Category Archives: Stell Cell Research


COVID is shifting the conversation about the medical application of CBD – Open Access Government

COVID-19 has spread around the planet, sending billions of people into lockdown as health services struggle to cope. The statistics are startling global cases stand at 23,139,628 and with a total death toll of 801,795 and new daily cases rising (John Hopkins University data 23 Aug 2020), the outbreak has thrown an unprecedented challenge to the world and its citizens. So far, there is no approved treatment or vaccine.

While researchers around the world continue to explore different ways in combating COVID-19, some are looking into how cannabis derived CBD can offer benefits for those suffering from severe forms of this infection.

One recent study from the Dental College of Georgia and Medical College of Georgiashowed high CBD formulations could be effective in the treatment of acute respiratory distress syndrome, or ARDS. The condition, also known as a cytokine storm, has been seen in serious cases of coronavirus, and even affects patients with other viruses or autoimmune diseases. With ARDS, the patients own hyperactive autoimmune system inundates organs with cytokines, resulting in dangerous inflammation. This reaction can cause lung damage and eventual death in COVID-19 victims.

The study model showed CBD down-regulated the cytokines, which helped improve oxygen levels and supported recovery of damaged lung tissues. The researchers also intend to perform similar studies to understand how CBD might help other organs recover from the effects of the virus. Researchers from University of Nebraska and the Texas Biomedical Research Institute also took part. In apeer-reviewed article in Brain, Behaviour, and Immunity, the authors said further research is needed to understand if CBD can help patients infected by the virus.

Now early results from an ongoing Israeli study is adding to the growing evidence that cannabis ingredients could be a game changing treatment in the fight against COVID-19. The new terpene study is being performed by two Israeli research and development companies,Eybnawhich specializes in terpene based medicines, and CannaSoul Analytics. The study looks at a proprietary terpene formulation called NT-VRL, which was created by Eybna to treat inflammatory conditions such as the cytokine storm syndrome found in COVID-19 patients. The formulation contains 30 individual terpenes that are potential anti-inammatory agents all working together to create a positive impact.

While results are ongoing and are yet to be completed, peer reviewed or published, these are positive steps that warrants further investigation into the application of CBD.

This is far from the only investigation into CBD medical benefits.

Researchers at the University of Lethbridge in Alberta,Canada, revealed at the beginning of July that certain kinds of high CBD strains could help treat people infected with the virus or even prevent it from developing in the first place by managing to reduce virus receptors.

Study authors found extract from high CBD strains could help to regulate an enzyme that coronavirus attaches to thereby blocking the viruss ability to infect cells. Results were published on peer review website Preprints.

In Israel, there are several companies and trials underway on how CBD can be used to battle COVID-19. One such example is the partnership of InnoCan Pharma and Tel Aviv University who are working on a new treatment for COVID-19 using exosomes loaded with CBD. Exosomes are small particles created when stem cells multiply. The method will utilise the exosomes as homing missiles, as they can uniquely target cell organs that have been damaged.

As it stands, CBD is still an area under development for the treatment of COVID-19. While there have been some promising results on CBDs anti-inflammatory properties, more studies are needed before leading into clinical trials to test effectiveness. This can take anywhere from months to years.

Speed, agility, and innovation are required from governments, businesses, and society in crafting responses to cope with this evolving new normal. In this period of uncertainty, every therapeutic opportunity and avenue must be considered. CBD opens the door to various exciting possibilities.

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COVID is shifting the conversation about the medical application of CBD - Open Access Government

Remarkable Growth in the Artificial Embryo Market by top key players like MERLN Institute of Maastricht University, University of Cambridge,…

A2Z Market Research announces the release of the Artificial Embryo Market research report. The market is predicted to grow at a healthy pace in the coming years. Artificial Embryo Market 2020 research report presents an analysis of market size, share, and growth, trends, cost structure, statistical and comprehensive data of the global market. The Market report offers remarkable data regarding the industrys growth parameters, the current state of the market in terms of analysis of possible economic situations, and macroeconomic analysis.

An artificial embryo is an embryo prepared by the use of various technologies in artificial conditions with the help of stem cells. These cells are grown in culture media which provides the required nutrition for the growth. increase in stem cell banking and various other advanced technologies are expected to promote the growth of the Artificial Embryo Market.

The artificial Embryo Market is growing at a CAGR of +10% during the forecast period 2020-2026.

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The top companies in this report include:

MERLN Institute of Maastricht University, University of Cambridge, University of Michigan, Rockefeller University, MRC London Institute of Medical Sciences

This report provides an in-depth review of the current state of the Artificial Embryo market, daring its growth and all other essential elements in all of the major markets of the county.It presents a gigantic amount of market data, compiled using myriad primary and secondary research practices.The data in this report has been reduced on a business basis using various systematic methods.

For a comprehensive analysis, the Artificial Embryo market is segmented by product type, region, and application.Due to its regional focus, the market is alien to North America, Europe, Asia-Pacific, the Middle East and Africa as well as Latin America.Major companies are working on distributing their products and services across different regions.In addition, procurements and associations from some of the leading organizations.All of the factors intended to drive the global marketplace are examined in depth.

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This report gives an in-depth and broad understanding of the Artificial Embryo Market. With exact data cover all key features of the current market, this report offers widespread data on leading companies. Appreciative of the market state by amenability of correct historical data regarding each and every sector for the forecast period is mentioned. Driving forces, restraints, and opportunities are given to help give an improved picture of this market investment for the forecast period of 2020 to 2026.

Key Factors Impacting Market Growth:

o Convergence of data with accuracy and high speed o Rising demand for efficient computing o Increasing opportunities through improved research, computation, and data analysis performances o High price and data security issues

The main questions answered in the report are:

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Remarkable Growth in the Artificial Embryo Market by top key players like MERLN Institute of Maastricht University, University of Cambridge,...

Cell Counting Market Research Report by Product, by Application, by End User – Global Forecast to 2025 – Cumulative Impact of COVID-19 – GlobeNewswire

September 18, 2020 18:27 ET | Source: ReportLinker

New York, Sept. 18, 2020 (GLOBE NEWSWIRE) -- Reportlinker.com announces the release of the report "Cell Counting Market Research Report by Product, by Application, by End User - Global Forecast to 2025 - Cumulative Impact of COVID-19" - https://www.reportlinker.com/p05953105/?utm_source=GNW

The Global Cell Counting Market is expected to grow from USD 9,721.56 Million in 2019 to USD 14,210.67 Million by the end of 2025 at a Compound Annual Growth Rate (CAGR) of 6.53%.

Market Segmentation & Coverage: This research report categorizes the Cell Counting to forecast the revenues and analyze the trends in each of the following sub-markets:

Based on Product , the Cell Counting Market studied across Consumables, Instruments, and Microscopes. The Consumables further studied across Accessories, Assay Kits, Media, Sera, And Reagents, and Microplates. The Instruments further studied across Flow Cytometers and Spectrophotometers.

Based on Application, the Cell Counting Market studied across Industrial Applications, Medical Applications, and Research Applications. The Medical Applications further studied across Circulating Tumor Cell Detection, In Vitro Fertilization, and Noninvasive Prenatal Diagnosis. The Research Applications further studied across Cancer Research, Immunology Research, Neurology Research, and Stem Cell Research.

Based on End User , the Cell Counting Market studied across Hospitals & Diagnostic Laboratories, Introduction, Pharmaceutical & Biotechnology Companies And Contract Research Organizations, and Research Institutes.

Based on Geography, the Cell Counting Market studied across Americas, Asia-Pacific, and Europe, Middle East & Africa. The Americas region surveyed across Argentina, Brazil, Canada, Mexico, and United States. The Asia-Pacific region surveyed across Australia, China, India, Indonesia, Japan, Malaysia, Philippines, South Korea, and Thailand. The Europe, Middle East & Africa region surveyed across France, Germany, Italy, Netherlands, Qatar, Russia, Saudi Arabia, South Africa, Spain, United Arab Emirates, and United Kingdom.

Company Usability Profiles: The report deeply explores the recent significant developments by the leading vendors and innovation profiles in the Global Cell Counting Market including Abbott Laboratories, Agilent Technologies, Inc., Becton, Dickinson and Company, Bio-Rad Laboratories Inc., Boule Diagnostics AB, Corning Inc., Danaher Corporation, F. Hoffmann-La Roche AG, Horiba, Ltd., Logos Biosystems, Inc., Luminex Corporation, Merck KGaA, Nexcelom Bioscience LLC, Olympus Corporation, Perkinelmer, Inc., Siemens Healthineers AG, Sysmex Corporation, Tecan Group Ltd., Thermo Fisher Scientific Inc., and Tip Biosystems.

FPNV Positioning Matrix: The FPNV Positioning Matrix evaluates and categorizes the vendors in the Cell Counting Market on the basis of Business Strategy (Business Growth, Industry Coverage, Financial Viability, and Channel Support) and Product Satisfaction (Value for Money, Ease of Use, Product Features, and Customer Support) that aids businesses in better decision making and understanding the competitive landscape.

Competitive Strategic Window: The Competitive Strategic Window analyses the competitive landscape in terms of markets, applications, and geographies. The Competitive Strategic Window helps the vendor define an alignment or fit between their capabilities and opportunities for future growth prospects. During a forecast period, it defines the optimal or favorable fit for the vendors to adopt successive merger and acquisition strategies, geography expansion, research & development, and new product introduction strategies to execute further business expansion and growth.

Cumulative Impact of COVID-19: COVID-19 is an incomparable global public health emergency that has affected almost every industry, so for and, the long-term effects projected to impact the industry growth during the forecast period. Our ongoing research amplifies our research framework to ensure the inclusion of underlaying COVID-19 issues and potential paths forward. The report is delivering insights on COVID-19 considering the changes in consumer behavior and demand, purchasing patterns, re-routing of the supply chain, dynamics of current market forces, and the significant interventions of governments. The updated study provides insights, analysis, estimations, and forecast, considering the COVID-19 impact on the market.

The report provides insights on the following pointers: 1. Market Penetration: Provides comprehensive information on the market offered by the key players 2. Market Development: Provides in-depth information about lucrative emerging markets and analyzes the markets 3. Market Diversification: Provides detailed information about new product launches, untapped geographies, recent developments, and investments 4. Competitive Assessment & Intelligence: Provides an exhaustive assessment of market shares, strategies, products, and manufacturing capabilities of the leading players 5. Product Development & Innovation: Provides intelligent insights on future technologies, R&D activities, and new product developments

The report answers questions such as: 1. What is the market size and forecast of the Global Cell Counting Market? 2. What are the inhibiting factors and impact of COVID-19 shaping the Global Cell Counting Market during the forecast period? 3. Which are the products/segments/applications/areas to invest in over the forecast period in the Global Cell Counting Market? 4. What is the competitive strategic window for opportunities in the Global Cell Counting Market? 5. What are the technology trends and regulatory frameworks in the Global Cell Counting Market? 6. What are the modes and strategic moves considered suitable for entering the Global Cell Counting Market? Read the full report: https://www.reportlinker.com/p05953105/?utm_source=GNW

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Cell Counting Market Research Report by Product, by Application, by End User - Global Forecast to 2025 - Cumulative Impact of COVID-19 - GlobeNewswire

Takeda Opens New R&D Cell Therapy Manufacturing Facility to Support Expansion of Next-Generation Clinical Programs – Business Wire

OSAKA, Japan--(BUSINESS WIRE)--Takeda Pharmaceutical Company Limited (TSE:4502/NYSE:TAK) (Takeda) today 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 potential to expand into other therapeutic areas.

We are collaborating with some of the best scientists and innovators around the world establishing a highly differentiated immuno-oncology pipeline leapfrogging into new modalities and mechanisms with curative potential, said Chris Arendt, Ph.D., Head of Takedas Oncology Therapeutic Area Unit. With three oncology cell therapy programs in the clinic and two more targeted to enter the clinic in fiscal year 2021, we are working with urgency and purpose for patients. This new facility helps us rapidly scale our manufacturing capabilities so we can simultaneously advance multiple highly differentiated cell therapy programs.

Oncology cell therapy is a type of immunotherapy that uses genetically modified immune cells to find and kill cancer cells. Because cell therapies are engineered from living cells, they need to be manufactured in a highly regulated environment to maintain cleanliness, consistency and contamination control. Each oncology cell therapy platform has unique process requirements for how they are formulated, manufactured, transported and ultimately administered to patients. Next-generation cell therapy is one of the multiple investigational platforms that Takeda is researching in oncology as part of its focus on redirected immunity. Takedas pipeline of diverse immuno-oncology programs harnesses innate immunity, including through innovative cell therapies, immune engager platforms, innate immuno-modulation, novel-scaffold immune check point platforms and oncolytic viruses.

A Purpose-Built Facility to Rapidly Advance Cell Therapy Research & Development

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. It will be instrumental in building Takedas cell therapy capabilities and capacity to advance multiple next-generation oncology cell therapy platforms and programs with world-class collaborators including Nobel Laureate Shinya Yamanaka, M.D., Ph.D., Kyoto University (induced pluripotent stem cells), Adrian Hayday, Ph.D., Gamma Delta Therapeutics (gamma delta T-cells), Koji Tamada, M.D., Ph.D., Noile-Immune Biotech (armored CAR-Ts), Michel Sadelain, M.D., Ph.D., Memorial Sloan Kettering Cancer Center (next-generation CARs), and Katy Rezvani, M.D., Ph.D., The University of Texas MD Anderson Cancer Center (CAR-NK).

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 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. Dr. Sadelain and MSK have intellectual property rights and associated interests related to the content of this release by virtue of licensing agreements between MSK and Takeda.

Harnessing the Power of Takedas Cell Therapy Translational Engine

Proactive and deep collaboration between research and development and commercial manufacturing is critical to developing and delivering next-generation cell therapies. 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.

The proximity and structure of our cell therapy teams allow us to quickly apply what we learn across a diverse portfolio of next-generation cell therapies including CAR NKs, armored CAR-Ts and gamma delta T cells, among others, said Stefan Wildt, Ph.D., Head of Pharmaceutical Sciences and Translational Engine, Cell Therapies at Takeda. Insights gained in manufacturing and clinical development can be quickly shared across our global research, manufacturing and quality teams, a critical ability in our effort to deliver potentially transformative treatments to patients as fast as we can.

About Takeda Pharmaceutical Company Limited

Takeda Pharmaceutical Company Limited (TSE:4502/NYSE:TAK) is a global, values-based, R&D-driven biopharmaceutical leader headquartered in Japan, committed to bringing Better Health and a Brighter Future to patients by translating science into highly-innovative medicines. Takeda focuses its R&D efforts on four therapeutic areas: Oncology, Rare Diseases, Neuroscience, and Gastroenterology (GI). We also make targeted R&D investments in Plasma-Derived Therapies and Vaccines. We are focusing on developing highly innovative medicines that contribute to making a difference in people's lives by advancing the frontier of new treatment options and leveraging our enhanced collaborative R&D engine and capabilities to create a robust, modality-diverse pipeline. Our employees are committed to improving quality of life for patients and to working with our partners in health care in approximately 80 countries.

For more information, visit https://www.takeda.com.

Important Notice

For the purposes of this notice, press release means this document, any oral presentation, any question and answer session and any written or oral material discussed or distributed by Takeda Pharmaceutical Company Limited (Takeda) regarding this release. This press release (including any oral briefing and any question-and-answer in connection with it) is not intended to, and does not constitute, represent or form part of any offer, invitation or solicitation of any offer to purchase, otherwise acquire, subscribe for, exchange, sell or otherwise dispose of, any securities or the solicitation of any vote or approval in any jurisdiction. No shares or other securities are being offered to the public by means of this press release. No offering of securities shall be made in the United States except pursuant to registration under the U.S. Securities Act of 1933, as amended, or an exemption therefrom. This press release is being given (together with any further information which may be provided to the recipient) on the condition that it is for use by the recipient for information purposes only (and not for the evaluation of any investment, acquisition, disposal or any other transaction). Any failure to comply with these restrictions may constitute a violation of applicable securities laws.

The companies in which Takeda directly and indirectly owns investments are separate entities. In this press release, Takeda is sometimes used for convenience where references are made to Takeda and its subsidiaries in general. Likewise, the words we, us and our are also used to refer to subsidiaries in general or to those who work for them. These expressions are also used where no useful purpose is served by identifying the particular company or companies.

Forward-Looking Statements

This press release and any materials distributed in connection with this press release may contain forward-looking statements, beliefs or opinions regarding Takedas future business, future position and results of operations, including estimates, forecasts, targets and plans for Takeda. Without limitation, forward-looking statements often include words such as targets, plans, believes, hopes, continues, expects, aims, intends, ensures, will, may, should, would, could anticipates, estimates, projects or similar expressions or the negative thereof. These forward-looking statements are based on assumptions about many important factors, including the following, which could cause actual results to differ materially from those expressed or implied by the forward-looking statements: the economic circumstances surrounding Takedas global business, including general economic conditions in Japan and the United States; competitive pressures and developments; changes to applicable laws and regulations; the success of or failure of product development programs; decisions of regulatory authorities and the timing thereof; fluctuations in interest and currency exchange rates; claims or concerns regarding the safety or efficacy of marketed products or product candidates; the impact of health crises, like the novel coronavirus pandemic, on Takeda and its customers and suppliers, including foreign governments in countries in which Takeda operates, or on other facets of its business; the timing and impact of post-merger integration efforts with acquired companies; the ability to divest assets that are not core to Takedas operations and the timing of any such divestment(s); and other factors identified in Takedas most recent Annual Report on Form 20-F and Takedas other reports filed with the U.S. Securities and Exchange Commission, available on Takedas website at: https://www.takeda.com/investors/reports/sec-filings/ or at http://www.sec.gov. Takeda does not undertake to update any of the forward-looking statements contained in this press release or any other forward-looking statements it may make, except as required by law or stock exchange rule. Past performance is not an indicator of future results and the results or statements of Takeda in this press release may not be indicative of, and are not an estimate, forecast, guarantee or projection of Takedas future results.

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Takeda Opens New R&D Cell Therapy Manufacturing Facility to Support Expansion of Next-Generation Clinical Programs - Business Wire

Cell Therapy Market 2025 Scope and Opportunities Analysis in Pandamic Crisis: JCR Pharmaceuticals Co., Ltd., Kolon TissueGene, Inc.; and Medipost -…

This elaborate research report presented on Cell Therapy market is committed to present a deep-dive analysis of the product overview, sectioning details on decisive growth opportunities, development trends as well as growth deterrents, restricting growth at the world forum.

Industry experts from the global Cell Therapy industry, including management organizations, processing organizations, and analytical services providers that address the value chain of industry organizations, were the main source of collection of data. To collect and certify qualitative and quantitative information and to determine future prospects, we interviewed all major sources.

Top Leading Key Players are:

JCR Pharmaceuticals Co., Ltd., Kolon TissueGene, Inc.; and Medipost and many more.

Get Sample PDF (including COVID19 Impact Analysis, full TOC, Tables and Figures) of Cell Therapy Market @ https://www.adroitmarketresearch.com/contacts/request-sample/611

Internal and external growth propellants inclusive of administrative initiatives, rigorous and aggressive investments made by various market participants, market players as well as aspiring new entrants seeking seamless integration in the global Cell Therapy market space are highly dominant alterations in global Cell Therapy market, opine our leading in-house R&D veterans and research analysts who invest in massive research activities.

This research report presentation gives complete access to highly discernable market specific developments in the realm of core development and growth facets, elaborating on vendor behavior as well as activity, complete with relevant information on market player investments and growth models that contribute towards a consistent growth trajectory in global Cell Therapy market.

Segment Assessment: Global Cell Therapy Market, 2020-25

This delicately orchestrated market representation, evaluating multiple factors and growth determinants are poised to assist high end growth directed business decisions in global Cell Therapy market. The report. This decisive report presentation makes critical headways in defining the developments of the market comprising each of the segments and performance-based analysis across regions, besides also roping in significant details on country-specific performance.

DROT Review: Global Cell Therapy Market

Driver Analysis: This dedicated section of the report throws ample light on various favorable conditions and triggers prevalent in the market that induce optimum momentum

Threat & Barrier Diagnosis: This section of the report lends thoughts on distinctive evaluation and identification of market deterrents that stagnate high potential growth in the global Cell Therapy market

Opportunity Mapping: The section is highly incumbent in guiding market participants in diverting investments towards tapping new opportunities on both regional and global perspectives.

Browse the complete report Along with TOC @ https://www.adroitmarketresearch.com/industry-reports/cell-therapy-market

Global Cell Therapy Market is segmented based by type, application and region.

Based on Type, the Market has been segmented into:

By Use & Type Outlook, (Clinical-use,By Cell Therapy Type,,Non-stem Cell Therapies,Stem Cell Therapies,BM, Blood, & Umbilical Cord-derived Stem Cells,Adipose derived cells,Others), By Therapeutic Area, (Malignancies,Muscoskeletal Disorders,Autoimmune Disorders,Dermatology,Others,Research-use), By Therapy Type, (Allogenic Therapies,Autologous Therapies)

Providing separate section of covid-19 crisis which consists:

* Description: This section sums up entire research study along with volume forecasts and CAGR value.

Major Segments: This segment provide information about leading segments with important factors like growth potential and share.

Leading Regions: In depth study of major regions in covid-19 pandemic and countries overall growth during this crisis.

Competitors profiling: Accurate study of competitive landscape in affected regions and other studies.

Dynamics: Aspects such as market constraints, prospective supply and demand, barriers, opportunities, etc. of the Cell Therapy market report would be available within the report.

Report Investment a Logical Investment, Know Why?

* The report upholds a systematic presentation of all the tangible segments and their role in revenue optimization

* Further, the report also allows manufacturers and vendors to design appropriate investment discretion

* The report resonates critical findings on decisive factors such as downstream needs and requirement specifications as well as upstream product and service development

* The report aids in reader comprehension of the market based on dual parameters of value and volume.

* This report also helps market participants to organize R&D activities aligning with exact market requirements

For Any Query on the Cell Therapy Market @ https://www.adroitmarketresearch.com/contacts/enquiry-before-buying/611

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Cell Therapy Market 2025 Scope and Opportunities Analysis in Pandamic Crisis: JCR Pharmaceuticals Co., Ltd., Kolon TissueGene, Inc.; and Medipost -...

Alexion Receives CHMP Positive Opinion for New Advanced Formulation of ULTOMIRIS (ravulizumab) with Significantly Reduced Infusion Time – Business…

BOSTON--(BUSINESS WIRE)--Alexion Pharmaceuticals, Inc. (NASDAQ:ALXN) today announced that the Committee for Medicinal Products for Human Use (CHMP) has adopted a positive opinion, recommending marketing authorization in the European Union for a new 100 mg/mL intravenous (IV) advanced formulation of ULTOMIRIS (ravulizumab). ULTOMIRIS is the first and only long-acting C5 inhibitor administered every eight weeks for the treatment of two ultra-rare diseasesparoxysmal nocturnal hemoglobinuria (PNH) and atypical hemolytic uremic syndrome (aHUS). ULTOMIRIS 100 mg/mL would constitute an advancement in the treatment experience for patients with aHUS and PNH by reducing average annual infusion times by approximately 60 percent compared to ULTOMIRIS 10 mg/mL while delivering comparable safety and efficacy. With ULTOMIRIS 100 mg/mL, most patients will spend six hours or less a year receiving treatment.

ULTOMIRIS is anticipated to be the new standard of care for people with PNH and aHUS and the advanced formulation would reduce the time they spend receiving their infusion. Lessening the overall burden on healthcare systems, especially at a time when many are already under strain due to the pandemic, is an important advance, said Professor Rth, Department of Hematology and Stem Cell Transplantation, University Hospital Essen, Essen, Germany.

PNH is a blood disorder characterized by complement-mediated destruction of the red blood cells that can cause a wide range of debilitating symptoms and complications, including thrombosis, which can occur throughout the body, and result in organ damage and premature death. Atypical HUS can cause progressive injury to vital organs, primarily the kidneys, via damage to the walls of blood vessels and blood clots. Affecting both adults and children, aHUS patients can present in critical condition, often requiring supportive care, including dialysis, in an intensive care unit. The prognosis of both aHUS and PNH can be poor in many cases, so a timely and accurate diagnosisin addition to appropriate treatmentis critical to improving patient outcomes.

The advanced formulation of ULTOMIRIS marks continued progress in Alexions ongoing efforts to innovate for patients, and we expect it will represent yet another step in refining the treatment schedule for patients, said John Orloff, M.D., Executive Vice President and Head of Research & Development at Alexion. Importantly, it would mean that most patients would spend only six hours or less a year receiving treatment, allowing them to focus on other aspects of their lives.

The CHMP positive opinion is based on a comprehensive chemistry, manufacturing and control (CMC) submission and a supplementary clinical data set showing that the safety, pharmacokinetics and immunogenicity following administration of ULTOMIRIS 10 mg/mL and ULTOMIRIS 100mg/mL were comparable. Similarly, the data set showed no notable effect in the efficacy measure of mean lactate dehydrogenase (LDH) levels across the two formulations. The new proposed formulation requires an infusion time of 0.4 to 1.3 hours (25 to 75 minutes) depending on body weight, reducing the infusion time by more than half compared with the currently available 10mg/mL IV formulation, which ranges from 1.3 to 3.3 hours (77 to 194 minutes) depending on body weight.

The European Commission typically reaches a decision on approval in approximately two months of the CHMP recommendation.

Alexion continues to innovate with ULTOMIRIS, with the goal of improving the patient experience. We plan to submit regulatory filings in the U.S. and EU in the third quarter of 2021 for an ULTOMIRIS subcutaneous formulation and device combination for PNH and aHUS that can be self-administered at home, pending completion of the ongoing Phase 3 study and collection of 12-month safety data. In addition, the collective ULTOMIRIS clinical development programs present an opportunity to expand the treated patient populations across hematology, nephrology, neurology and for the treatment of severe COVID-19, with seven Phase 3 programs that are ongoing or have planned clinical trial initiations in 2020.

About Paroxysmal Nocturnal Hemoglobinuria (PNH)

PNH is a serious ultra-rare blood disorder with devastating consequences. It is characterized by the destruction of red blood cells, which is also referred to as hemolysis. PNH occurs when the complement systema part of the bodys immune systemover-responds, leading the body to attack its own red blood cells. PNH often goes unrecognized, with delays in diagnosis from one to more than five years.Patients with PNH may experience a range of symptoms, such as fatigue, difficulty swallowing, shortness of breath, abdominal pain, erectile dysfunction, dark-colored urine and anemia. The most devastating consequence of chronic hemolysis is the formation of blood clots, which can occur in blood vessels throughout the body, damage vital organs, and potentially lead to premature death.PNH can strike men and women of all races, backgrounds and ages without warning, with an average age of onset in the early 30s.

About Atypical Hemolytic Uremic Syndrome (aHUS)

aHUS is an ultra-rare disease that can cause progressive injury to vital organs, primarily the kidneys, via damage to the walls of blood vessels and blood clots. aHUS occurs when the complement systema part of the bodys immune systemover-responds, leading the body to attack its own healthy cells. aHUS can cause sudden organ failure or a slow loss of function over timepotentially resulting in the need for a transplant, and in some cases, death. aHUS affects both adults and children, and many patients present in critical condition, often requiring supportive care, including dialysis, in an intensive care unit. The prognosis of aHUS can be poor in many cases, so a timely and accurate diagnosisin addition to treatmentis critical to improving patient outcomes. Available tests can help distinguish aHUS from other hemolytic diseases with similar symptoms.

About ULTOMIRIS

ULTOMIRIS (ravulizumab) is the first and only long-acting C5 complement inhibitor. The medication works by inhibiting the C5 protein in the terminal complement cascade, a part of the bodys immune system. When activated in an uncontrolled manner, the complement cascade over-responds, leading the body to attack its own healthy cells. ULTOMIRIS is administered intravenously every eight weeks or, for pediatric patients less than 20 kg, every four weeks following a loading dose. ULTOMIRIS is approved in the European Union (EU) for treatment of adult patients with paroxysmal nocturnal haemoglobinuria (PNH) in patients with haemolysis with clinical symptom(s) indicative of high disease activity and in patients who are clinically stable after having been treated with eculizumab for at least the past 6 months. It is also approved in the United States (US) and Japan as a treatment for adults with PNH. It is also approved in the U.S. for atypical hemolytic uremic syndrome (aHUS) to inhibit complement-mediated thrombotic microangiopathy (TMA) in adult and pediatric (one month of age and older) patients, as well as in the EU for the treatment of adults and children with a body weight of at least 10 kg with aHUS. To learn more about the regulatory status of ULTOMIRIS in the countries that we serve, please visit http://www.alexion.com.

About Alexion

Alexion is a global biopharmaceutical company focused on serving patients and families affected by rare diseases and devastating conditions through the discovery, development and commercialization of life-changing medicines. As a leader in rare diseases for more than 25 years, Alexion has developed and commercializes two approved complement inhibitors to treat patients with paroxysmal nocturnal hemoglobinuria (PNH) and atypical hemolytic uremic syndrome (aHUS), as well as the first and only approved complement inhibitor to treat anti-acetylcholine receptor (AchR) antibody-positive generalized myasthenia gravis (gMG) and neuromyelitis optica spectrum disorder (NMOSD). Alexion also has two highly innovative enzyme replacement therapies for patients with life-threatening and ultra-rare metabolic disorders, hypophosphatasia (HPP) and lysosomal acid lipase deficiency (LAL-D) as well as the first and only approved Factor Xa inhibitor reversal agent. In addition, the company is developing several mid-to-late-stage therapies, including a copper-binding agent for Wilson disease, an anti-neonatal Fc receptor (FcRn) antibody for rare Immunoglobulin G (IgG)-mediated diseases and an oral Factor D inhibitor as well as several early-stage therapies, including one for light chain (AL) amyloidosis, a second oral Factor D inhibitor and a third complement inhibitor. Alexion focuses its research efforts on novel molecules and targets in the complement cascade and its development efforts on the core therapeutic areas of hematology, nephrology, neurology, metabolic disorders and cardiology. Headquartered in Boston, Massachusetts, Alexion has offices around the globe and serves patients in more than 50 countries. This press release and further information about Alexion can be found at: http://www.alexion.com.

[ALXN-P]

Forward-Looking Statement

This press release contains forward-looking statements that involve risks and uncertainties relating to future events and the future performance of Alexion, including statements related to: the safety, efficacy and benefits of the 100 mg/mL ULTOMIRIS formulation as a treatment for PNH and aHUS; that ULTOMIRIS 100 mg/mL formulation reduces infusion time as compared to the 10mg/mL formulation of ULTOMIRIS and SOLIRIS by approximately 60% with comparable safety and efficacy; that shorter infusion times will make a meaningful difference in patient lives and will lessen the burden on patients and health systems; that we expect the European Commission decision on the ULTOMIRIS 100 mg/mL formulation in November; ULTOMIRIS is anticipated to be the new standard of care for people with PNH and aHUS; that the advanced ULTOMIRIS formula will lessen the overall burden on healthcare systems and is an important advance; that the advanced formulation of ULTOMIRIS marks continued progress in Alexions ongoing efforts to innovate for patients, and we expect it will represent yet another step in refining the treatment schedule for patients; that most patients on the ULTOMIRIS 100 mg/mL formulation will spend only six hours or less a year receiving treatment; Alexions plans to submit regulatory filings in the U.S. and in the EU in the third quarter of 2021 for an ULTOMIRIS subcutaneous formulation and device combination for PNH and aHUS that can be self-administered at home pending completion of ongoing Phase 3 study and collection of 12-month safety data; that the collective ULTOMIRIS clinical development programs present an opportunity to expand the treated patient populations across hematology, nephrology, neurology and for the treatment of severe COVID-19; and planned clinical trial initiations in 2020. Forward-looking statements are subject to factors that may cause Alexion's results and plans to differ materially from those expected by these forward looking statements, including for example: the anticipated safety profile and the benefits of the ULTOMIRIS 100 mg/ml formulation may not be realized (and the results of the clinical trials may not be indicative of future results); ULTOMIRIS 100 mg/ml formulation may not be approved by the EU; results of clinical trials may not be sufficient to satisfy regulatory authorities; results in clinical trials may not be indicative of results from later stage or larger clinical trials (or in broader patient populations); the possibility that results of clinical trials are not predictive of safety and efficacy and potency of our products (or we fail to adequately operate or manage our clinical trials) which could cause us to discontinue sales of the product (or halt trials, delay or prevent us from making regulatory approval filings or result in denial of approval of our product candidates); the severity of the impact of the COVID-19 pandemic on Alexions business, including on commercial and clinical development programs; unexpected delays in clinical trials; unexpected concerns regarding products and product candidates that may arise from additional data or analysis obtained during clinical trials or obtained once used by patients following product approval; future product improvements may not be realized due to expense or feasibility or other factors; delays (expected or unexpected) in the time it takes regulatory agencies to review and make determinations on applications for the marketing approval of our products; inability to timely submit (or failure to submit) future applications for regulatory approval for our products and product candidates; inability to timely initiate (or failure to initiate) and complete future clinical trials due to safety issues, IRB decisions, CMC-related issues, expense or unfavorable results from earlier trials (among other reasons); our dependence on sales from our principal product (SOLIRIS); future competition from biosimilars and novel products; decisions of regulatory authorities regarding the adequacy of our research, marketing approval or material limitations on the marketing of our products; delays or failure of product candidates to obtain regulatory approval; delays or the inability to launch product candidates due to regulatory restrictions, anticipated expense or other matters; interruptions or failures in the manufacture and supply of our products and our product candidates; failure to satisfactorily address matters raised by regulatory agencies regarding our products and product candidates; uncertainty of long-term success in developing, licensing or acquiring other product candidates or additional indications for existing products; inability to complete acquisitions or grow the product pipeline through acquisitions (including due to failure to obtain antitrust approvals); the possibility that current rates of adoption of our products are not sustained; the adequacy of our pharmacovigilance and drug safety reporting processes; failure to protect and enforce our data, intellectual property and proprietary rights and the risks and uncertainties relating to intellectual property claims, lawsuits and challenges against us (including intellectual property lawsuits relating to ULTOMIRIS brought by third parties); the risk that third party payors (including governmental agencies) will not reimburse or continue to reimburse for the use of our products at acceptable rates or at all; failure to realize the benefits and potential of investments, collaborations, licenses and acquisitions; the possibility that expected tax benefits will not be realized; potential declines in sovereign credit ratings or sovereign defaults in countries where we sell our products; delay of collection or reduction in reimbursement due to adverse economic conditions or changes in government and private insurer regulations and approaches to reimbursement; adverse impacts on our supply chain, clinical trials, manufacturing operations, financial results, liquidity, hospitals, pharmacies and health care systems from natural disasters and global pandemics, including COVID-19; uncertainties surrounding legal proceedings, company investigations and government investigations; the risk that estimates regarding the number of patients with PNH, aHUS, gMG, NMOSD, HPP and LAL-D and other indications we are pursuing (as well as patients requiring a Factor Xa inhibitor reversal agent) are inaccurate; the risks of changing foreign exchange rates; risks relating to the potential effects of the Company's restructuring; risks related to the acquisitions of Portola Pharmaceuticals, Achillion and other companies and co-development efforts; and a variety of other risks set forth from time to time in Alexion's filings with the SEC, including but not limited to the risks discussed in Alexion's Quarterly Report on Form 10-Q for the period ended June 30, 2020 and in our other filings with the SEC. Alexion disclaims any obligation to update any of these forward-looking statements to reflect events or circumstances after the date hereof, except when a duty arises under law.

Short ULTOMIRIS SmPC June 2020

ULTOMIRIS (ravulizumab) Prescribing Information

Please refer to the SmPC for further information before prescribing.

ULTOMIRIS 300 mg concentrate for solution for infusion

Qualitative and quantitative composition: One vial of 30 mL contains 30 0mg of ravulizumab, produced in Chinese hamster ovary (CHO) cell culture by recombinant DNA technology. After dilution, the final concentration of the solution to be infused is 5 mg/mL. Excipient(s) with known effect: Sodium (5 mmol per vial). Clear to translucent, slight whitish colour, pH 7.0 solution.

Therapeutic indication: Treatment of adult patients with paroxysmal nocturnal haemoglobinuria (PNH) in patients with haemolysis with clinical symptom(s) indicative of high disease activity and in patients who are clinically stable after having been treated with eculizumab for at least the past 6 months. Treatment of patients with a body weight of 10 kg or above with atypical haemolytic uremic syndrome (aHUS) who are complement inhibitor treatment-nave or have received eculizumab for at least 3 months and have evidence of response to eculizumab.

Posology and method of administration. Posology: The recommended dosing regimen consists of a loading dose followed by maintenance dosing, administered by intravenous infusion. The doses to be administered are based on the patients body weight. For adult patients ( 18 years of age), maintenance doses should be administered at a once every 8 week interval, starting 2 weeks after loading dose administration. Dosing schedule is allowed to occasionally vary by 7 days of the scheduled infusion day (except for the first maintenance dose of ravulizumab) but the subsequent dose should be administered according to the original schedule. For patients switching from eculizumab to ravulizumab, the loading dose of ravulizumab should be administered 2 weeks after the last eculizumab infusion, and then maintenance doses are administered once every 8 weeks, starting 2 weeks after loading dose administration. Ravulizumab has not been studied in patients with PNH who weigh less than 40 kg. There is no experience of concomitant PE/PI (plasmapheresis or plasma exchange, or fresh frozen plasma infusion) use with ravulizumab. Administration of PE/PI may reduce ravulizumab serum levels. In aHUS, ravulizumab treatment to resolve TMA manifestations should be for a minimum duration of 6 months, beyond which length of treatment needs to be considered for each patient individually. Patients who are at higher risk for TMA recurrence, as determined by the treating healthcare provider (or clinically indicated), may require chronic therapy. Special Populations: Paediatric patients with aHUS with body weight 40 kg are treated in accordance with the adult dosing recommendations. The weight-based doses and dosing intervals for paediatric patients 10 kg to 20 kg is once every 4 week interval, for paediatric patients 20 kg to 40 kg once every 8 weeks, starting 2 weeks after loading dose administration. Data to support safety and efficacy of ravulizumab for patients with body weight below 10 kg are limited. No recommendation on a posology can be made for patients below 10 kg body weight (please refer to the SmPC for currently available data). The safety and efficacy of ravulizumab in children with PNH aged 0 to < 18 years have not been established. No data are available. Method of administration: For intravenous infusion only. ULTOMIRIS must be diluted to a final concentration of 5 mg/mL. This medicinal product must be administered through a 0.2 m filter and should not be administered as an intravenous push or bolus injection. ULTOMIRIS must be diluted prior to administration by intravenous infusion over a minimal period of 1.7 to 2.4 hours depending of body weight (please refer to the SmPC).

Contraindications: Hypersensitivity to the active substance or to any of the excipients; in patients with unresolved Neisseria meningitidis infection at treatment initiation; in patients who are not currently vaccinated against Neisseria meningitidis unless they receive prophylactic treatment with appropriate antibiotics until 2 weeks after vaccination. Special warnings and precautions for use. Traceability: In order to improve the traceability of biological medicinal products, the name and the batch number of the administered product should be clearly recorded. Serious meningococcal infection: Due to its mechanism of action, the use of ravulizumab increases the patient's susceptibility to meningococcal infection/sepsis (Neisseria meningitidis). Meningococcal disease due to any serogroup may occur. To reduce this risk of infection, all patients must be vaccinated against meningococcal infections at least two weeks prior to initiating ravulizumab unless the risk of delaying ravulizumab therapy outweighs the risk of developing a meningococcal infection. Patients who initiate ravulizumab treatment less than 2 weeks after receiving a meningococcal vaccine, must receive treatment with appropriate prophylactic antibiotics until 2 weeks after vaccination. Vaccines against serogroups A, C, Y, W135 and B where available, are recommended in preventing the commonly pathogenic meningococcal serogroups. Patients must be vaccinated or revaccinated according to current national guidelines for vaccination use. If the patient is being switched from eculizumab treatment, physicians should verify that meningococcal vaccination is current according to national guidelines for vaccination use. Vaccination may not be sufficient to prevent meningococcal infection. Consideration should be given to official guidance on the appropriate use of antibacterial agents. Cases of serious meningococcal infections/sepsis have been reported in patients treated with ravulizumab. Cases of serious or fatal meningococcal infections/sepsis have been reported in patients treated with other terminal complement inhibitors. All patients should be monitored for early signs of meningococcal infection and sepsis, evaluated immediately if infection is suspected, and treated with appropriate antibiotics. Patients should be informed of these signs and symptoms and steps should be taken to seek medical care immediately. Physicians should provide patients with a patient information brochure and a patient safety card. Immunization: Prior to initiating ravulizumab therapy, it is recommended that PNH and aHUS patients initiate immunizations according to current immunization guidelines. Vaccination may further activate complement. As a result, patients with complement-mediated diseases, including PNH and aHUS, may experience increased signs and symptoms of their underlying disease, such as haemolysis. Therefore, patients should be closely monitored for disease symptoms after recommended vaccination. Patients below the age of 18 years old must be vaccinated against Haemophilus influenzae and pneumococcal infections, and strictly need to adhere to the national vaccination recommendations for each age group. Other systemic infections: Ravulizumab therapy should be administered with caution to patients with active systemic infections. Ravulizumab blocks terminal complement activation; therefore, patients may have increased susceptibility to infections caused by Neisseria species and encapsulated bacteria. Serious infections with Neisseria species (other than Neisseria meningitidis), including disseminated gonococcal infections, have been reported. Patients should be provided with information from the Package Leaflet to increase their awareness of potential serious infections and their signs and symptoms. Physicians should advise patients about gonorrhea prevention. Infusion reactions: Administration of ravulizumab may result in infusion reactions. In clinical trials, with PNH and aHUS [(4 out of 296 in patients with PNH) and (4 of 89 patients with aHUS)] patients experienced infusion reactions which were mild in severity and transient [e.g., lower back pain, drop in blood pressure, elevation in blood pressure, limb discomfort, drug hypersensitivity (allergic reaction), and dysgeusia(bad taste)]. In case of infusion reaction, infusion of ravulizumab should be interrupted and appropriate supportive measures should be instituted if signs of cardiovascular instability or respiratory compromise occur.

Treatment discontinuation for PNH: If patients with PNH discontinue treatment with ravulizumab, they should be closely monitored for signs and symptoms of serious intravascular haemolysis, identified by elevated LDH (lactate dehydrogenase) levels along with sudden decrease in PNH clone size or haemoglobin, or re-appearance of symptoms such as fatigue, haemoglobinuria, abdominal pain, shortness of breath (dyspnoea), major adverse vascular event (including thrombosis), dysphagia, or erectile dysfunction. Any patient who discontinues ravulizumab should be monitored for at least 16 weeks to detect haemolysis and other reactions. If signs and symptoms of haemolysis occur after discontinuation, including elevated LDH, consider restarting treatment with ravulizumab. Treatment discontinuation for aHUS: There are no specific data on ravulizumab discontinuation. In a long-term prospective observational study, discontinuation of complement C5 inhibitor treatment (eculizumab) resulted in a 13.5-fold higher rate of TMA recurrence and showed a trend toward reduced renal function compared to patients who continued treatment. If patients must discontinue treatment with ravulizumab, they should be monitored closely for signs and symptoms of TMA on an on-going basis. However, monitoring may be insufficient to predict or prevent severe TMA complications. TMA complications post-discontinuation can be identified if any of the following is observed: (i) At least two of the following laboratory results observed concurrently: a decrease in platelet count of 25% or more as compared to either baseline or to peak platelet count during ravulizumab treatment; an increase in serum creatinine of 25% or more as compared to baseline or to nadir during ravulizumab treatment; or, an increase in serum LDH of 25% or more as compared to baseline or to nadir during ravulizumab treatment (results should be confirmed by a second measurement), or (ii) any one of the following symptoms of TMA: a change in mental status or seizures or other extra-renal TMA manifestations including cardiovascular abnormalities, pericarditis,

gastrointestinal symptoms/diarrhoea; or thrombosis. If TMA complications occur after ravulizumab discontinuation, consider reinitiation of ravulizumab treatment beginning with the loading dose and maintenance dose. This medicinal product when diluted with sodium chloride 9 mg/mL (0.9 %) solution for injection contains 2.65 g sodium per 720 mL at the maximal dose, equivalent to 133 % of the WHO recommended maximum daily intake of 2 g sodium for an adult. Interaction with other medicinal products and other forms of interaction: No interaction studies have been performed. Chronic intravenous human immunoglobulin (IVIg) treatment may interfere with the endosomal neonatal Fc receptor (FcRn) recycling mechanism of monoclonal antibodies such as ravulizumab and thereby decrease serum ravulizumab concentrations. Fertility, pregnancy and lactation. Women of childbearing potential: Women of childbearing potential should use effective contraception methods during treatment and up to 8 months after treatment. Pregnancy: There are no clinical data from the use of ravulizumab in pregnant women. Nonclinical reproductive toxicology studies were not conducted with ravulizumab. Reproductive toxicology studies were conducted in mice using the murine surrogate molecule BB5.1, which assessed effect of C5 blockade on the reproductive system. No specific test-article related reproductive toxicities were identified in these studies. Human IgG are known to cross the human placental barrier, and thus ravulizumab may potentially cause terminal complement inhibition in the foetal circulation. Animal studies are insufficient with respect to reproductive toxicity. In pregnant women the use of ravulizumab may be considered following an assessment of the risks and benefits. Breast-feeding: It is unknown whether ravulizumab is excreted into human milk. Nonclinical reproductive toxicology studies conducted in mice with the murine surrogate molecule BB5.1 identified no adverse effect to pups resulting from consuming milk from treated dams. A risk to infants cannot be excluded. Since many medicinal products and immunoglobulins are secreted into human milk, and because of the potential for serious adverse reactions in nursing infants, breast-feeding should be discontinued during treatment with ravulizumab and up to 8 months after treatment. Fertility: No specific non-clinical study on fertility has been conducted with ravulizumab. Nonclinical reproductive toxicology studies conducted in mice with a murine surrogate molecule (BB5.1) identified no adverse effect on fertility of the treated females or males.

Undesirable effects. Summary of the safety profile: The most common adverse drug reactions (very common frequency) are diarrhea, nausea, vomiting, nasopharyngitis and headache. The most serious adverse reactions in patients in clinical trials are meningococcal infection and meningococcal sepsis. Tabulated list of adverse reactions: Very common adverse reactions observed from PNH and aHUS clinical trials (1/10): Upper respiratory tract infection, Nasopharyngitis, Headache, Diarrhoea, Nausea, Pyrexia, Fatigue. Common adverse reactions (1/100 to <1/10): Dizziness, Abdominal pain, Vomiting, Dyspepsia, Rash, Pruritus, Arthralgia, Back pain, Myalgia, Muscle spasms, Influenza like illness, Asthenia. Uncommon adverse reactions (1/1,000 to <1/100): Meningococcal infection, Chills. In paediatric patients with evidence of aHUS (aged 10 months to less than 18 years) included in the clinical study, the safety profile of ravulizumab appeared similar to that observed in adult patients with evidence of aHUS. The safety profiles in the different paediatric subsets of age appear similar. The safety data for patient below 2 years of age is limited to four patients. The most common adverse reaction reported in paediatric patients was pyrexia. The safety of ravulizumab in children with PNH aged 0 to < 18 years have not been established. No data are available.

Storage: 2C 8C. Marketing Authorization Holder: Alexion Europe SAS, 1-15, 103-105 rue Anatole France, 92300 Levallois-Perret, FRANCE.

Marketing Authorisation Number: EU/1/19/1371/001. Date of First Authorisation: {02 July 2019}. Date of revision: {25 June 2020}. Detailed information on this medicinal product is available on the website of the European Medicines Agency (EMA) http://www.ema.europa.eu/.

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Alexion Receives CHMP Positive Opinion for New Advanced Formulation of ULTOMIRIS (ravulizumab) with Significantly Reduced Infusion Time - Business...

Automated Cell Cultures Market to Witness Exponential Growth by 2020-2027 | Leading Players BD, Thermo Fisher Scientific, Sigma-Aldrich Co., Tecan…

HiMedia Laboratories

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Automated Cell Cultures Market to Witness Exponential Growth by 2020-2027 | Leading Players BD, Thermo Fisher Scientific, Sigma-Aldrich Co., Tecan...

Trends in the Ready To Use Biologics Safety Testing Market 2019-2022 – The Daily Chronicle

In 2029, the Biologics Safety Testing market is spectated to surpass ~US$ xx Mn/Bn with a CAGR of xx% over the forecast period. The Biologics Safety Testing market clicked a value of ~US$ xx Mn/Bn in 2018. Region is expected to account for a significant market share, where the Biologics Safety Testing market size is projected to inflate with a CAGR of xx% during the forecast period.

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The key players covered in this study Lonza Group Charles River Merck SGS WuXi AppTec Thermo Fisher Scientific Sartorius Cytovance Biologics Pace Analytical Services Toxikon

Market segment by Type, the product can be split into Endotoxin Tests Sterility Tests Cell Line Authentication and Characterization Tests Bioburden Tests Cell Line Authentication Residual Host Contaminant Detection Tests Adventitious Agent Detection Tests Others Market segment by Application, split into Vaccine Development Blood Products Testing Cellular & Gene Therapy Tissue and Tissue-Related Products Testing Stem Cell Research

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Trends in the Ready To Use Biologics Safety Testing Market 2019-2022 - The Daily Chronicle

Cell Culture Products Market size, development, key opportunity, application and forecast to 2026 | Life Technologies, Corning (Cellgro),…

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The Global Cell Culture Products market exhibits comprehensive information that is a valuable source of insightful data for business strategists during the decade 2014-2026. On the basis of historical data, Cell Culture Products market report provides key segments and their sub-segments, revenue and demand & supply data. Considering technological breakthroughs of the market Cell Culture Products industry is likely to appear as a commendable platform for emerging Cell Culture Products market investors.

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Topmost Leading Manufacturer Covered in this report:Life Technologies, Corning (Cellgro), Sigma-Aldrich, Thermo Fisher, Merck Millipore, GE Healthcare, Lonza, BD, HiMedia, Takara, CellGenix, Atlanta Biologicals, PromoCell, Zenbio

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North America(the United States, Canada, and Mexico) Europe(Germany, France, UK, Russia, and Italy) Asia-Pacific(China, Japan, Korea, India, and Southeast Asia) South America(Brazil, Argentina, Colombia, etc.) The Middle East and Africa(Saudi Arabia, UAE, Egypt, Nigeria, and South Africa)

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Cell Culture Products Market size, development, key opportunity, application and forecast to 2026 | Life Technologies, Corning (Cellgro),...

Automated Cell Culture Market Incredible Possibilities, Growth Analysis And Forecast To 2026 – The Daily Chronicle

The Global Automated Cell Culture Market report by DataIntelo.com provides a detailed analysis of the area marketplace expanding; competitive landscape; global, regional, and country-level market size; impact market players; market growth analysis; market share; opportunities analysis; product launches; recent developments; sales analysis; segmentation growth; technological innovations; and value chain optimization. This is a latest report, covering the current COVID-19 impact on the market. The pandemic of Coronavirus (COVID-19) has affected every aspect of life globally. This has brought along several changes in market conditions. The rapidly changing market scenario and initial and future assessment of the impact is covered in the report.

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Market Segmentation

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By Product Types, Automated Cell Culture Storage Equipment Automated Cell Culture Vessels Automated Cell Culture Supporting Instruments Bioreactors

By Applications, Drug Development Stem Cell Research Cancer Research

By Regions and Countries, Asia Pacific: China, Japan, India, and Rest of Asia Pacific Europe: Germany, the UK, France, and Rest of Europe North America: The US, Mexico, and Canada Latin America: Brazil and Rest of Latin America Middle East & Africa: GCC Countries and Rest of Middle East & Africa

The regional analysis segment is a highly comprehensive part of the report on the global Automated Cell Culture market. This section offers information on the sales growth in these regions on a country-level Automated Cell Culture market.

The historical and forecast information provided in the report span between 2018 and 2026. The report provides detailed volume analysis and region-wise market size analysis of the market.

Competitive Landscape of the Automated Cell Culture Market

The chapter on competitive landscape provides information about key company overview, global presence, sales and revenue generated, market share, prices, and strategies used.

Major players in the global Automated Cell Culture Market include BD Tecan Trading Sartorius TAP Biosystems Cell Culture Company Eppendorf Merck KGaA Hamilton Company Thermo Fisher Scientific OCTANE BIOTECH

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Automated Cell Culture Market Incredible Possibilities, Growth Analysis And Forecast To 2026 - The Daily Chronicle