner of choice to successfully advance Tegavivint for cancer patients in this region.

About Tegavivint

Tegavivint is a potent and selective inhibitor of nuclear -catenin that binds to TBL1 (Transducin eta-like Protein One), a downstream target in the Wnt-signaling pathway. Targeting TBL1 may enable specific silencing of Wnt-pathway oncogenic gene expression without affecting other necessary cellular functions that are disrupted when targeting higher up the Wnt-pathway. This avoids toxicity issues common to other drugs in this pathway.

Tegavivint has the potential for clinical utility in multiple cancer types. Tegavivint is currently the subject of a Phase 1/2a clinical trial in progressive desmoid tumors. Desmoid tumors, a rare type of sarcoma for which there is no currently approved therapy, are driven primarily by nuclear -catenin signaling and, thus, present an optimal indication for demonstrating the drugs mechanism of action as the company pursues additional clinical programs. Tegavivint has also demonstrated anti-tumor activity in multiple pre-clinical models, including acute myeloid leukemia (AML) and non-small cell lung cancer (NSCLC).

About Iterion Therapeutics

Iterion Therapeutics is a venture-backed, clinical stage biotechnology company developing novel cancer therapeutics. The company's lead product, Tegavivint, is a potent and selective inhibitor of nuclear -catenin, an oncology target implicated in cell proliferation, differentiation, immune evasion and stem cell renewal. Research demonstrating anti-tumor activity in multiple pre-clinical models indicate that Tegavivint has the potential for clinical utility in multiple cancer types. Tegavivint is currently the subject of a Phase 1/2a clinical trial in patients with progressive desmoid tumors. Iterion is also pursuing development in additional cancers where nuclear -catenin signaling has been shown to play a role, including acute myeloid leukemia (AML), non-small cell lung cancer (NSCLC), and pediatric cancers, including sarcomas, lymphoma and other solid tumors. This research/clinical trial was supported with a$15.9 milliongrant from the Cancer Prevention & Research Institute ofTexas. For more information on Iterion, please visit https://iteriontherapeutics.com.

About Apollomics, Inc.

Apollomics, Inc. is an innovative biopharmaceutical company committed to the discovery and development of mono- and combination- oncology therapies to harness the immune system and target specific molecular pathways to eradicate cancer. The companys existing pipeline consists of several development-stage assets, including novel, humanized monoclonal antibodies that restore the bodys immune system to recognize and kill cancer cells, and targeted therapies against uncontrolled growth signaling pathways. For more information, please visitwww.apollomicsinc.com.

Iterion Therapeutics Contact:

Tiberend Strategic Advisors, Inc. Ingrid Mezo(Media) 646-604-5150 imezo@tiberend.com

Apollomics Contacts:

Investor Contact: Wilson W. Cheung Chief Financial Officer (650) 209-4436 wcheung@apollomicsinc.com

U.S. Media Contact: Remy Bernarda Corporate Communications (415) 203-6386 remy.bernarda@apollomicsinc.com

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Apollomics, Inc. and Iterion Therapeutics Announce Exclusive Collaboration and License Agreement to Develop and Commercialize Tegavivint in Greater...

Stem Cell Therapy Market Revenue, Key Players, Supply-Demand, Investment Feasibility and Forecast By 2029: Osiris Therapeutics, NuVasive, Chiesi…

Stem Cell Therapy Market

Stem Cell Therapy Market Projections (2020-2029): The Global market Stem Cell Therapy theologizes is the most recent of the world business market curves. The report prospects the current and frequent collectors, technological innovations, product supplementation, and their representation of performance broadly across the foreign market.

Thisphenomenalstudy on world-widebusiness includes the results of vital primary and secondary resources. These research findings are accepted by the companys skilled analysts and experts, providing rich in-depth information to associated partners, appraisers as well as captains of the industry.

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Prominent players in the industry covered in the report:

Osiris Therapeutics, NuVasive, Chiesi Pharmaceuticals, JCRPharmaceutical, Pharmicell, Medi-post, Anterogen, Molmed, Takeda (TiGenix)

Market split by Type, can be divided into: Autologous Allogeneic

Market split by Application, can be divided into: Musculoskeletal Disorder Wounds & Injuries Cornea Cardiovascular Diseases Others

Market split by Sales Channel, can be divided into: Direct Channel Distribution Channel

Ourstudypasses through ahaven ofprofound qualitative and quantitativeresearch by industryexperts andprofessionals.Within the reportcontributes a broadperceptionof thepast as well ascurrent marketvista,which implies future statistics and prospects in position with the technical developments over time. Furthermore, the report includes and provides analyses of demand and supply, microeconomic and macroeconomic elements, administrative components and growth indices through the Stem Cell Therapy marketplace. The report outlines keytacticsutilized bykey market participants.

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This report provides an accurate understanding and discovery of key geographic areas underway with market Stem Cell Therapy, including critical segments and additional segments.The report sets out aspects of territorial growth and the size and scope of the market. Additionally, the report also deals with trading information such as business range, cost and revenue margin as well as gross value. However, this understanding assists readers in the conduct of consumer experts as well as major tactic to reach market share.

Substantivebeneficiaries:

Additional Information:

This reportcontributes to the following:

Important questions answered within this report:

About Us: We, Regal Intelligence, aim to change the dynamics of market research backed by quality data. Our analysts validate data with exclusive qualitative and analytics driven intelligence. We meticulously plan our research process and execute in order to explore the potential market for getting insightful details. Our prime focus is to provide reliable data based on public surveys using data analytics techniques. If you have come here, you might be interested in highly reliable data driven market insights for your product/service,reach us here 24/7.

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2020 Outlook on the Global Singlecell Technology Industry – Market Size was Over $800 Million in 2019 – ResearchAndMarkets.com – Business Wire

DUBLIN--(BUSINESS WIRE)--The "Singlecell Technology Market Landscape 2020" report has been added to ResearchAndMarkets.com's offering.

The global single cell technology (SCT) market has emerged since 2014. There are over 43 companies with various 49 SCT products commercialized worldwide, and over 15 pre-commerce-stage startups are lined up and keep increasing. The market size is over $800 M in 2019, at a CAGR of ~24%.

The market is expected to grow significantly by the growing awareness of the single cell projects among biology communities, the growth of precision medicine and diagnostic industry, the antibody therapeutic drug development, the entry of new players, etc.

However, the high cost of the equipment, the requirement of in-person demo, various remaining technical challenges & defaults of the products that rushed into the market too early, and lack of interdisciplinary expertise on the customer sides could limit the market growth rates. Acquisitions and partnerships are actively seen as for most of the competitive technology industry.

The majority (~60%) of the market players are small-sized startup companies with under 100 employees, however, the market share is highly concentrated on four major companies (BD, 10x genomics, Fluidigm, and Berkeley light), yet this market share can change as the market is expanding and more new players are entering, more differentiation among players is expected.

Primarily, the SCT market has a complex market structure characterized by its wide range of technology mixtures and various types of users across various life science research fields. The general functionalities of the SCT are: single cell (SC) isolation, SC-sequencing, SC-protein analysis, or SC-focused manipulation. Among those, the first two category products (SC-isolation and SC-sequencing) account for ~72% of the market.

SCT can be applied in most of the life science application as it is defined by any biological science experimentation that handles and generate single cell resolution data. Stem cell research and cancer research are the fields of studies that have adapted SCT the most, and immunology and neurobiology also have a growing need in SCT. The market is categorized by the core technologies (11 categories) and by the applications (5 categories).

The core technology categories include conventional cell picking, limited dilution, FACS, and laser capture microdissection (LCM) technologies, but also novel technologies for automatic single cell picking, automatic single cell dispensing, microwell-based single cell isolation/analysis, microfluidic chip based-single cell analysis, droplet microfluidics-based, novel cytometry, and cell manipulation. The five market application categories include SC-isolation, SC-DNA/RNA sequencing, cell line development, protein or functional analysis, and drug discovery & diagnostics.

Companies Mentioned

Key Topics Covered:

Preface

Executive Summary

Part One: the Market and Strategy Perspectives

Chapter 1 Market Structure and Market Size

1.1 Market Structure

1.2 Market Size

1.3 Market's Dynamic Growth & Restraint Factors

Chapter 2 Projecting Strategic Plans

2.1 Strategic Moves by Current SCT Companies

2.2 Market Innovating Strategy

Part Two: Biology and Its Evolution- Market from the Customers Perspective

Chapter 3 Single Cell Biology by -Omics and Field of Study

3.1 Single Cell Biology: Physics and Engineering Meet Biology

3.2 Single Cell Biology by -Omics Fields

3.3 Single Cell Biology by Field of Studies

Chapter 4 Understanding the Customer and Their Workflow

4.1 Understand the Customer's Workflow

4.2 Understand the Customer Experience Cycle

Part Three: Market from the Technology Providers Perspective

Chapter 5 Market Segments by Technology

5.1 Overview

5.2 Manual Picking

5.3 Limited Dilution

5.4 FACS: Fluorescence Activated Cell Sorter

5.5 Laser Capture Microdissection (LCM)

5.6 Automatic Single Cell Pickers

5.7 Single Cell Dispensing

5.8 Microwell Based Single Cell Isolation

5.9 Microfluidics Chip-Based Single Cell Analysis

5.10 Droplet Microfluidics

5.11 New Type of Cytometry and Spectroscopy

5.12 Fluidics and Cell Manipulation

Chapter 6 Market Segments by Applications

6.1 Overview

6.2 SC-Dna and Rna Sequencing

6.3 Cell Line Development

6.4 Protein or Functional Analysis

6.5 Drug Discovery and Diagnostics

Chapter 7 Emerging Early Stage SCT Startup Companies

7.1 Emerging Early Stage SCT Startup Companies

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2020 Outlook on the Global Singlecell Technology Industry - Market Size was Over $800 Million in 2019 - ResearchAndMarkets.com - Business Wire

Stem Cell Cryopreservation Equipments Market Size Report: Strategies of Key Manufacturers, Project Investment of New Industries: Chart, Worthington…

TheStem Cell Cryopreservation Equipments Marketincludes numbers for all the segments at the country level for past, current and coming years. This report provides comprehensive market information through detailed segmentation along with segmental market size and forecasts, growth rates, market dynamics, structure, it also provides an overview of the development of the industry, market situation, and trends.

The report covers a detailed analysis of players and market strategies, a detailed analysis of growth factors that are critical for existing market participants as well as new market players. It provides information on new market opportunities and the future with main drivers and restraints of the market to support the decision in a cost-effective business solution.

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The report introduces Stem Cell Cryopreservation Equipments basics:

Definitions, categories, software, and market reviews; Product Features; Manufacturing process; Cost arrangement, development, and its aftermath. Subsequently, it studied the requirements of the international major Stem Cell Cryopreservation Equipments industry market, for example, the price, profit, capacity, production, distribution, market and demand growth and forecasting of goods, etc. In the long run, the report introduced a new Stem Cell Cryopreservation Equipments SWOT analysis. Feasibility, and revenue investigation.

Stem Cell Cryopreservation Equipments Report by Type, Application with Geography The International Forecast for 2026 is actually an efficient and comprehensive research study on the worlds major regional economy states, focusing on key areas such as the United States, Canada Does, Germany, UK, France, Italy, Spain, Russia, Netherlands, Turkey, Switzerland, Sweden, Poland, Belgium, China, Japan, South Korea, Australia, India, Taiwan, Indonesia, Thailand, Philippines, Malaysia, Brazil, Mexico, Argentina, Colombia, Chile, Saudi Arabia, UAE, Egypt, Nigeria, South Africa and Rest of the World.

This Report covers Leading Companies associated in Stem Cell Cryopreservation Equipments:Chart, Worthington Industries, Cesca Therapeutics, Shengjie Cryogenic Equipment, Sichuan Mountain Vertical, Qingdao Beo

Importance of this Stem Cell Cryopreservation Equipments

1. Industry Synopsis of the International Stem Cell Cryopreservation Equipments Market; 2. Global Stem Cell Cryopreservation Equipments Market Company Manufacturer Overview and Profile; 3. Technical data and economy manufacturing plants; 4. Capacity, revenue, and production analysis; 5. Region, Manufacturers and Types by Cost, Price, Gross, and Gross Fiscal Analysis Stem Cell Cryopreservation Equipments; 6. Sales price analysis of Stem Cell Cryopreservation Equipments business share by volume, price, and valuation of consumption, type, and software; 7. Supply, Import, Export, and Presence Analysis of Stem Cell Cryopreservation Equipments Market; 8. Significant manufacturer analysis of Stem Cell Cryopreservation Equipments market size; 9. Marketing Trader or Distributor Analysis; 10. Industry Chain Analysis; 11. Development Trend Analysis of Stem Cell Cryopreservation Equipments Market Trends; 12. Stem Cell Cryopreservation Equipmentss new project feasibility analysis

By Types

Liquid Phase, Vapor Phas

By Application

Cord Blood Stem Cell Cryopreservation, Other Stem Cell Cryopreservatio

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General studies include Stem Cell Cryopreservation Equipments value chain analysis that provides an understanding of key players from the distribution chain, particularly from manufacturers to end-users. In addition, the report supplies the Stem Cell Cryopreservation Equipments International Economic Competition with the help of Porters analysis of the five forces.

Also, Global Stem Cell Cryopreservation Equipments Market includes the following features with detailed study of each

Key Players: The report provides a company outline for a good number of the leading players of the global Stem Cell Cryopreservation Equipments market. It brings to light their current and future Stem Cell Cryopreservation Equipments market development taking into account their price, gross margin, revenue, production, service sectors, production sites, and other factors.

Stem Cell Cryopreservation Equipments Market Dynamics: The report shares important information on impact factors, Stem Cell Cryopreservation Equipments market drivers, challenges, opportunities, and market trends as part of market dynamics.

Global Stem Cell Cryopreservation Equipments Market Forecast: Readers are provided with production and revenue forecasts for the Stem Cell Cryopreservation Equipments market, production and consumption forecasts for regional markets, production, revenue, and price forecasts for the Stem Cell Cryopreservation Equipments market, and consumption forecasts for the industry by the application.

Regional Stem Cell Cryopreservation Equipments Market Analysis: It can be divided into two different classes one for regional production analysis and the other for regional consumption analysis. Here, analysts share gross margin, price, revenue, production, CAGR, and other factors that indicate the growth of all the regional markets studied in the report.

Stem Cell Cryopreservation Equipments Market Competition: In this section, the report provides information about competitive conditions and trends including mergers and acquisitions and expansions, market shares of three or five players, and market concentration rates. Readers may also be provided by manufacturers with production, revenue, and average price shares.

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Stem Cell Cryopreservation Equipments Market Size Report: Strategies of Key Manufacturers, Project Investment of New Industries: Chart, Worthington...

Seattle Cancer Care Alliance Celebrates 20 Years of Innovation in Cancer Treatment and Care – Business Wire

SEATTLE--(BUSINESS WIRE)--Seattle Cancer Care Alliance (SCCA) today marked the 20th anniversary of opening the doors of its first clinic in South Lake Union. Established in 2001 to bring together leading research teams and cancer specialists from Fred Hutchinson Cancer Research Center, Seattle Children's and University of Washington Medicine, SCCA began with a singular mission that remains its focus today: the pursuit of better, longer, richer lives for cancer patients. In the last two decades, its teams have served nearly 190,000 cancer patients and conducted more than 1,700 clinical trials, advancing cancer care not only in the Pacific Northwest but also throughout the nation.

SCCA was founded with the unique vision that combining the best in cancer care and research will change the lives of those with cancer, said Dr. Nancy E. Davidson, president and executive director at SCCA and senior vice president of the Clinical Research Division at Fred Hutch. Throughout the past 20 years, our organization has proven the power of this vision. Our teams have helped drive new advances in the delivery of cancer care as well as the development of cutting-edge new therapies and technologies that have improved how we screen for, diagnose and treat many cancers as well as how we support cancer patients and their loved ones. And while we are proud of what we have accomplished the last 20 years, SCCA is ready to continue to build on this foundation for decades to come.

SCCA opened its first outpatient clinic in Seattles South Lake Union neighborhood in 2001. It has grown from a single location to a network of treatment centers in the Puget Sound region encompassing hematology/medical oncology, radiation oncology and infusion outpatient services. It also has network affiliations with hospitals in five states, connecting community-based physicians with the latest cancer research and treatment options from SCCA to elevate cancer care in the community.

As part of the only National Cancer Institute (NCI)-designated cancer center in Washington state, SCCA has helped to advance cancer research, establish new models of cancer care, connect more cancer patients to clinical trials, and enhance patients access to the best possible cancer care and treatment.

Putting patients first is paramount to everything we do at SCCA. And its because of the commitment and passion of our staff from physicians and nurses to pharmacists and administrative support staff that we have been able to succeed and deliver on that promise, said Aaron Crane, executive vice president at SCCA. Their work has driven SCCA to new heights in cancer care and allowed us to achieve significant growth. With the expected opening of our South Lake Union clinic expansion in 2023, we will be able to conduct more cutting-edge research and provide even more patients world-class cancer care.

SCCA alliance member Fred Hutch is known for its pioneering work in bone marrow (BMT) and stem cell transplantation. Stemming from this legacy work, SCCA is continually recognized for its patients survival rates and has now performed more than 9,000 transplants since 2001, making it among the most experienced cancer centers in this field in the world. SCCA is also noted for its leadership in immunotherapy. In 2016, it opened the Bezos Family Immunotherapy Clinic to support its growing work in this field. This clinic, which has now treated more than 500 patients, has increased the number of clinical trials offering cellular immunotherapies, including CAR-T therapies. SCCA is one of the top providers of CAR-T therapy and among the first cancer centers to offer patients all three FDA-approved cellular immunotherapies.

Through groundbreaking clinical trials, along with alliance partners UW Medicine, Seattle Childrens Hospital and Fred Hutch, SCCA has led the development of new treatment options for patients for a variety of cancers. Over the last two decades, SCCA has opened more than 1,700 trials serving nearly 37,000 participants. A couple of recent examples include a SCCAs trial for a new bladder cancer treatment, which received FDA approval after its results gained international recognition, redefining treatment protocols for that cancer. Another example is a recent clinical trial for lung cancer where SCCA is advancing personalized care through research that assesses the effectiveness of a treatment in real time, allowing providers to give patients treatments based on an individualized care path.

SCCA also has contributed to the development and adoption of molecular testing in cancer care. Its team has expanded known biomarkers that indicate a patients risk for certain cancers including breast, lung and colon cancers and hematologic malignancies as well as determine the best course of treatment. In 2016 and 2018 respectively, SCCA opened the Prostate Cancer Genetics and Hematologic Malignancy Genetics Clinics, which offer genetic testing, counseling, and consultations to help patients better understand their genetic risks and manage their cancers.

SCCA has been a vital part of saving the lives of so many across our region, said Paula Rosput Reynolds, Chair of SCCAs Board of Directors. It has seamlessly combined pioneering research with the best in state-of-the-art clinical patient- and family-centered care. SCCA has made an indelible mark on how many cancers are diagnosed and treated and continues to push boundaries on how cancer care is approached and carried out. We are excited to celebrate its achievements this year and look forward to what is yet to come from this extraordinary organization and its team.

For the past decade, SCCA has also been recognized by U.S. News & World Report as among the Best Cancer Hospitals in the U.S. and the top cancer hospital in the Pacific Northwest.

About Seattle Cancer Care Alliance Seattle Cancer Care Alliance (SCCA) brings together the leading research teams and cancer specialists from Fred Hutch, Seattle Childrens and UW Medicine one extraordinary group whose sole purpose is the pursuit of better, longer, richer lives for our patients. Based in Seattles South Lake Union neighborhood, SCCA is the only National Cancer Institute (NCI)-designated cancer center in Washington state. SCCA has nine clinical care sites in the region, including a medical oncology clinic at EvergreenHealth in Kirkland; hematology/medical oncology and infusion services at Overlake Medical Center in Bellevue, medical and radiation oncology clinics at UW Medical Center - Northwest Seattle and medical oncology services at SCCA Issaquah, as well as Network affiliations with hospitals in five states. For more information about SCCA, visit seattlecca.org.

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Seattle Cancer Care Alliance Celebrates 20 Years of Innovation in Cancer Treatment and Care - Business Wire

Outlook on the CRISPR Gene Editing Global Market to 2030 – Analysis and Forecasts – GlobeNewswire

February 08, 2021 07:33 ET | Source: Research and Markets

Dublin, Feb. 08, 2021 (GLOBE NEWSWIRE) -- The "Global CRISPR Gene Editing Market: Focus on Products, Applications, End Users, Country Data (16 Countries), and Competitive Landscape - Analysis and Forecast, 2020-2030" report has been added to ResearchAndMarkets.com's offering.

The global CRISPR gene editing market was valued at $846.2 million in 2019 and is expected to reach $10,825.1 million by 2030, registering a CAGR of 26.86% during the forecast.

The development of genome engineering with potential applications proved to reflect a remarkable impact on the future of the healthcare and life science industry. The high efficiency of the CRISPR-Cas9 system has been demonstrated in various studies for genome editing, which resulted in significant investments within the field of genome engineering. However, there are several limitations, which need consideration before clinical applications. Further, many researchers are working on the limitations of CRISPR gene editing technology for better results. The potential of CRISPR gene editing to alter the human genome and modify the disease conditions is incredible but exists with ethical and social concerns.

The growth is attributed to the increasing demand in the food industry for better products with improved quality and nutrient enrichment and the pharmaceutical industry for targeted treatment for various diseases. Further, the continued significant investments by healthcare companies to meet the industry demand and growing prominence for the gene therapy procedures with less turnaround time are the prominent factors propelling the growth of the global CRISPR gene editing market.

Research organizations, pharmaceutical and biotechnology industries, and institutes are looking for more efficient genome editing technologies to increase the specificity and cost-effectiveness, also to reduce turnaround time and human errors. Further, the evolution of genome editing technologies has enabled wide range of applications in various fields, such as industrial biotech and agricultural research. These advanced methods are simple, super-efficient, cost-effective, provide multiplexing, and high throughput capabilities. The increase in the geriatric population and increasing number of cancer cases, and genetic disorders across the globe are expected to translate into significantly higher demand for CRISPR gene editing market.

Furthermore, the companies are investing huge amounts in the research and development of CRISPR gene editing products, and gene therapies. The clinical trial landscape of various genetic and chronic diseases has been on the rise in recent years, and this will fuel the CRISPR gene editing market in the future.

Within the research report, the market is segmented based on product type, application, end-user, and region. Each of these segments covers the snapshot of the market over the projected years, the inclination of the market revenue, underlying patterns, and trends by using analytics on the primary and secondary data obtained.

Key Companies Profiled

Abcam, Inc., Applied StemCell, Inc., Agilent Technologies, Inc., Cellecta, Inc., CRISPR Therapeutics AG, Thermo Fisher Scientific, Inc., GeneCopoeia, Inc., GeneScript Biotech Corporation, Horizon Discovery Group PLC, Integrated DNA Technologies, Inc., Merck KGaA, New England Biolabs, Inc., Origene Technologies, Inc., Rockland Immunochemicals, Inc., Synthego Corporation, System Biosciences LLC, ToolGen, Inc., Takara Bio

Key Questions Answered in this Report:

Key Topics Covered:

1 Technology Definition

2 Research Scope

3 Research Methodology

4 Market Overview 4.1 Introduction 4.2 CRISPR Gene Editing Market Approach 4.3 Milestones in CRISPR Gene Editing 4.4 CRISPR Gene Editing: Delivery Systems 4.5 CRISPR Technology: A Potential Tool for Gene Editing 4.6 CRISPR Gene Editing Current Scenario 4.7 CRISPR Gene Editing Market: Future Potential Application Areas

5 Global CRISPR Gene Editing Market, $Million, 2020-2030 5.1 Pipeline Analysis 5.2 CRISPR Gene Editing Market and Growth Potential, 2020-2030 5.3 Impact of COVID-19 on CRISPR Gene Editing Market 5.3.1 Impact of COVID-19 on Global CRISPR Gene Editing Market Growth Rate 5.3.1. Impact on CRISPR Gene Editing Companies 5.3.2 Clinical Trial Disruptions and Resumptions 5.3.3 Application of CRISPR Gene Editing in COVID-19

6 Market Dynamics 6.1 Impact Analysis 6.2 Market Drivers 6.2.1 Prevalence of Genetic Disorders and Use of Genome Editing 6.2.2 Government and Private Funding 6.2.3 Technology Advancement in CRISPR Gene Editing 6.3 Market Restraints 6.3.1 CRISPR Gene Editing: Off Target Effects and Delivery 6.3.2 Ethical Concerns and Implications With Respect to Human Genome Editing 6.4 Market Opportunities 6.4.1 Expanding Gene and Cell Therapy Area 6.4.2 CRISPR Gene Editing Scope in Agriculture

7 Industry Insights 7.1 Introduction 7.2 Funding Scenario 7.3 Regulatory Scenario of CRISPR Gene Editing Market 7.4 Pricing of CRISPR Gene Editing 7.5 Reimbursement of CRISPR Gene Editing 7.5.1 CRISPR Gene Editing: Insurance Coverage in the U.S.

8 CRISPR Gene Editing Patent Landscape 8.1 Overview 8.2 CRISPR Gene Editing Market Patent Landscape: By Application 8.3 CRISPR Gene Editing Market Patent Landscape: By Region 8.4 CRISPR Gene Editing Market Patent Landscape: By Year

9 Global CRISPR Gene Editing Market (by Product Type), $Million 9.1 Overview 9.2 CRISPR Products 9.2.1 Kits and Enzymes 9.2.1.1 Vector-Based Cas9 9.2.1.2 DNA-Free Cas9 9.2.2 Libraries 9.2.3 Design Tools 9.2.4 Antibodies 9.2.5 Other Products 9.3 CRISPR Services 9.3.1 gRNA Design and Vector Construction 9.3.2 Cell Line and Engineering 9.3.3 Screening Services 9.3.4 Other Services

10 CRISPR Gene Editing Market (by Application), $Million 10.1 Overview 10.2 Agriculture 10.3 Biomedical 10.3.1 Gene Therapy 10.3.2 Drug Discovery 10.3.3 Diagnostics 10.4 Industrial 10.5 Other Applications

11 Global CRISPR Gene Editing Market (by End User) 11.1 Academic Institutions and Research Centers 11.2 Biotechnology Companies 11.3 Contract Research Organizations (CROs) 11.4 Pharmaceutical and Biopharmaceutical Companies

12 Global CRISPR Gene Editing Market (by Region) 12.1 Introduction 12.2 North America 12.3 Europe 12.4 Asia-Pacific 12.5 Latin America

13 Competitive Landscape 13.1 Key Developments and Strategies 13.1.1 Overview 13.1.1.1 Regulatory and Legal Developments 13.1.1.2 Synergistic Activities 13.1.1.3 M&A Activities 13.1.1.4 Funding Activities 13.2 Market Share Analysis 13.3 Growth Share Analysis

14 Company Profiles 14.1 Overview 14.2 Abcam, Inc. 14.2.1 Company Overview 14.2.2 Role of Abcam, Inc. in the Global CRISPR Gene Editing Market 14.2.3 Financials 14.2.4 SWOT Analysis 14.3 Applied StemCell, Inc. 14.3.1 Company Overview 14.3.2 Role of Applied StemCell, Inc. in the Global CRISPR Gene Editing Market 14.3.3 SWOT Analysis 14.4 Agilent Technologies, Inc. 14.4.1 Company Overview 14.4.2 Role of Agilent Technologies, Inc. in the Global CRISPR Gene Editing Market 14.4.3 Financials 14.4.4 R&D Expenditure, 2017-2019 14.4.5 SWOT Analysis 14.5 Cellecta, Inc. 14.5.1 Company Overview 14.5.2 Role of Cellecta, Inc. in the Global CRISPR Gene Editing Market 14.5.3 SWOT Analysis 14.6 CRISPR Therapeutics AG 14.6.1 Company Overview 14.6.2 Role of CRISPR Therapeutics AG in the Global CRISPR Gene Editing Market 14.6.3 Financials 14.6.4 R&D Expenditure, 2017-2019 14.6.5 SWOT Analysis 14.7 Thermo Fisher Scientific, Inc. INC 14.7.1 Company Overview 14.7.2 Role of Thermo Fisher Scientific, Inc. in the Global CRISPR Gene Editing Market 14.7.3 Financials 14.7.4 R&D Expenditure, 2017-2019 14.7.5 SWOT Analysis 14.8 GeneCopoeia, Inc. 14.8.1 Company Overview 14.8.2 Role of GeneCopoeia, Inc. in the Global CRISPR Gene Editing Market 14.8.3 SWOT Analysis 14.9 GeneScript Biotech Corporation 14.9.1 Company Overview 14.9.2 Role of GenScript Biotech in the Global CRISPR Gene Editing Market 14.9.3 Financials 14.9.4 SWOT Analysis 14.1 Horizon Discovery Group PLC 14.10.1 Company Overview 14.10.2 Role of Horizon Discovery Group PLC in the Global CRISPR Gene Editing Market 14.10.3 Financials 14.10.4 SWOT Analysis 14.11 Integrated DNA Technologies, Inc. 14.11.1 Company Overview 14.11.2 Role of Integrated DNA Technologies, Inc. in the Global CRISPR Gene Editing Market 14.11.3 SWOT Analysis 14.12 Merck KGaA 14.12.1 Company Overview 14.12.2 Role of Merck KGaA in the Global CRISPR Gene Editing Market 14.12.3 Financials 14.12.4 SWOT Analysis 14.13 New England Biolabs, Inc. 14.13.1 Company Overview 14.13.2 Role of Integrated DNA Technologies, Inc. in the Global CRISPR Gene Editing Market 14.13.3 SWOT Analysis 14.14 Origene Technologies, Inc. 14.14.1 Company Overview 14.14.2 Role of Origene Technologies, Inc. in the Global CRISPR Gene Editing Market 14.14.3 SWOT Analysis 14.15 Rockland Immunochemicals, Inc. 14.15.1 Company Overview 14.15.2 Role of Rockland Immunochemicals, Inc. in the Global CRISPR Gene Editing Market 14.15.3 SWOT Analysis 14.16 Synthego Corporation 14.16.1 Company Overview 14.16.2 Role of Synthego Corporation in the Global CRISPR Gene Editing Market 14.16.3 SWOT Analysis 14.17 System Biosciences LLC 14.17.1 Company Overview 14.17.2 Role of System Biosciences LLC in the Global CRISPR Gene Editing Market 14.17.3 SWOT Analysis 14.18 ToolGen, Inc. 14.18.1 Company Overview 14.18.2 Role of ToolGen, Inc. in the Global CRISPR Gene Editing Market 14.18.3 SWOT Analysis 14.19 Takara Bio 14.19.1 Company Overview 14.19.2 Role of Takara Bio in the Global CRISPR Gene Editing Market 14.19.3 Financials 14.19.4 SWOT Analysis

For more information about this report visit https://www.researchandmarkets.com/r/c7om7t

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Outlook on the CRISPR Gene Editing Global Market to 2030 - Analysis and Forecasts - GlobeNewswire

Researchers curb local immune response in horses receiving stem cell injury therapy – Horsetalk

Cultures with treated stem cells had a 50% higher stem cell survival rate than untreated cultures. Image by carolem41

Treating equine donor stem cells with a growth factor called TGF-2 may allow them to avoid tripping the immune response in recipients, according to new research.

The work carried out at North Carolina State University could simplify the stem cell treatment process for ligament and tendon injuries in horses, and may also have implications for human stem cell therapies.

Mesenchymal stem cell therapy is a promising avenue for treating musculoskeletal injuries, particularly tendon and ligament injuries, in horses.

Mesenchymal stem cells are adult stem cells found in bone marrow that act as repair directors, producing secretions that recruit healing-related paracrine factors to the site of injury.

Just as blood cells have types, depending upon which antigens are on the blood cells surface, mesenchymal stem cells have differing sets of major histocompatibility complex molecules, or MHCs, on their surfaces.

If the MHCs of donor and recipient arent a match, the donors stem cells cause an immune response. In organ transplants, MHCs are carefully matched to prevent rejection.

These treatments arent like a bone marrow transplant or an organ transplant, says Lauren Schnabel, associate professor of equine orthopedic surgery at the university and corresponding author of the study, reported in the journal Frontiers in Cell and Developmental Biology.

Since the mesenchymal stem cells are being used temporarily to treat localized injury, researchers once thought that they didnt need to be matched that they wouldnt cause an immune response. Unfortunately, that isnt the case.

Schnabel and Alix Berglund, a research scholar at the university and lead author of the paper, wanted to find a way to use mesenchymal stem cell therapy without the time, effort and additional cost of donor/recipient matching.

Since these cells dont have to be in the body as long as an organ does, hiding them from the immune system long enough for them to secrete their paracrine factors could be a way around donor/recipient matching, Berglund says. Downregulating expression of the MHC molecules could be one way to do this.

The researchers cultured stem cells and lymphocytes, or T cells, from eight horses, cross-pairing them in vitro so that the stem cells and lymphocytes had differing MHC haplotypes.

In one group, stem cells had been treated with transforming growth factor beta (TGF-2) prior to being added to the lymphocytes in the culture media; the other group was untreated. TGF-2 is a cell-signaling molecule produced by white blood cells that blocks immune responses.

Cultures with treated stem cells had a 50% higher stem cell survival rate than untreated cultures.

We use mesenchymal stem cells to treat musculoskeletal injuries particularly tendon injuries in horses very effectively, Schnabel says.

And while you can extract the secretions from the stem cells, you get better results with the cells themselves. Stem cells arent just a reservoir of secretions, theyre a communications hub that tells other cells what they should be doing. So finding a way to utilize these cells without stimulating immune response gives us better treatment options.

This is a promising pilot study, Berglund says. Our next steps will be to further explore the immune response in vivo, and to look at human cells in vitro, as this work has excellent potential to help humans with these injuries as well.

The research was supported by the National Institutes of Health and the Morris Animal Foundation. Research specialist Julie Long and statistician James Robertson, both with the university, also contributed to the work.

TGF-b2 Reduces the Cell-Mediated Immunogenicity of Equine MHC-Mismatched Bone Marrow-Derived Mesenchymal Stem Cells Without Altering Immunomodulatory Properties Alix K. Berglund, Julie M. Long, James B. Robertson, Lauren V. Schnabel Cell Dev. Biol., 04 February 2021 https://doi.org/10.3389/fcell.2021.628382

The study, published under a Creative Commons License, can be read here.

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Researchers curb local immune response in horses receiving stem cell injury therapy - Horsetalk

Biobanking Market Report Research and Global Outlook 2021 to 2025 KSU | The Sentinel Newspaper – KSU | The Sentinel Newspaper

A New Research report Biobanking Market has been recently added to the Market Insights Reports database. The report offers definitive information pertaining to the commercialization aspects, revenue estimation, and market size of the industry. The report defines the status of key players in the competitive landscape including their portfolio and geographical expansion pursuits. This report also focuses on Biobanking Market Trend, volume, and value at the global level, regional level, and company level.

According to this study, over the next five years the Biobanking market will register a 6.0% CAGR in terms of revenue, the global market size will reach $ 3381 million by 2025, from $ 2676.4 million in 2019.

The report presents the market competitive landscape and a corresponding detailed analysis of the major vendor/key players in the market.Top Companiesin the Global Biobanking Market:Beckman Coulter, Tecan Group, Thermo Fisher, Sigma-Aldrich, SOL Group, Panasonic, Brooks Life Science, Promega, QIAGEN, BD, Askion, Cryo Bio System, Biolife Solutions, Lifeline Scientific, DNA Genotek, LVL Technologies, Micronic, So-Low, BioRep and Others.

Click the link to get a free Sample Copy of the Report:

https://www.marketinsightsreports.com/reports/10292408158/global-biobanking-market-growth-status-and-outlook-2020-2025/inquiry?Moode=A28

Market Overview:

The major factors for the growth of the global biobanks market include the innovations in regenerative medicine, the growing incidence of chronic diseases, advances in drug discovery and development, and R&D funding and investments by government and non-governmental organizations. These factors are expected to a boost the growth of the market over the forecast period.

Regenerative medicine through stem cell technology is one of the important treatments for diseases, such as Alzheimers, diabetes, cancers, and rare genetic diseases. In order to benefit from the existing therapies, umbilical cord cells and other stem cells are preserved.

Stem cell practices are on the rise, globally, and are contributing to the development of new solutions for various diseases. Boston-based biotech start-up, Orig3n, is looking to build the largest and most diverse biobank, harnessing the power of induced pluripotent stem cell technology to accelerate regenerative medicine. Treatments for diseases, like muscular degeneration, using adult stem cells are now going into Phase 3 clinical trials in Japan. These successes are driving both the government and the private sector organizations into investing in more stem cell banks.

With the increase in awareness about stem cell therapies, there have been larger number of parents who are choosing umbilical cord banks for their children. There are a number of donor banks that are coming up as well. Biobanks not only aid in the therapies for genetic diseases, but also in medical research on rare genetic disorders. Increasing awareness about stem cell therapies and innovation in the field of regenerative medicine are driving the growth of the global biobank market.

This report segments the Global Biobanking Market on the basis ofTypesare:

Equipment Consumable

On the basis ofApplication,the Global Biobanking Market is segmented into:

Virtual Biobanks Tissue Biobanks Population Biobanks

Top Line Market Forecast:

Both Regional and Global sectors are included in the Outlook, with special breakouts for the NAM, European, MENA, and Asia-Pacific regions. The data covered is from 2015 to 2019 historically and from 2021 to 2025 forecast, it also includes the impact of Covid-19 both on the short- and long-term prospects of the industry.

Full Browse the report description and TOC:

https://www.marketinsightsreports.com/reports/10292408158/global-biobanking-market-growth-status-and-outlook-2020-2025?Mode=A28

Detailed overview of Market Changing market dynamics of the industry In-depth market segmentation by Type, Application etc. Historical, current and projected market size in terms of volume and value Recent industry trends and developments Competitive landscape of Biobanking Market Strategies of key players and product offerings Potential and niche segments/regions exhibiting promising growth

The research includes historic data from 2015 to 2021 and forecasts until 2025 which makes the report an invaluable resource for industry executives, marketing, sales and product managers, consultants, analysts and stakeholders looking for key industry data in readily accessible documents with clearly presented tables and graphs.

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Customization of the Report: The report can be further customized according to the clients specific research requirements. No additional charges will be added for limited additional research.

Note: All the reports that we list have been tracking the impact of COVID-19 the market. Both upstream and downstream of the entire supplychain has been accounted for while doing this. Also, where possible, we will provide an additional COVID-19 update supplement/report to the report in Q3, please check for with the sales team.

MarketInsightsReportsprovides syndicated market research on industry verticals includingHealthcare, Information and Communication Technology (ICT), Technology and Media, Chemicals, Materials, Energy, Heavy Industry, etc.MarketInsightsReportsprovides global and regional market intelligence coverage, a 360-degree market view which includes statistical forecasts, competitive landscape, detailed segmentation, key trends, and strategic recommendations.

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Biobanking Market Report Research and Global Outlook 2021 to 2025 KSU | The Sentinel Newspaper - KSU | The Sentinel Newspaper