Global Anti-Ageing Drugs Market Research report 2020 provides detailed analysis of industry status and outlook of major regions based on of key players, countries, product types, and end industries. This research report offers the overall analysis of the segments such as market opportunities, import/export details, market dynamics, key manufacturers, growth rate, and key regions. Global Anti-Ageing Drugs research report consist information according to the manufacturers, regions, type, and application.

In accordance with the Anti-Ageing Drugs is set to grow at a CAGR of xx% over the forecast period (2020-2025) and exceed a value of US$ XX by the end of 2025. The global Anti-Ageing Drugs offers the company profile of major key players including progress trends, competitive landscape breakdown, and key in regions development status.

Leading companies reviewed in the Anti-Ageing Drugs report are:Nu Skin, BIOTIME, Elysium Health, La Roche-Posay, DermaFix

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Covid-19 pandemics create the negative impact on the majority of the developed and developing economies around the globe. Report covers the income impact investigation, interruptions and new open doors in the gracefully chain, overhauled merchant scene blend, new open doors mapping, and others. Also offers the various solutions and recovery options to solve this COVID-19 pandemic.

Global Anti-Ageing Drugs Segmentation by Type:Hormonal Therapy, Antioxidants, Enzymes, Stem Cells, Others

Global Anti-Ageing Drugs Segmentation by Applications:Skin, Hair, Others

Market Segmentation, By regions:North America (U.S., Canada, Mexico)South America (Cuba, Brazil, Argentina, and many others.)Europe (Germany, U.K., France, Italy, Russia, Spain, etc.)Asia (China, India, Russia, and many other Asian nations.)Pacific region (Indonesia, Japan, and many other Pacific nations.)Middle East & Africa (Saudi Arabia, South Africa, and many others.)

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Important Points Covered by Report:

Report covers the various market dynamics of the industry. Business overview and business strategies of key players. SWOT analysis for all key players mentioned in the research report. Detailed information about drivers, opportunities, and restraints of the Anti-Ageing Drugs. Also covers PESTAL analysis and Potters Five Forces Report provides the detailed information of product life cycle. Covers the manufacturing process, cost and detailed information.

There are 13 Chapters to display the Global Anti-Ageing Drugs:

Chapter 1:Complete profiling and analysis of ManufacturersChapter 2:Industrial Chain, Sourcing Strategy and Downstream BuyersChapter 3:Production by RegionsChapter 4:onsumption by RegionsChapter 5:Production, By Types, Revenue and Market share by TypesChapter 6:Consumption, By Applications, Market share (%) and Growth Rate by ApplicationsChapter 7:Market Overview, Drivers, Restraints and Opportunities, Segmentation overviewChapter 8:Market ForecastChapter 9:Market Competition by ManufacturersChapter 10:Marketing Strategy Analysis, Distributors/TradersChapter 11:Market Effect Factors AnalysisChapter 12:Manufacturing cost analysis, Raw materials analysis, Region-wise manufacturing expensesChapter 13:Anti-Ageing Drugs Research Findings and Conclusion, Appendix, methodology and data source.

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Impact Of Covid 19 On Anti-Ageing Drugs 2020 Industry Challenges Business Overview And Forecast Research Study 2026 - Zenit News

Skin Stem Cells Comments Off on Impact Of Covid 19 On Anti-Ageing Drugs 2020 Industry Challenges Business Overview And Forecast Research Study 2026 – Zenit News | November 1st, 2020

Basel, October 30, 2020 Novartis today announced the receipt of marketing authorization from Japans Ministry of Health, Labor and Welfare (MHLW) for Foundation for Biomedical Research and Innovation at Kobe ("FBRI") to manufacture and supply commercial Kymriah (tisagenlecleucel) for patients in Japan. This approval makes FBRI the first and only approved commercial manufacturing site for CAR-T cell therapy in Asia.

Behind our efforts to reimagine medicine with CAR-T cell therapy lies a commitment to build a manufacturing network that brings treatment closer to patients, commented Steffen Lang, Global Head of Novartis Technical Operations. The expertise and infrastructure of FBRI, a world-leading manufacturing organization, allows us to bring CAR-T manufacturing to Asia. With the Japan MHLW commercial manufacturing approval, the recent capacity expansion in the US and our ongoing efforts to optimize and evolve our processes, we are well-positioned to deliver this potentially curative treatment option to more patients around the world.

Novartis has the largest geographical CAR-T cell therapy manufacturing network in the world, including seven CAR-T manufacturing facilities, across four continents. Commercial manufacturing for Kymriah now takes place at five sites globally including at the Morris Plains, New Jersey facility, where the US Food and Drug Administration (FDA) recently approved a further increase in manufacturing capacity.

Kymriah is the first-ever FDA-approved CAR-T cell therapy, and the first-ever CAR-T to be approved in two distinct indications. It is a one-time treatment designed to empower patients immune systems to fight their cancer. Kymriah is currently approved for the treatment of r/r pediatric and young adult (up to 25 years of age) acute lymphoblastic leukemia (ALL), and r/r adult diffuse large B-cell lymphoma (DLBCL)1. Kymriah, approved in both indications by the Japan MHLW in 2019, is currently the only CAR-T cell therapy approved in Asia. Clinical manufacturing began at FBRI in 2019 and will continue alongside commercial manufacturing.

Kymriah was developed in collaboration with the Perelman School of Medicine at the University of Pennsylvania, a strategic alliance between industry and academia, which was first-of-its-kind in CAR-T research and development.

About Novartis Commitment to Oncology Cell & Gene Novartis has a mission to reimagine medicine by bringing curative cell & gene therapies to patients worldwide. Novartis has a deep CAR-T pipeline and ongoing investment in manufacturing and supply chain process improvements. With active research underway to broaden the impact of cell and gene therapy in oncology, Novartis is going deeper in hematological malignancies, reaching patients with other cancer types and evaluating next-generation CAR-T cell therapies that focus on new targets and utilize new technologies.

Novartis was the first pharmaceutical company to significantly invest in pioneering CAR-T research and initiate global CAR-T trials. Kymriah, the first approved CAR-T cell therapy, developed in collaboration with the Perelman School of Medicine at the University of Pennsylvania, is the foundation of Novartis commitment to CAR-T cell therapy. Kymriah is currently approved for use in at least one indication in 26 countries and at more than 260 certified treatment centers, with the ambition for further expansion to help fulfill the ultimate goal of bringing CAR-T cell therapy to every patient in need.

The Novartis global CAR-T manufacturing footprint spans seven facilities, across four continents. This comprehensive, integrated footprint strengthens the flexibility, resilience and sustainability of the Novartis manufacturing and supply chain. Commercial and clinical trial manufacturing is now ongoing at Novartis-owned facilities in Stein, Switzerland, Les Ulis, France and Morris Plains, New Jersey, USA, as well as at the contract manufacturing sites at Fraunhofer-Institut for cell therapy and immunology (Fraunhofer-Institut fr Zelltherapie und Immunologie) facility in Leipzig, Germany, and now FBRI in Kobe, Japan. Manufacturing production at Cell Therapies in Australia and Cellular Biomedicine Group in China is forthcoming.

ImportantSafety information from the Kymriah SmPC

EU Name of the medicinal product:

Kymriah 1.2 x 106 6 x 108 cells dispersion for infusion

Important note: Before prescribing, consult full prescribing information.

Presentation: Cell dispersion for infusion in 1 or more bags for intravenous use (tisagenlecleucel).

Indications: Treatment of pediatric and young adult patients up to and including 25 years of age with B-cell acute lymphoblastic leukemia (ALL) that is refractory, in relapse posttransplant or in second or later relapse. Treatment of adult patients with relapsed or refractory diffuse large B-cell lymphoma (DLBCL) after two or more lines of systemic therapy.

Dosage and administration:

B-cell patients: For patients 50 kg and below: 0.2 to 5.0 x 106 CAR-positive viable T-cells/kg body weight. For patients above 50 kg: 0.1 to 2.5 x 108 CAR-positive viable T-cells (non-weight based).

DLBCL Patients: 0.6 to 6.0108 CAR-positive viable T-cells (non-weight based).

Pretreatment conditioning (lymphodepleting chemotherapy): Lymphodepleting chemotherapy is recommended to be administered before Kymriah infusion unless the white blood cell (WBC) count within one week prior to infusion is 1,000 cells/L. The availability of Kymriah must be confirmed prior to starting the lymphodepleting regimen.

Precautions before handling or administering Kymriah: Kymriah contains genetically modified human blood cells. Healthcare professionals handling Kymriah should therefore take appropriate precautions (wearing gloves and glasses) to avoid potential transmission of infectious diseases.

Preparation for infusionThe timing of thaw of Kymriah and infusion should be coordinated. Once Kymriah has been thawed and is at room temperature (20C 25C), it should be infused within 30minutes to maintain maximum product viability, including any interruption during the infusion.

Administration Kymriah should be administered as an intravenous infusion through latexfree intravenous tubing without a leukocyte depleting filter, at approximately 10 to 20mL per minute by gravity flow. If the volume of Kymriah to be administered is 20mL, intravenous push may be used as an alternative method of administration.

All contents of the infusion bag(s) should be infused.

Clinical assessment prior to infusion: Kymriah treatment should be delayed in some patient groups at risk (see Special warnings and precautions for use).

Monitoring after infusion: Patients should be monitored daily for the first 10 days following infusion for signs and symptoms of potential cytokine release syndrome, neurological events and other toxicities. Physicians should consider hospitalisation for the first 10 days post infusion or at the first signs/symptoms of CRS and/or neurological events. After the first 10 days following the infusion, the patient should be monitored at the physicians discretion. Patients should be instructed to remain within proximity of a qualified clinical facility for at least 4 weeks following infusion.

Elderly (above 65 years of age): Safety and efficacy have not been established in B-cell patients. No dose adjustment is required in patients over 65 years of age in DLBCL patients.

Paediatric patients: No formal studies have been performed in paediatric patients with B-cell ALL below 3 years of age. The safety and efficacy of Kymriah in children and adolescents below 18 years of age have not yet been established in DLBCL. No data are available.

Patients seropositive for hepatitis B virus (HBV), hepatitis C virus (HCV), or human immunodeficiency virus (HIV): There is no experience with manufacturing Kymriah for patients with a positive test for HIV, active HBV, or active HCV infection. Leukapheresis material from these patients will not be accepted for Kymriah manufacturing.

Contraindications: Hypersensitivity to the active substance or to any of the excipients of Kymriah. Contraindications of the lymphodepleting chemotherapy must be considered.

Warnings and precautions: Reasons to delay treatment: Due to the risks associated with Kymriah treatment, infusion should be delayed if a patient has any of the following conditions: Unresolved serious adverse reactions (especially pulmonary reactions, cardiac reactions or hypotension) from preceding chemotherapies, active uncontrolled infection, active graft versus host disease (GVHD), significant clinical worsening of leukaemia burden or rapid progression of lymphoma following lymphodepleting chemotherapy. Blood, organ, tissue and cell donation: Patients treated with Kymriah should not donate blood, organs, tissues or cells.

Active central nervous system (CNS) leukaemia or lymphoma: There is limited experience of use of Kymriah in patients with active CNS leukaemia and active CNS lymphoma. Therefore the risk/benefit of Kymriah has not been established in these populations. Risk of CRS: Occurred in almost all cases within 1 to 10 days post infusion with a median time to onset of 3 days and a median time to resolution of8 days. See full prescribing information for management algorithm of CRS. Risk of neurological events: Majority of events, in particular encephalopathy, confusional state or delirium, occurred within 8 weeks post infusion and were transient. The median time to onset of neurological events was 8 days in B-cell ALL and 6 days in DLBCL; the median time to resolution was 7 days for B-cell ALL and 13 days for DLBCL. Patients should be monitored for neurological events. Risk of infections: Delay start of therapy with Kymriah until active uncontrolled infections have resolved. As appropriate, administer prophylactic antibiotics and employ surveillance testing prior to and during treatment with Kymriah. Serious infections were observed in patients, some of which were life threatening or fatal. After Kymriah administration observe patient and ensure prompt management in case of signs of infection Risk of febrile neutropenia: Frequently observed after Kymriah infusion, may be concurrent with CRS. Appropriate management necessary. Risk of prolonged cytopenias: Appropriate management necessary. Prolonged cytopenia has been associated with increased risk of infections. Myeloid growth factors, particularly granulocyte macrophage colony stimulating factor (GM CSF), not recommended during the first 3 weeks after Kymriah infusion or until CRS has been resolved. Risk of secondary malignancies: Patients treated with Kymriah may develop secondary malignancies or recurrence of their cancer and should be monitored lifelong for secondary malignancies. Risk of hypogammaglobulinemia or agammaglobulinemia: Infection precautions, antibiotic prophylaxis and immunoglobulin replacement should be managed per age and standard guidelines. In patients with low immunoglobulin levels preemptive measures such as immunoglobulin replacement and rapid attention to signs and symptoms of infection should be implemented. Live vaccines: The safety of immunisation with live viral vaccines during or following Kymriah treatment was not studied. Vaccination with live virus vaccines is not recommended at least 6 weeks prior to the start of lymphodepleting chemotherapy, during Kymriah treatment, and until immune recovery following treatment with Kymriah. Risk of tumor lysis syndrome (TLS): Patients with elevated uric acid or high tumor burden should receive allopurinol or alternative prophylaxis prior to Kymriah infusion. Continued monitoring for TLS following Kymriah administration should also be performed. Concomitant disease: Patients with a history of active CNS disorder or inadequate renal, hepatic, pulmonary or cardiac function are likely to be more vulnerable to the consequences of the adverse reactions of Kymriah and require special attention. Prior stem cell transplantation: Kymriah infusion is not recommended within 4 months of undergoing an allogeneic stem cell transplant (SCT) because of potential risk of worsening GVHD. Leukapheresis for Kymriah manufacturing should be performed at least 12weeks after allogeneic SCT. Serological testing: There is currently no experience with manufacturing Kymriah for patients testing positive for HBV, HCV and HIV. Screening for HBV, HCV and HIV, must be performed before collection of cells for manufacturing. Hepatitis B virus (HBV) reactivation, can occur in patients treated with medicinal products directed against B cells and could result in fulminant hepatitis, hepatic failure and death. Prior treatment with anti CD19 therapy: There is limited experience with Kymriah in patients exposed to prior CD19 directed therapy. Kymriah is not recommended if the patient has relapsed with CD19 negative leukaemia after prior anti-CD19 therapy. Interference with serological testing: Due to limited and short spans of identical genetic information between the lentiviral vector used to create Kymriah and HIV, some commercial HIV nucleic acid tests (NAT) may give a false positive result. Sodium and potassium content: This medicinal product contains 24.3 to 121.5mg sodium per dose, equivalent to 1 to 6% of the WHO recommended maximum daily intake of 2g sodium for an adult. This medicinal product contains potassium, less than 1mmol (39mg) per dose, i.e. essentially potassium free. Content of dextran 40 and dimethyl sulfoxide (DMSO): Contains 11 mg dextran 40 and 82.5 mg dimethyl sulfoxide (DMSO) per mL. Each of these excipients are known to possibly cause anaphylactic reaction following parenteral administration. Patients not previously exposed to dextran and DMSO should be observed closely during the first minutes of the infusion period.

Interaction with other medicinal products and other forms of interaction

Live vaccines: The safety of immunisation with live viral vaccines during or following Kymriah treatment has not been studied. Vaccination with live virus vaccines is not recommended for at least 6 weeks prior to the start of lymphodepleting chemotherapy, during Kymriah treatment, and until immune recovery following treatment with Kymriah.

Fertility, pregnancy and lactation

Women of childbearing potential/Contraception in males and females: Pregnancy status for females of reproductive potential should be verified prior to starting treatment with Kymriah. Consider the need for effective contraception in patients who receive the lymphodepleting chemotherapy. There are insufficient exposure data to provide a recommendation concerning duration of contraception following treatment with Kymriah.

Pregnancy: There are no data from the use of Kymriah in pregnant women. It is not known whether Kymriah has the potential to be transferred to the foetus via the placenta and could cause foetal toxicity, including B cell lymphocytopenia. Kymriah is not recommended during pregnancy and in women of childbearing potential not using contraception. Pregnant women should be advised on the potential risks to the foetus. Pregnancy after Kymriah therapy should be discussed with the treating physician. Pregnant women who have received Kymriah may have hypogammaglobulinaemia. Assessment of immunoglobulin levels is indicated in newborns of mothers treated with Kymriah.

Breast feeding: It is unknown whether Kymriah cells are excreted in human milk, a risk to the breast fed infant cannot be excluded. Women who are breast feeding should be advised of the potential risk to the breast fed infant. Breast-feeding should be discussed with the treating physician.

Fertility: There are no data on the effect of Kymriah on fertility.

Effects on ability to drive and use machinesDriving and engaging in hazardous activities in the 8 weeks following infusion should be refrained due to risks for altered or decreased consciousness or coordination.

Adverse drug reactions:

B-Cell ALL patients and DLBCL patients:

Very common (10%): Infections - pathogen unspecified, viral infections, bacterial infections, fungal infections, anaemia, haemorrhage, febrile neutropenia, neutropenia, thrombocytopenia, cytokine release syndrome, hypogammaglobulinaemia, decreased appetite, hypokalaemia, hypophosphataemia, hypomagnesaemia, hypocalcaemia, anxiety, delirium, sleep disorder, headache, encephalopathy, arrhythmia, hypotension, hypertension, cough, dyspnoea, hypoxia, diarrhoea, nausea, vomiting, constipation, abdominal pain, rash, arthralgia, acute kidney injury, pyrexia, fatigue, oedema, pain, chills, lymphocyte count decreased, white blood cell count decreased, haemoglobin decreased, neutrophil count decreased, platelet count decreased, aspartate aminotransferase increased.

Common (1 to 10%): Haemophagocytic lymphohistiocytosis, leukopenia, pancytopenia, coagulopathy, lymphopenia, infusion-related reactions, graft versus host disease, hypoalbuminaemia, hyperglycaemia, hyponatraemia, hyperuricaemia, fluid overload, hypercalcemia, tumor lysis syndrome, hyperkalaemia, hyperphosphataemia, hypernatraemia, hypermagnesaemia, dizziness, peripheral neuropathy, tremor, motor dysfunction, seizure, speech disorder, neuralgia, ataxia, visual impairment, cardiac failure, cardiac arrest, thrombosis, capillary leak syndrome, oropharyngeal pain, pulmonary oedema, nasal congestion, pleural effusion, tachypnea, acute respiratory distress syndrome, stomatitis, abdominal distension, dry mouth, ascites, hyperbilirubinaemia, pruritus, erythema, hyperhidrosis, night sweats, back pain, myalgia, muscolosceletal pain, influenza-like illness, asthenia, multiple organ dysfunction syndrome, alanine aminotransferase increased, blood bilirubin increased, weight decreased, serum ferritin increased, blood fibrinogen decreased, international normalized ratio increased, fibrin D dimer increased, activated partial thromboplastin time prolonged, blood alkaline phosphate increased, prothrombin time prolonged.

Uncommon: B-cell aplasia, ischaemic cerebral infarction, flushing, lung infiltration.

Packs and prices: Country-specific.

Legal classification: Country-specific.

DisclaimerThis press release contains forward-looking statements within the meaning of the United States Private Securities Litigation Reform Act of 1995. Forward-looking statements can generally be identified by words such as potential, can, will, plan, may, could, would, expect, anticipate, seek, look forward, believe, committed, investigational, pipeline, launch, or similar terms, or by express or implied discussions regarding potential marketing approvals, new indications or labeling for the investigational or approved products described in this press release, or regarding potential future revenues from such products. You should not place undue reliance on these statements. Such forward-looking statements are based on our current beliefs and expectations regarding future events, and are subject to significant known and unknown risks and uncertainties. Should one or more of these risks or uncertainties materialize, or should underlying assumptions prove incorrect, actual results may vary materially from those set forth in the forward-looking statements. There can be no guarantee that the investigational or approved products described in this press release will be submitted or approved for sale or for any additional indications or labeling in any market, or at any particular time. Nor can there be any guarantee that such products will be commercially successful in the future. In particular, our expectations regarding such products could be affected by, among other things, the uncertainties inherent in research and development, including clinical trial results and additional analysis of existing clinical data; regulatory actions or delays or government regulation generally; global trends toward health care cost containment, including government, payor and general public pricing and reimbursement pressures and requirements for increased pricing transparency; our ability to obtain or maintain proprietary intellectual property protection; the particular prescribing preferences of physicians and patients; general political, economic and business conditions, including the effects of and efforts to mitigate pandemic diseases such as COVID-19; safety, quality, data integrity or manufacturing issues; potential or actual data security and data privacy breaches, or disruptions of our information technology systems, and other risks and factors referred to in Novartis AGs current Form 20-F on file with the US Securities and Exchange Commission. Novartis is providing the information in this press release as of this date and does not undertake any obligation to update any forward-looking statements contained in this press release as a result of new information, future events or otherwise.

About NovartisNovartis is reimagining medicine to improve and extend peoples lives. As a leading global medicines company, we use innovative science and digital technologies to create transformative treatments in areas of great medical need. In our quest to find new medicines, we consistently rank among the worlds top companies investing in research and development. Novartis products reach nearly 800 million people globally and we are finding innovative ways to expand access to our latest treatments. About 110,000 people of more than 140 nationalities work at Novartis around the world. Find out more at https://www.novartis.com.

Novartis is on Twitter. Sign up to follow @Novartis at https://twitter.com/novartisnewsFor Novartis multimedia content, please visithttps://www.novartis.com/news/media-libraryFor questions about the site or required registration, please contact media.relations@novartis.com

References

1.Kymriah (tisagenlecleucel) Summary of Product Characteristics (SmPC), 2018.

# # #

Novartis Media RelationsE-mail: media.relations@novartis.com

Novartis Investor RelationsCentral investor relations line: +41 61 324 7944E-mail: investor.relations@novartis.com

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Novartis expands Kymriah manufacturing footprint with first-ever approved site for commercial CAR-T cell therapy manufacturing in Asia - GlobeNewswire

Cardiac Stem Cells Comments Off on Novartis expands Kymriah manufacturing footprint with first-ever approved site for commercial CAR-T cell therapy manufacturing in Asia – GlobeNewswire | October 31st, 2020

Is the United States a step closer to approving a form of stem cell transplantation as a treatment for multiple sclerosis? I believe it may be.

Thats because the National Multiple Sclerosis Society (NMSS) has slightly changed its view of autologous hematopoietic stem cell transplantation, or aHSCT.

aHSCT involves removing a patients own stem cells from the blood or bone marrow, using chemotherapy to kill off most of the immune system, and then injecting the stem cells back into the patient. Those stem cells regenerate the immune system, hopefully without any of the rogue immune cells that attack the nervous system and create MS symptoms.

In the past, the National MS Society has failed to make recommendations about how any form of stem cell treatment should be used, at least as far as my research can determine. Now, in an article in JAMA Neurology, a group of neurologists, including members of the NMSS National Medical Advisory Committee, are outlining parts of a stem cell protocol.

The NMSS is now being specific about who might be a candidate for aHSCT:

The National Multiple Sclerosis Society believes that AHSCT may be a useful treatment option for people with relapsing multiple sclerosis who demonstrate substantial breakthrough disease activity (ie, new inflammatory central nervous system lesions and/or clinical relapses) despite treatment with high-efficacy disease-modifying therapy or have contraindications to high-efficacy disease-modifying therapies.

That language seems more aggressive than what the NMSSwrote about an Italian study published earlier this year. In that commentary, the society suggested the procedure might be appropriate for people with secondary progressive MS, and it suggested further study with a larger group:

These results suggest that HSCT might be appropriate in a subgroup of people with SPMS that have significant inflammatory activity as measured by MRI. Further study in larger numbers are needed to understand who among those with secondary progressive MS might benefit from HSCT.

The new guidelines clearly outline which people with relapsing-remitting MS might benefit. They are younger than 50 and have lived with an MS diagnosis for less than 10 years.

The authors recommend that stem cell transplantation be performed in medical centers with substantial experience and expertise. A follow-up regime is proposed, along with the creation of a single database to track people who undergo the procedure. But the article cautions that more research is needed to establish best practices for handling the stem cells and other technical processes.

Some hospitals and clinics in Russia, Mexico, and other locations offer aHSCT to MS patients at a cost of about $50,000. aHSCT also is provided to some MS patients through the U.Ks National Health Service. A list of aHSCT facilities worldwide is available at http://www.hsctstopsms.com.

The authors of the JAMA Neurology article suggest a clinical trial may be the place for someone who wants their MS treated with a stem cell transplant right now. A well-known trial by Dr. Richard Burt shut down about a year ago. However, a trial called BEAT-MS has been enrolling patients at several locations in the U.S. You can find information about other studies at clinicaltrials.gov.

The authors note that joining a trial would assure the patient of quality care with an acceptable protocol and provide the personal satisfaction of knowing they are contributing to answering a very important question for people with MS.

That sounds like a pretty good suggestion to me since the U.S. likely has a long way to go before aHSCT for MS becomes common here, even with the NMSS backing. But its encouraging that finally it is gaining some traction.

Youre invited to follow my personal blog at http://www.themswire.com.

***

Note: Multiple Sclerosis News Today is strictly a news and information website about the disease. It does not provide medical advice, diagnosis, or treatment. This content is not intended to be a substitute for professional medical advice, diagnosis, or treatment. Always seek the advice of your physician or other qualified health provider with any questions you may have regarding a medical condition. Never disregard professional medical advice or delay in seeking it because of something you have read on this website. The opinions expressed in this column are not those of Multiple Sclerosis News Today or its parent company, BioNews, and are intended to spark discussion about issues pertaining to multiple sclerosis.

Diagnosed with MS at age 32 in 1980, Ed has written the MS Wire column for Multiple Sclerosis News Today since August 2016. He presents timely information on MS, blended with personal experiences. Before retiring from full-time work in 2012, Tobias spent more than four decades in broadcast and on-line newsrooms as a manager, reporter, and radio news anchor. Hes won several national broadcast awards. As an MS patient communicator, Ed consults with healthcare and social media companies. Hes the author of Were Not Drunk, We Have MS: A tool kit for people living with multiple sclerosis. Ed and his wife split time between the Washington, D.C. suburbs and Floridas Gulf Coast.

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aHSCT Gets a Boost in US With NMSS Recommendations - Multiple Sclerosis News Today

Bone Marrow Stem Cells Comments Off on aHSCT Gets a Boost in US With NMSS Recommendations – Multiple Sclerosis News Today | October 31st, 2020

DetailsCategory: Small MoleculesPublished on Friday, 30 October 2020 17:39Hits: 249

- Enrollment to cease immediately; topline data anticipated in H1 2021-

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

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

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

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

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

About BioLineRx

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

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

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

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

SOURCE: BioLineRx

Link:
BioLineRx Announces Positive Results from Interim Analysis of GENESIS Phase 3 Trial of Motixafortide (BL-8040) in Stem Cell Mobilization | Small...

Bone Marrow Stem Cells Comments Off on BioLineRx Announces Positive Results from Interim Analysis of GENESIS Phase 3 Trial of Motixafortide (BL-8040) in Stem Cell Mobilization | Small… | October 31st, 2020

The latest Stem Cell Banking market research report offers a top to bottom analysis of this business sphere in terms of potential industry size, supply chain, growth dynamics, opportunity analysis, and competitive landscape. Furthermore, it extends through abstracts on various industry segments, inclusive of a rundown of the business scenario across the various regional markets. Additionally, the study provide insights into to the impact of Covid-19 pandemic and recommends strategies that could maximize ROI amid these uncertain times.

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Stem Cell Banking Market to witness an impressive growth during the forecast pe - News by aeresearch

Bone Marrow Stem Cells Comments Off on Stem Cell Banking Market to witness an impressive growth during the forecast pe – News by aeresearch | October 31st, 2020

Liposuction is a surgical procedure to remove extra fat from your body. It started in the 1980s and has become one of the most popular plastic surgeries in the US. An estimated 258,000 Americans got it in 2018.

Today, you can expect to pay around $3,500 for liposuction and most health insurance plans won't cover the cost. But if you're willing to pay the price, liposuction is a relatively safe and quick procedure that can help you shed fat that diet and exercise can't.

Some of the most common places to have fat removed are the belly, thighs, buttocks, arms, back, the upper neck just under the chin, and jawline/jowls.

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Then, surgeons will often inject into the area of operation a solution containing a mix of saline solution, a numbing medicine, and medicine the decreases bleeding. This is to help the skin and fat separate from important structures like muscles and blood vessels so they aren't damaged during the suctioning process.

After liposuction, your surgeon will likely recommend you wear a temporary band or brace over the area of operation to help the skin heal. The band or brace also helps prevent fluid from building up in the area of operation where the fat was removed, between the skin and deeper structures like muscles and blood vessels.

Whether you are awake or asleep during liposuction, you shouldn't feel any pain during the procedure, says Marco A. Pelosi II, MD, a cosmetic surgeon with experience performing liposuction procedures. The recovery, also, should be a relatively mild process.

Ongoing pain near the area where the cannula was inserted is a risk of liposuction, and if the pain grows or pain killers don't help, you should tell your surgeon.

According to the Cleveland Clinic, you should not use liposuction as a weight loss alternative. It recommends that if you want to lose weight, you should first try diet and exercise, then use liposuction to take care of more stubborn areas like the chin or belly fat.

There are some important safety tips to look for when choosing a liposuction provider.

Pelosi says that doctors should also do blood work testing and medical clearances before a liposuction procedure to ensure your safety. These tests are to make sure you can safely undergo general anesthesia without complication. If, for example, you have an infection or are pregnant, you may not qualify for the surgery.

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What is liposuction? How the procedure works and how painful it is - Business Insider India

Skin Stem Cells Comments Off on What is liposuction? How the procedure works and how painful it is – Business Insider India | October 31st, 2020

The Global Hematopoietic Stem Cell Transplantation (HSCT) Market report offers key insights into the worldwide Hematopoietic Stem Cell Transplantation (HSCT) market. It presents a holistic overview of the market, with an in-depth summary of the markets leading players. The report is inclusive of indispensable information related to the leading competitors in this business sector and carefully analyzes the micro- and macro-economic market trends. The latest report specializes in studying primary and secondary market drivers, market share, the leading market segments, and comprehensive geographical analysis. Vital information about the key market players and their key business strategies, such as mergers & acquisitions, collaborations, technological innovation, and trending business policies, is one of the key components of the report.

Get a sample of the report @ https://www.reportsanddata.com/sample-enquiry-form/3627

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

China Cord Blood Corp, Pluristem Therapeutics Inc., CBR Systems Inc CellGenix Technologie Transfer GmbH, Cryo-Save AG Kite Pharma Inc., Regen Biopharma Inc., ViaCord Inc., BiolineRx, Cynata Therapeutics, Cesca Therapeutics Inc, Lonza Group Ltd, TiGenix N.V., Bluebird Bio, Cellular Dynamics International, and Escape Therapeutics Inc., among others.

Furthermore, our market analysts have drawn focus to the significant impact of the COVID-19 pandemic on the global Hematopoietic Stem Cell Transplantation (HSCT) market and its key segments and sub-segments. The grave aftereffects of the pandemic on the global economy, and subsequently, on this particular business sphere, have been enumerated in this section of the report. The report considers the key market-influencing parameters, delivering a detailed future impact assessment. The Hematopoietic Stem Cell Transplantation (HSCT) market has been devastated by the pandemic, which has culminated in drastic changes to the market dynamics and demand trends.

In market segmentation by types of Hematopoietic Stem Cell Transplantation (HSCT), the report covers-

In market segmentation by applications of the Hematopoietic Stem Cell Transplantation (HSCT), the report covers the following uses-

Request a discount on the report @ https://www.reportsanddata.com/discount-enquiry-form/3627

Moreover, the research report thoroughly examines the size, share, and market volume of the Hematopoietic Stem Cell Transplantation (HSCT) industry in the historical years to forecast the same valuations over the forecast duration. It offers exhaustive SWOT analysis, Porters Five Forces analysis, feasibility analysis, and investment return analysis of the Hematopoietic Stem Cell Transplantation (HSCT) market, assessed using certain effective analytical tools. The report also provides strategic recommendations to market entrants to help them navigate around the entry-level barriers.

The global Hematopoietic Stem Cell Transplantation (HSCT) market is geographically categorized into:

The following timeline is considered for market estimation:

Historical Years: 2017-2018

Base Year: 2019

Estimated Year: 2020

Forecast Years: 2020-2027

Key Coverage of the Report:

To read more about the report, visit@ https://www.reportsanddata.com/report-detail/hematopoietic-stem-cell-transplantation-hsct-market

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How Hematopoietic Stem Cell Transplantation (HSCT) Market Will Dominate In Coming Years? Report Covering Products, Financial Information,...

Bone Marrow Stem Cells Comments Off on How Hematopoietic Stem Cell Transplantation (HSCT) Market Will Dominate In Coming Years? Report Covering Products, Financial Information,… | October 30th, 2020

Blood cancer is a disorder that affects the production as well as the normal functioning of blood cells. The process of normal blood cell development is disturbed because of the uncontrolled growth of abnormal blood cells. These abnormal or cancerous cells disrupt the normal functions of blood components such as preventing bleeding and defending infections.

Blood Cancer (Haematopoietic malignancies) is one of the top 10 cancers in India and as per the latest Cancer Report of ICMR, it is estimated that by 2025 nearly 1.38 lakh people would be affected. Currently, around 1.25 lakh people are suffering from the disease which constitutes 9% of total cancers in the country.

While speaking about blood cancer, Dr Divya Bansal, Consultant - Clinical Hematology and Stem Cell Transplant, HCMCT Manipal Hospitals, New Delhi, said, "Blood is a liquid medium present throughout the body and not confined to a defined area, which makes blood cancers and their treatment very different from solid-organ cancers. There is a limited role of surgery and radiation therapy in the treatment of blood cancers, as they are thermosensitive."

She continued, "Chemotherapy treatment for blood cancers is much more intense in comparison to solid cancers and hence, their side effects. Also, the staging of blood cancers is very different from solid cancers and concept of metastasis is not applicable for blood cancers."

"In the case of blood cancers, prognostic risk stratification is important. Bone marrow transplant has a limited role in solid cancers but remains the curative treatment for blood cancers. This difference has actually led to the development of a completely different speciality for treatment of blood cancers i.e. Haemato-oncology, all over the world," Dr Divya Bansal added.

Meanwhile, in order for us to understand the types of blood cancers, its symptoms and treatment, Dr Divya Bansal carefully explained each one and helped us list them out.

Take a look.

Types of blood cancers

Leukaemia

This is caused by the fast production of abnormal white blood cells, and these abnormal are seen in blood and the bone marrow. A large number of abnormal WBCs are unable to defend infections.

Lymphoma

This is a type of blood cancer that involves the lymphatic system. Abnormal lymphocytes turn into lymphoma cells that multiply and get accumulated in the lymph nodes. Gradually, these cancer cells impair the immune system.

Myeloma

This affects the plasma cells, the cells that produce antibodies against disease in the body. Myeloma cells disturb the normal development of antibodies and make the body susceptible to infection.

Symptoms

- Fever- Weight loss- Loss of appetite- Bony pains- Bleeding from any sites- Generalised weakness and fatigue- Night sweats- Nodular swelling around the neck, axilla or groin- Abdominal swelling

Diagnosis

One can get the disease diagnosed with the help of a blood test, bone marrow aspiration, and biopsy. In cases of lymphoma, one must opt for a lymph node biopsy. Other options include PET-CT, specialized tests such as Flowcytometry or Immunohistochemistry, Fluorescent in situ hybridization (FISH), Karyotyping and Next-generation sequencing (NGS) which is the latest technique of diagnosing and risk stratification of blood cancers.

Treatment

Chemotherapy

An oral or injectable drug that travels in the bloodstream throughout the body and kills the cancer cells. It damages cancer cells and stops division and growth of it, leading to their death.

Immunotherapy

It refers to agents that use the bodys immune system to help fight diseases such as blood cancer. It can work directly with your bodys immune system to stop or slow the growth of cancer cells. Biologic therapies include substances made by the body or in a lab. Cytokines, Gene therapy, and Immunomodulators, and Monoclonal antibodies are the main types of immunotherapy.

Targeted therapy

Therapies that target a certain genetic mutation known to occur in a specific blood cancer is called targeted therapy. Here, we target a protein that is present in cancer cells due to mutation. As soon as a mutation is identified, we can develop a treatment to target that target. Destroying cancer cells is the main aim of this therapy.

Bone Marrow Transplantation (BMT)

It is a procedure where a damaged or non-functional bone marrow cells are replaced by healthy multipotent hematopoietic stem cells.

Overall, BMT remains the only curative treatment for most of the blood cancers. There are two types of bone marrow transplant procedure used in the treatment of blood cancers -- Autologous BMT, when patient's own stem cells are infused back after high dose chemotherapy, and, Allogenic BMT, when the source of stem cells is a healthy donor, either related or unrelated.

A few blood cancers if treated promptly and effectively can be managed well and even cured.

Examples of blood cancers which can be cured include Acute Promyelocytic leukaemia, Chronic myeloid leukaemia, Hairy cell leukaemia, and Paediatric Acute lymphoblastic leukaemia.

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Know all about types of blood cancer, its symptoms, diagnosis and treatment - DNA India

Bone Marrow Stem Cells Comments Off on Know all about types of blood cancer, its symptoms, diagnosis and treatment – DNA India | October 30th, 2020

TipRanks

America goes to the polls on Tuesday (well, actually, America has been early voting for a few weeks, now), and while Democrat Joe Biden has a solid lead in the polls, there is some of evidence that President Trump may still win a second term. Finally, with all of the early voting, mass absentee ballots, and possible extended counting deadlines, we might not know on Tuesday night who the winner is.Its a situation made of uncertainty, and financial markets dont like that. Which brings us to dividend stocks. Investors want a pad, something to protect their portfolio in case of a market drop, and dividends offer just that. These profit-sharing payments to stockholders provide a steady income stream, that typically stays reliable even in a modest downturn. Wall Streets analysts have been doing some of the footwork for us, pinpointing dividend-paying stocks that have kept up high yields, at least 8% to be exact. Opening up theTipRanks database, we examine the details behind those payments to find out what else makes these stocks compelling buys.Altria Group, Inc. (MO)Well start with Altria Group, the tobacco company best known for its iconic Marlboro cigarettes. Altria, like many of the so-called sin stocks, is one of the markets dividend champions, with a long history of reliable, high-yielding payments. The company has benefited from a psychological quirk of human nature during such a wild year as 2020: People will hunker down if necessary, but they wont give up their small pleasures.Cigarettes are exactly that, and even though overall smoking rates have been declining in recent years, Altria saw stable financial results in the last few quarters. The first and second quarters both showed $1.09 in earnings, well above the 97 cents expected in Q1 and modest beat against Q2s $1.06 forecast. Revenues hit $5.06 billion in Q2, in-line with the two previous quarters.Looking ahead, analysts expect Altria to post $1.15 per share in earnings on $5.5 billion in revenues when it reports Q3 results. That report is due out tomorrow morning. Meeting those results will help Altria maintain its dividend although the company has a long-standing, very public, commitment to do just that. Altria has kept its dividend reliable for the past 12 years, and for the last payment, made it September, the company even slightly raised the payout by 2.4%. The current dividend is 86 cents per common share, or $3.44 annualized, and yields an impressive 8.8%.Looking at Altria in the lead-up to the Q3 report, Deutsche Bank analyst Stephen Powers writes, [We] are positively biased on company fundamentals as we approach MO's results next weekreinforced by healthy scanned channel demand intraquarter across MO's core tobacco businesses, with particular strength in cigarettes driven by the Marlboro brand we believe continued operational execution in its core business will enable MO to more credibly position itself as a stable core tobacco investmentPowers rates the stock as a Buy, and his $51 price target implies a 37% upside for the coming year. (To watch Powers track record, click here)Overall, Altria has a Moderate Buy rating from the analyst consensus, based on 3 Buys and 2 Holds set in recent weeks. The stocks current share price is $37.04, and the average price target of $46 suggests a 24% one-year upside. (See MO stock analysis on TipRanks)American Finance Trust (AFIN)Next on our list is a Real Estate Investment Trust, a REIT. These companies are known for their high dividends, a fact resulting from a quirk of tax regulation. REITs are required to return a certain percentage of profits directly to shareholders, and dividends are one of the surest means of compliance. AFIN, which focuses its portfolio on single- and multi-tenant service-retail properties, is typical for its niche.And its niche has been solid. AFIN boasts major companies like Home Depot, Lowes, and Dollar General among its top ten tenants, and announced earlier this month that it has collected over 91% of its third quarter rents. Looking ahead to Q3 results next week, EPS is expected at 23 cents, a 15% increase from Q2. The company offers a monthly dividend, at a rate of 7.1 cents per common share, instead of the more common quarterly payments. The monthly format allows some flexibility in managing adjustments to the payout rate; in April, AFIN reduced the dividend from 9 cents to 7.1 as part of efforts to manage the corona crisis effects on business. The current payment annualizes to 85.2 cents per share, and yields a robust 14.7%. This is more than 7x higher than the average dividend yield found among S&P 500 companies.B. Riley analyst Bryan Maher notes the difficulties that AFIN has faced, as a property owner and manager during an economic downturn, but is confident in the companys ability to meet the challenges.Like most REIT's, AFIN has been impacted by the COVID-19 pandemic, which is not surprising given its portfolio has a large number of service retail assets. However, 71% of the portfolio is necessity-focused retail, with the balance being distribution and office properties. As such, AFIN collected 84% of cash rents due in 2Q20, including 96% of the cash rent due from its top 20 tenants. Cash rent collection for July improved to 88%. AFIN has been proactive in working with certain tenants to negotiate rent deferrals/credits Maher noted. To this end, Maher rates AFIN stock a Buy, and gives it a $10 price target. At current trading levels, this implies a strong one-year upside potential of 76%. (To watch Mahers track record, click here)AFIN is priced at $5.69, and its average target matches Mahers, at $10. The stock has a Moderate Buy from the analyst consensus, based on an even split between Buy and Hold reviews. (See AFIN stock analysis on TipRanks)Golub Capital BDC (GBDC)Last but not least is Golub Capital, a business development company and asset manager. Golub works with middle market companies, providing solutions for financing and lending. The company boasts a market cap of $2.2 billion, as well as over $30 billion in capital under management.In the months since the corona virus crisis hit the economy, Golub has seen a depressed share price and high volatility in its earnings. The stock is down 28% year-to-date. Earnings, which collapsed in 4Q19, have been bouncing in 2020. The first quarter showed 33 cent per share, while the Q2 figure came in at 28 cents. Looking ahead, the forecast expects a repeat of the second quarter EPS figure, 28 cents. Revenues have been just as volatile; the first quarter saw a deep net loss, but Q2 saw the top line bounce back to $145 million. This was the highest quarterly revenue figure in the past year.Golub believes in keeping up the dividend for investors, offering not only a reliable regular payment but also periodic special dividends. The company adjusted the payment earlier this year, both to keep it affordable during the coronavirus crisis and to keep the yield from getting too high. The result was a 12% cut, making the current payment 29 cents per common share quarterly. This still gives a high yield of 9.16%, which compares well to the 2.5% average found among finance sector peers.Finian OShea, from Well Fargo, notes that Golub has recently announced a $2 billion unsecured debt issue, a move that gives the company plenty of liquidity in a difficult time. He writes, GBDC isnt paying a hefty premium for unsecureds to begin with... We think the improved flexibility and longer tenor of unsecureds make them an attractive addition to the right side of the balance sheet, and see it as a vote of confidence in GBDCs underlying portfolio.OShea reiterates his Overweight (i.e. Buy) rating on this stock. His price target, at $13.50, indicates room for a modest 6% upside. (To watch OSheas track record, click here)Like AFIN above, Golub Capital has a Moderate Buy consensus rating, with 1 each Buy and Hold reviews. The stocks average price target matches OSheas, at $13.50. (See Golubs stock analysis at TipRanks)To find good ideas for dividend stocks trading at attractive valuations, visit TipRanks Best Stocks to Buy, a newly launched tool that unites all of TipRanks equity insights.Disclaimer: The opinions expressed in this article are solely those of the featured analysts. The content is intended to be used for informational purposes only. It is very important to do your own analysis before making any investment.

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Cellect Biotechnology Commences Collaboration with XNK Therapeutics to Advance Novel NK Cell-Based Therapies; Adds Another Partner for its Functional...

Bone Marrow Stem Cells Comments Off on Cellect Biotechnology Commences Collaboration with XNK Therapeutics to Advance Novel NK Cell-Based Therapies; Adds Another Partner for its Functional… | October 30th, 2020

GAITHERSBURG, Md., Oct. 27, 2020 (GLOBE NEWSWIRE) -- NexImmune, a clinical-stage biotechnology company developing unique non-genetically-engineered T cell immunotherapies, announced today that it has signed a research initiative related to its AIM nanoparticle technology with City of Hope, a world-renowned independent research and treatment center for cancer, diabetes and other life-threatening diseases.

City of Hope is a participating clinical site in the ongoing Phase 1/2 study of NEXI-001. The cancer center will leverage both patient samples from the ongoing NexImmune Phase 1/2 clinical study of NEXI-001 in acute myeloid leukemia (AML) patients with relapsed disease after allogeneic stem cell transplantation and the center’s tumor repository bank of primary leukemia samples, one of the largest collections in the world, to drive the research.

NEXI-001 is a cellular product candidate that contains populations of naturally occurring CD8+ T cells directed against multiple antigen targets for AML, and it is the first clinical product generated by the Company’s AIM nanoparticle technology.

NexImmune has developed a unique and versatile technology platform that lends itself very effectively to important areas of ongoing research in the field of AML,” said Guido Marcucci, M.D., Chair and Professor with City of Hope’s Department of Hematologic Malignancies Translational Science. Our collective goal is to translate future research findings into new, more effective T cell immunotherapies to the benefit of these very difficult to treat patients.”

A key objective of the research will focus on the identification of new antigen targets that are expressed on both leukemic blasts as well as leukemic stem cells, and those which represent survival proteins to both. Once identified, these antigen targets will be loaded on NexImmune AIM-nanoparticles to expand antigen-specific CD8+ T cells, and evaluated in pre-clinical models for anti-tumor potency, tumor-specific killing, and response durability.

In addition, the research initiative will aim to further understand different mechanisms of tumor escape, such as tumor antigen and human leukocyte antigen (HLA) downregulation due to immune pressure.

Research between NexImmune and City of Hope will inform a scientific understanding of how the immune system can address certain tumor escape mechanisms to more effectively fight aggressive cancers like AML, and how this might be accomplished with NexImmune’s AIM technology and T cell products,” said Monzr Al Malki, M.D., Director of City of Hope’s Unrelated Donor BMT Program and Haploidentical Transplant Program and an Associate Clinical Professor with Department of Hematology and Hematopoietic Cell Transplantation. Based on our current clinical experience with this technology, we’re excited to learn what more this research will tell us.”

City of Hope is a world-class clinical research institution that has built one of the largest banks of leukemia samples in the world,” said Han Myint, M.D., NexImmune Chief Medical Officer. The depth of expertise that Drs. Marcucci, Al Malki and their team bring to this research initiative will help NexImmune continue to develop innovative products that can help patients with AML and other hard-to-treat cancers.”

City of Hope is a leader in bone marrow transplantation . More than 16,000 stem cell and bone marrow transplants have been performed at City of Hope, and more than 700 are performed annually. City of Hope’s BMT program is the only one in the nation that has had one-year survival above the expected rate for 15 consecutive years, based on analysis by the Center for International Blood and Marrow Transplant Research.

About NexImmune NexImmune is a clinical-stage biotechnology company developing unique approaches to T cell immunotherapies based on its proprietary Artificial Immune Modulation (AIM) technology. The AIM technology is designed to generate a targeted T cell-mediated immune response and is initially being developed as a cell therapy for the treatment of hematologic cancers. AIM nanoparticles (AIM-np) act as synthetic dendritic cells to deliver immune-specific signals to targeted T cells and can direct the activation or suppression of cell-mediated immunity. In cancer, AIM-expanded T cells have demonstrated best-in-class anti-tumor properties as characterized by in vitro analysis, including a unique combination of anti-tumor potency, antigen target-specific killing, and long-term T cell persistence. The modular design of the AIM platform enables rapid expansion across multiple therapeutic areas, with both cell therapy and injectable products.

NexImmune’s two lead T cell therapy programs, NEXI-001 and NEXI-002, are in Phase 1/2 clinical trials for the treatment of relapsed AML after allogeneic stem cell transplantation and multiple myeloma refractory to > 3 prior lines of therapy, respectively. The Company’s pipeline also has additional preclinical programs, including cell therapy and injectable product candidates, for the treatment of oncology, autoimmune disorders, and infectious diseases.

For more information, visit http://www.neximmune.com.

Media Contact: Mike Beyer Sam Brown Inc. Healthcare Communications 312-961-2502 mikebeyer@sambrown.com

Investor Contact: Chad Rubin Solebury Trout +1-646-378-2947 crubin@soleburytrout.com

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NexImmune Establishes Research Initiative with City of Hope to Focus on Novel Immunotherapeutic Approaches to Acute Myeloid Leukemia - Stockhouse

Bone Marrow Stem Cells Comments Off on NexImmune Establishes Research Initiative with City of Hope to Focus on Novel Immunotherapeutic Approaches to Acute Myeloid Leukemia – Stockhouse | October 30th, 2020

The report on Global Orthopedic Regenerative Medicine Market is a dependable point of reference heralding high accuracy business decisions on the basis of thorough research and observation by seasoned research professionals at CMI Research. The report on global Orthopedic Regenerative Medicine market evidently highlights the causal factors such as demand analysis, trend examination, and technological milestones besides manufacturing activities that have been systematically touched upon to instigate systematic growth projection.

This CMI Research report on global Orthopedic Regenerative Medicine market systematically studies and follows noteworthy progresses across growth trends, novel opportunities as well as drivers and restraints that impact growth prognosis.

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Which market players and aspiring new entrants may witness seamless entry?

Curasan, Inc., Carmell Therapeutics Corporation, Anika Therapeutics, Inc., Conatus Pharmaceuticals Inc., Histogen Inc., Royal Biologics, Ortho Regenerative Technologies, Inc., Swiss Biomed Orthopaedics AG, Osiris Therapeutics, Inc., and Octane Medical Inc.

Predicting Scope: Global Orthopedic Regenerative Medicine Market, 2020-2027

Elaborate research proposes global Orthopedic Regenerative Medicine market is likely to experience an impressive growth through the forecast span, 2020-2027, ticking a robust CAGR of xx% USD. The Orthopedic Regenerative Medicine market is anticipated to demonstrate a whopping growth with impressive CAGR valuation. The Orthopedic Regenerative Medicine market is also likely to maintain the growth spurt showing signs of steady recovery.

For appropriate analysis of all the market relevant information as well emerging trends and historical developments in the Orthopedic Regenerative Medicine market, CMI Research has referred to various primary and secondary research practices and contributing factors.

Regional Overview: Global Orthopedic Regenerative Medicine Market

The report specifically sheds light upon note-worthy business discretion, popular trends investment probabilities aligning with budding opportunities as well as breakthrough developments in policies and monetary inclination echoing investor preferences in Orthopedic Regenerative Medicine space.

Competitive Landscape: Global Orthopedic Regenerative Medicine Market

Further in the report, readers are presented with minute details pertaining to significant company profiles, product development, on pricing, production and vital information on raw material and equipment developments also form crucial report contents in this CMI Research report.

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Segmentation Based on Orthopedic Regenerative Medicine Market Types:

By Procedure Cell TherapyTissue EngineeringBy Cell TypeInduced Pluripotent Stem Cells (iPSCs)Adult Stem CellsTissue Specific Progenitor Stem Cells (TSPSCs),Mesenchymal Stem Cells (MSCs)Umbilical Cord Stem Cells (UCSCs)Bone Marrow Stem Cells (BMSCs)By SourceBone MarrowUmbilical Cord BloodAdipose TissueAllograftsAmniotic FluidBy ApplicationsTendons RepairCartilage RepairBone RepairLigament RepairSpine RepairOthers

Global Orthopedic Regenerative Medicine Market Size & Share, By Regions and Countries/Sub-regions:

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 Orthopedic Regenerative Medicine market. This section offers information on the sales growth in these regions on a country-level Orthopedic Regenerative Medicine market.

The historical and forecast information provided in the report span between2020 and 2027. The report provides detailed volume analysis and region-wise market size analysis of the market.

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Covid-19 Impact On Orthopedic Regenerative Medicine Market 2020 Future Development, Manufacturers, Trends, Share, Size And Forecast to 2027 |...

Bone Marrow Stem Cells Comments Off on Covid-19 Impact On Orthopedic Regenerative Medicine Market 2020 Future Development, Manufacturers, Trends, Share, Size And Forecast to 2027 |… | October 30th, 2020

This article was originally published here

N Engl J Med. 2020 Oct 27. doi: 10.1056/NEJMoa2026834. Online ahead of print.

ABSTRACT

BACKGROUND: Adult-onset inflammatory syndromes often manifest with overlapping clinical features. Variants in ubiquitin-related genes, previously implicated in autoinflammatory disease, may define new disorders.

METHODS: We analyzed peripheral-blood exome sequence data independent of clinical phenotype and inheritance pattern to identify deleterious mutations in ubiquitin-related genes. Sanger sequencing, immunoblotting, immunohistochemical testing, flow cytometry, and transcriptome and cytokine profiling were performed. CRISPR-Cas9-edited zebrafish were used as an in vivo model to assess gene function.

RESULTS: We identified 25 men with somatic mutations affecting methionine-41 (p.Met41) in UBA1, the major E1 enzyme that initiates ubiquitylation. (The gene UBA1 lies on the X chromosome.) In such patients, an often fatal, treatment-refractory inflammatory syndrome develops in late adulthood, with fevers, cytopenias, characteristic vacuoles in myeloid and erythroid precursor cells, dysplastic bone marrow, neutrophilic cutaneous and pulmonary inflammation, chondritis, and vasculitis. Most of these 25 patients met clinical criteria for an inflammatory syndrome (relapsing polychondritis, Sweets syndrome, polyarteritis nodosa, or giant-cell arteritis) or a hematologic condition (myelodysplastic syndrome or multiple myeloma) or both. Mutations were found in more than half the hematopoietic stem cells, including peripheral-blood myeloid cells but not lymphocytes or fibroblasts. Mutations affecting p.Met41 resulted in loss of the canonical cytoplasmic isoform of UBA1 and in expression of a novel, catalytically impaired isoform initiated at p.Met67. Mutant peripheral-blood cells showed decreased ubiquitylation and activated innate immune pathways. Knockout of the cytoplasmic UBA1 isoform homologue in zebrafish caused systemic inflammation.

CONCLUSIONS: Using a genotype-driven approach, we identified a disorder that connects seemingly unrelated adult-onset inflammatory syndromes. We named this disorder the VEXAS (vacuoles, E1 enzyme, X-linked, autoinflammatory, somatic) syndrome. (Funded by the NIH Intramural Research Programs and the EU Horizon 2020 Research and Innovation Program.).

PMID:33108101 | DOI:10.1056/NEJMoa2026834

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Somatic Mutations in UBA1 and Severe Adult-Onset Autoinflammatory Disease - DocWire News

Bone Marrow Stem Cells Comments Off on Somatic Mutations in UBA1 and Severe Adult-Onset Autoinflammatory Disease – DocWire News | October 30th, 2020

Regenerative medicine encompasses innovative therapies that allow the body to repair or regenerate aging cells, tissues, and organs. The skin is a particularly attractive organ for the application of novel regenerative therapies due to its easy accessibility. Among these therapies, stem cells and platelet-rich plasma (PRP) have garnered interest based on their therapeutic potential in scar reduction, antiaging effects, and treatment of alopecia.

Stem cells possess the cardinal features of self-renewal and plasticity. Self-renewal refers to symmetric cell division generating daughter cells identical to the parent cell.1 Plasticity is the ability to generate cell types other than the germ line or tissue lineage from which stem cells derive.2 Stem cells can be categorized according to their differentiation potential. Totipotent stem cells may develop into any primary germ cell layer (ectoderm, mesoderm, endoderm) of the embryo, as well as extraembryonic tissue such as the trophoblast, which gives rise to the placenta. Pluripotent stem cells such as embryonic stem cells have the capacity to differentiate into any derivative of the 3 germ cell layers but have lost their ability to differentiate into the trophoblast.3 Adults lack totipotent or pluripotent cells; they have multipotent or unipotent cells. Multipotent stem cells are able to differentiate into multiple cell types from similar lineages; mesenchymal stem cells (MSCs), for example, can differentiate into adipogenic, osteogenic, chondrogenic, and myogenic cells.4 Unipotent stem cells have the lowest differentiation potential and can only self-regenerate. Herein, we review stem cell sources and their therapeutic potential in aesthetic dermatology.

Multipotent stem cells derived from the bone marrow, umbilical cord, adipose tissue, dermis, or hair follicle bulge have various clinical applications in dermatology. Stem cells from these sources are primarily utilized in an autologous manner in which they are processed outside the body and reintroduced into the donor. Autologous multipotent hematopoietic bone marrow cells were first successfully used for the treatment of chronic wounds and show promise for the treatment of atrophic scars.5,6 However, due to the invasive nature of extracting bone marrow stem cells and their declining number with age, other sources of multipotent stem cells have fallen into favor.

Umbilical cord blood is a source of multipotent hematopoietic stem cells for which surgical intervention is not necessary because they are retrieved after umbilical cord clamping.7 Advantages of sourcing stem cells from umbilical cord blood includes high regenerative power compared to a newborns skin and low immunogenicity given that the newborn is immunologically immature.8

Another popular source for autologous stem cells is adipose tissue due to its ease of accessibility and relative abundance. Given that adipose tissuederived stem cells (ASCs) are capable of differentiating into adipocytes that help maintain volume over time, they are being used for midface contouring, lip augmentation, facial rejuvenation, facial scarring, lipodystrophy, penile girth enhancement, and vaginal augmentation. Adipose tissuederived stem cells also are capable of differentiating into other types of tissue, including cartilage and bone. Thus, they have been successfully harnessed in the treatment of patients affected by systemic sclerosis and Parry-Romberg syndrome as well in the functional and aesthetic reconstruction of various military combatrelated deformities.9,10

Adipose tissuederived stem cells are commonly harvested from lipoaspirate of the abdomen and are combined with supportive mechanical scaffolds such as hydrogels. Lipoaspirate itself can serve as a scaffold for ASCs. Accordingly, ASCs also are being utilized as a scaffold for autologous fat transfer procedures in an effort to increase the viability of transplanted donor tissue, a process known as cell-assisted lipotransfer (CAL). In CAL, a fraction of the aspirated fat is processed for isolation of ASCs, which are then recombined with the remainder of the aspirated fat prior to grafting.11 However, there is conflicting evidence as to whether CAL leads to improved graft success relative to conventional autologous fat transfer.12,13

The skin also serves as an easily accessible and abundant autologous source of stem cells. A subtype of dermal fibroblasts has been proven to have multipotent potential.14,15 These dermal fibroblasts are harvested from one area of the skin using punch biopsy and are processed and reinjected into another desired area of the skin.16 Autologous human fibroblasts have proven to be effective for the treatment of wrinkles, rhytides, and acne scars.17 In June 2011, the US Food and Drug Administration approved azficel-T, an autologous cellular product created by harvesting fibroblasts from a patients own postauricular skin, culture-expanding them in vitro for 3 months, and reinjecting the cells into the desired area of dermis in a series of treatments. This product was the first personalized cell therapy approved by the US Food and Drug Administration for aesthetic uses, specifically for the improvement of nasolabial fold wrinkles.18

In adults, hair follicles contain an area known as the bulge, which is a site rich in epithelial and melanocytic stem cells. Bulge stem cells have the ability to reproduce the interfollicular epidermis, hair follicle structures, and sebaceous glands, and they have been used to construct entirely new hair follicles in an artificial in vivo system.19 Sugiyama-Nakagiri et al20 demonstrated that an entire hair follicle epithelium and interfollicular epidermis can be regenerated using cultured bulge stem cells. The cultured bulge stem cells were mixed with dermal papilla cells from neonatal rat vibrissae and engrafted into a silicone chamber implanted on the backs of severe combined immune deficient (SCID) mice. The grafts exhibited tufts of hair as well as a complete interfollicular epidermis at 4 weeks after transplantation.20 Thus, these bulge stem cells have the potential to treat male androgenic alopecia and female pattern hair loss. Bulge stem cells also have been shown to accelerate wound healing.21 Additionally, autologous melanocytic stem cells located at the hair follicle bulge are effective for treating vitiligo and are being investigated for the treatment of hair graying.22

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Regenerative Medicine in Cosmetic Dermatology | MDedge ...

IPS Cell Therapy Comments Off on Regenerative Medicine in Cosmetic Dermatology | MDedge … | October 30th, 2020

G-CON Awarded Korea Bioprocessing Award for Innovative Bioprocessing Technology

COLLEGE STATION, Texas (PRWEB) October 29, 2020

IMAPAC, the organizer of Biologics Manufacturing Korea, recently awarded G-CON Manufacturing with the 2020 Korea Bioprocessing Excellence Award in Innovative Bioprocessing Technology. The award honors outstanding experts, institutions, and technologies in the field of bioprocessing and cell/gene therapy. G-CON is honored to be in the company of the many distinguished organizations and individuals who have been considered for this award in the past.

G-CON received the award for its BERcellFLEX prefabricated modular cleanroom infrastructure for the manufacturing of autologous cell therapies. BERcellFLEX is part of the iCON product line developed by G-CON and IPS-Integrated Project Services, LLC and represents a line of gene/cell therapy products that operating companies can buy today, ready- to-order with little to no engineering time.

Its with great pride and gratitude, that G-CON has accepted this award on behalf of the entire iCON team said Dennis Powers, Vice President of Business Development and Sales Engineering for G-CON Manufacturing. Being recognized for our innovative platform approach to facility design and construction further reinforces the growing need in our industry that IPS and G-CON recognized three years ago when we launched iCON."

Available in both 12-foot and 24-foot wide POD configurations, the BERcellFLEX processing suites enable faster and more predictable project schedules for new facility construction and a standardized solution to meet speed to market requirements filling all major needs in the cell therapy arena. Multiple units can be installed to scale up/out from phase 1 clinical production to commercial manufacturing.

About G-CON ManufacturingG-CON Manufacturing designs, builds, and installs prefabricated G-CON POD cleanrooms. G-CONs POD portfolio provides cleanrooms in a number of dimensions for a variety of uses, from laboratory environments to personalized medicine and production process platforms. G-CON POD cleanroom units surpass traditional cleanroom structures in scalability, mobility and the possibility of repurposing the PODs once the production process reaches its lifecycle end. For more information, please visit G-CONs website at https://www.gconbio.com.

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G-CON Manufacturing Honored with the Korea Bioprocessing Excellence Award - PR Web

IPS Cell Therapy Comments Off on G-CON Manufacturing Honored with the Korea Bioprocessing Excellence Award – PR Web | October 30th, 2020

Regenerative medicine is a part of translational research in the fields of molecular biology and tissue engineering. This type of medicine involves replacing and regenerating human cells, organs, and tissues with the help of specific processes. Doing this may involve a partial or complete reengineering of human cells so that they start to function normally.

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Regenerative medicine also involves the attempts to grow tissues and organs in a laboratory environment, wherein they can be put in a body that cannot heal a particular part. Such implants are mainly preferred to be derived from the patients own tissues and cells, particularly stem cells. Looking at the promising nature of stem cells to heal and regenerative various parts of the body, this field is certainly expected to see a bright future. Doing this can help avoid opting for organ donation, thus saving costs. Some healthcare centers might showcase a shortage of organ donations, and this is where tissues regenerated using patients own cells are highly helpful.

There are several source materials from which regeneration can be facilitated. Extracellular matrix materials are commonly used source substances all over the globe. They are mainly used for reconstructive surgery, chronic wound healing, and orthopedic surgeries. In recent times, these materials have also been used in heart surgeries, specifically aimed at repairing damaged portions.

Cells derived from the umbilical cord also have the potential to be used as source material for bringing about regeneration in a patient. A vast research has also been conducted in this context. Treatment of diabetes, organ failure, and other chronic diseases is highly possible by using cord blood cells. Apart from these cells, Whartons jelly and cord lining have also been shortlisted as possible sources for mesenchymal stem cells. Extensive research has conducted to study how these cells can be used to treat lung diseases, lung injury, leukemia, liver diseases, diabetes, and immunity-based disorders, among others.

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Global Regenerative Medicine Market: Overview

The global market for regenerative medicine market is expected to grow at a significant pace throughout the forecast period. The rising preference of patients for personalized medicines and the advancements in technology are estimated to accelerate the growth of the global regenerative medicine market in the next few years. As a result, this market is likely to witness a healthy growth and attract a large number of players in the next few years. The development of novel regenerative medicine is estimated to benefit the key players and supplement the markets growth in the near future.

Global Regenerative Medicine Market: Key Trends

The rising prevalence of chronic diseases and the rising focus on cell therapy products are the key factors that are estimated to fuel the growth of the global regenerative medicine market in the next few years. In addition, the increasing funding by government bodies and development of new and innovative products are anticipated to supplement the growth of the overall market in the next few years.

On the flip side, the ethical challenges in the stem cell research are likely to restrict the growth of the global regenerative medicine market throughout the forecast period. In addition, the stringent regulatory rules and regulations are predicted to impact the approvals of new products, thus hampering the growth of the overall market in the near future.

Global Regenerative Medicine Market: Market Potential

The growing demand for organ transplantation across the globe is anticipated to boost the demand for regenerative medicines in the next few years. In addition, the rapid growth in the geriatric population and the significant rise in the global healthcare expenditure is predicted to encourage the growth of the market. The presence of a strong pipeline is likely to contribute towards the markets growth in the near future.

Global Regenerative Medicine Market: Regional Outlook

In the past few years, North America led the global regenerative medicine market and is likely to remain in the topmost position throughout the forecast period. This region is expected to account for a massive share of the global market, owing to the rising prevalence of cancer, cardiac diseases, and autoimmunity. In addition, the rising demand for regenerative medicines from the U.S. and the rising government funding are some of the other key aspects that are likely to fuel the growth of the North America market in the near future.

Furthermore, Asia Pacific is expected to register a substantial growth rate in the next few years. The high growth of this region can be attributed to the availability of funding for research and the development of research centers. In addition, the increasing contribution from India, China, and Japan is likely to supplement the growth of the market in the near future.

Global Regenerative Medicine Market: Competitive Analysis

The global market for regenerative medicines is extremely fragmented and competitive in nature, thanks to the presence of a large number of players operating in it. In order to gain a competitive edge in the global market, the key players in the market are focusing on technological developments and research and development activities. In addition, the rising number of mergers and acquisitions and collaborations is likely to benefit the prominent players in the market and encourage the overall growth in the next few years.

Some of the key players operating in the regenerative medicine market across the globe are Vericel Corporation, Japan Tissue Engineering Co., Ltd., Stryker Corporation, Acelity L.P. Inc. (KCI Licensing), Organogenesis Inc., Medtronic PLC, Cook Biotech Incorporated, Osiris Therapeutics, Inc., Integra Lifesciences Corporation, and Nuvasive, Inc. A large number of players are anticipated to enter the global market throughout the forecast period.

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

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Regenerative Medicine Market Poised to Garner Maximum Revenues During 2025 - The Think Curiouser

Cardiac Stem Cells Comments Off on Regenerative Medicine Market Poised to Garner Maximum Revenues During 2025 – The Think Curiouser | October 30th, 2020

The Cell Therapy Processing market was valued at $1,695 million in 2018, and is projected to reach $12,062 million by 2027, registering a CAGR of +27% from 2020 to 2027.

The Global Cell Therapy Processing Market provides a comprehensive outlook of the Global Market globally. This report gives a thorough examination of the market and, provides the market size and CAGR value for the forecast period 2020-2027, taking into account the past year as the base year.

Cell therapy processing refers to the administration of living cells in a patients body for treating a disease. For cell processing therapy, different types of cells can be utilized, including neural cells, skeletal muscle cells, embryonic stem cells, hematopoietic stem cells, and mesenchymal cells. Moreover, it is used for the treatment of cancers, repairmen of spinal cord injuries, infectious & urinary diseases, autoimmune diseases, improvement of a weakened immune system, rebuilding damaged cartilage in joints, and helping patients with neurological disorders.

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The Cell Therapy Processing Market Analysis Report includes Top Companies:

BioTime, Inc., Regeneus Ltd., Targazyme, Inc., Bone Therapeutics, NeuroGeneration, and Invitrx Therapeutics, Inc.

This report segments the Global Cell Therapy Processing Market on the basis of Types are:

On The basis Of Application, the Global Cell Therapy Processing Market is segmented into:

Regional Analysis For Cell Therapy Processing Market:

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The research report provides in-depth analysis on:

In this study, the years considered estimating the market size of Cell Therapy Processing are as follows:

History Year: 2014-2018

Base Year: 2018

Estimated Year: 2019

Forecast Year 2020 to 2027

For the data information by region, company, type and application, 2020 is considered as the base year. Whenever data information was unavailable for the base year, the prior year has been considered.

Table of Content:-

Chapter 1 Global Cell Therapy Processing Market Overview

Chapter 2 Market Data Analysis

Chapter 3 Market Technical Data Analysis

Chapter 4 Market Government Policy and News

Chapter 5 Market Productions Supply Sales Demand Market Status and Forecast

Chapter 6 Global Market Manufacturing Process and Cost Structure

Chapter 7 Global Cell Therapy Processing Market Key Manufacturers

Chapter 8 Up and Down Stream Industry Analysis

Chapter 9 Marketing Strategy Market y Analysis

Chapter 10 Market Development Trend Analysis

Chapter 11 Global Global Cell Therapy Processing Market New Project Investment Feasibility Analysis

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Rising Adoption of Cell Therapy Processing Market by 2020-2027 with Major Giants: BioTime, Inc., Regeneus Ltd., Targazyme, Inc., Bone Therapeutics,...

Spinal Cord Stem Cells Comments Off on Rising Adoption of Cell Therapy Processing Market by 2020-2027 with Major Giants: BioTime, Inc., Regeneus Ltd., Targazyme, Inc., Bone Therapeutics,… | October 30th, 2020

Dublin, Oct. 30, 2020 (GLOBE NEWSWIRE) -- The "Regenerative Medicine Market: Global Industry Trends, Share, Size, Growth, Opportunity and Forecast 2020-2025" report has been added to ResearchAndMarkets.com's offering.

The global regenerative medicine market grew at a CAGR of around 16% during 2014-2019. Regenerative medicine refers to a branch of biomedical sciences aimed at restoring the structure and function of damaged tissues and organs. It involves the utilization of stem cells that are developed in laboratories and further implanted safely into the body for the regeneration of damaged bones, cartilage, blood vessels and organs. Cellular and acellular regenerative medicines are commonly used in various clinical therapeutic procedures, including cell, immunomodulation and tissue engineering therapies. They hold potential for the effective treatment of various chronic diseases, such as Alzheimer's, Parkinson's and cardiovascular disorders (CVDs), osteoporosis and spinal cord injuries.

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

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

Key Market Segmentation:

The publisher provides an analysis of the key trends in each sub-segment of the global regenerative medicine market report, along with forecasts for growth at the global, regional and country level from 2020-2025. Our report has categorized the market based on region, type, application and end user.

Breakup by Type:

Breakup by Application:

Breakup by End User:

Breakup by Region:

Competitive Landscape:

The report has also analysed the competitive landscape of the market with some of the key players being Allergan PLC (AbbVie Inc.), Amgen Inc., Baxter International Inc., BD (Becton, Dickinson and Company), Integra Lifesciences Holdings Corporation, Medtronic plc, Mimedx Group Inc., Novartis AG, Osiris Therapeutics Inc. (Smith & Nephew plc) and Thermo Fisher Scientific Inc.

Key Questions Answered in This Report:

Key Topics Covered:

1 Preface

2 Scope and Methodology 2.1 Objectives of the Study2.2 Stakeholders2.3 Data Sources2.3.1 Primary Sources2.3.2 Secondary Sources2.4 Market Estimation2.4.1 Bottom-Up Approach2.4.2 Top-Down Approach2.5 Forecasting Methodology

3 Executive Summary

4 Introduction4.1 Overview4.2 Key Industry Trends

5 Global Regenerative Medicine Market5.1 Market Overview5.2 Market Performance5.3 Impact of COVID-195.4 Market Forecast

6 Market Breakup by Type6.1 Stem Cell Therapy6.1.1 Market Trends6.1.2 Market Forecast6.2 Biomaterial6.2.1 Market Trends6.2.2 Market Forecast6.3 Tissue Engineering6.3.1 Market Trends6.3.2 Market Forecast6.4 Others6.4.1 Market Trends6.4.2 Market Forecast

7 Market Breakup by Application7.1 Bone Graft Substitutes7.1.1 Market Trends7.1.2 Market Forecast7.2 Osteoarticular Diseases7.2.1 Market Trends7.2.2 Market Forecast7.3 Dermatology7.3.1 Market Trends7.3.2 Market Forecast7.4 Cardiovascular7.4.1 Market Trends7.4.2 Market Forecast7.5 Central Nervous System7.5.1 Market Trends7.5.2 Market Forecast7.6 Others7.6.1 Market Trends7.6.2 Market Forecast

8 Market Breakup by End User8.1 Hospitals8.1.1 Market Trends8.1.2 Market Forecast8.2 Specialty Clinics8.2.1 Market Trends8.2.2 Market Forecast8.3 Others8.3.1 Market Trends8.3.2 Market Forecast

9 Market Breakup by Region9.1 North America9.1.1 United States9.1.1.1 Market Trends9.1.1.2 Market Forecast9.1.2 Canada9.1.2.1 Market Trends9.1.2.2 Market Forecast9.2 Asia Pacific9.2.1 China9.2.1.1 Market Trends9.2.1.2 Market Forecast9.2.2 Japan9.2.2.1 Market Trends9.2.2.2 Market Forecast9.2.3 India9.2.3.1 Market Trends9.2.3.2 Market Forecast9.2.4 South Korea9.2.4.1 Market Trends9.2.4.2 Market Forecast9.2.5 Australia9.2.5.1 Market Trends9.2.5.2 Market Forecast9.2.6 Indonesia9.2.6.1 Market Trends9.2.6.2 Market Forecast9.2.7 Others9.2.7.1 Market Trends9.2.7.2 Market Forecast9.3 Europe9.3.1 Germany9.3.1.1 Market Trends9.3.1.2 Market Forecast9.3.2 France9.3.2.1 Market Trends9.3.2.2 Market Forecast9.3.3 United Kingdom9.3.3.1 Market Trends9.3.3.2 Market Forecast9.3.4 Italy9.3.4.1 Market Trends9.3.4.2 Market Forecast9.3.5 Spain9.3.5.1 Market Trends9.3.5.2 Market Forecast9.3.6 Russia9.3.6.1 Market Trends9.3.6.2 Market Forecast9.3.7 Others9.3.7.1 Market Trends9.3.7.2 Market Forecast9.4 Latin America9.4.1 Brazil9.4.1.1 Market Trends9.4.1.2 Market Forecast9.4.2 Mexico9.4.2.1 Market Trends9.4.2.2 Market Forecast9.4.3 Others9.4.3.1 Market Trends9.4.3.2 Market Forecast9.5 Middle East and Africa9.5.1 Market Trends9.5.2 Market Breakup by Country9.5.3 Market Forecast

10 SWOT Analysis10.1 Overview10.2 Strengths10.3 Weaknesses10.4 Opportunities10.5 Threats

11 Value Chain Analysis

12 Porters Five Forces Analysis12.1 Overview12.2 Bargaining Power of Buyers12.3 Bargaining Power of Suppliers12.4 Degree of Competition12.5 Threat of New Entrants12.6 Threat of Substitutes

13 Price Analysis

14 Competitive Landscape14.1 Market Structure14.2 Key Players14.3 Profiles of Key Players14.3.1 Allergan PLC (AbbVie Inc.)14.3.1.1 Company Overview14.3.1.2 Product Portfolio 14.3.1.3 Financials 14.3.1.4 SWOT Analysis14.3.2 Amgen Inc.14.3.2.1 Company Overview14.3.2.2 Product Portfolio14.3.2.3 Financials 14.3.2.4 SWOT Analysis14.3.3 Baxter International Inc.14.3.3.1 Company Overview14.3.3.2 Product Portfolio 14.3.3.3 Financials 14.3.3.4 SWOT Analysis14.3.4 BD (Becton, Dickinson and Company)14.3.4.1 Company Overview14.3.4.2 Product Portfolio 14.3.4.3 Financials 14.3.4.4 SWOT Analysis14.3.5 Integra Lifesciences Holdings Corporation14.3.5.1 Company Overview14.3.5.2 Product Portfolio 14.3.5.3 Financials 14.3.5.4 SWOT Analysis14.3.6 Medtronic Plc14.3.6.1 Company Overview14.3.6.2 Product Portfolio 14.3.6.3 Financials14.3.6.4 SWOT Analysis14.3.7 Mimedx Group Inc.14.3.7.1 Company Overview14.3.7.2 Product Portfolio14.3.7.3 Financials 14.3.8 Novartis AG14.3.8.1 Company Overview14.3.8.2 Product Portfolio 14.3.8.3 Financials14.3.8.4 SWOT Analysis14.3.9 Osiris Therapeutics Inc. (Smith & Nephew plc)14.3.9.1 Company Overview14.3.9.2 Product Portfolio14.3.10 Thermo Fisher Scientific Inc.14.3.10.1 Company Overview14.3.10.2 Product Portfolio 14.3.10.3 Financials14.3.10.4 SWOT Analysis

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Outlook on the Regenerative Medicine Global Market to 2025 - Impact of COVID-19 on the Market - GlobeNewswire

Spinal Cord Stem Cells Comments Off on Outlook on the Regenerative Medicine Global Market to 2025 – Impact of COVID-19 on the Market – GlobeNewswire | October 30th, 2020

Oct. 29, 2020 12:00 UTC

Rare disease and neurology expert Dr. Angela Genge to lead QurAlis clinical R&D for ALS and FTD

CAMBRIDGE, Mass.--(BUSINESS WIRE)-- QurAlis Corporation, a biotech company focused on developing precision medicines for amyotrophic lateral sclerosis (ALS) and other neurologic diseases, today announced the appointment of Angela Genge, MD, FRCP(C), eMBA to the position of Chief Medical Officer (CMO). Dr. Genge is the Executive Director of the Montreal Neurological Institutes Clinical Research Unit and the Director of Montreal Neurological Hospitals ALS Global Center of Excellence.

The company also announced the formation of its Clinical Advisory Board, which will work closely with Dr. Genge on QurAlis clinical research and development programs in ALS and frontotemporal dementia (FTD) as the company prepares to move its pipeline to the clinical stage.

As QurAlis grows and advances quickly toward the clinic, we are proud to welcome to the team Dr. Genge, a world-renowned expert in ALS clinical drug development, and announce the highly esteemed group of ALS experts who will be forming our Clinical Advisory Board, said Kasper Roet, PhD, Chief Executive Officer of QurAlis. Dr. Genge has been treating patients and studying and developing therapeutics and clinical trials for ALS and other rare neurologic diseases for more than 25 years, diligently serving these vulnerable patient populations. Along with our newly formed Clinical Advisory Board, having a CMO with this extensive expertise, understanding and experience is invaluable to our success. Dr. Genge and our Board members are tremendous assets for our team who will undoubtedly help us advance on the best path toward the clinic, and we look forward to working with them to conquer ALS.

Previously, Dr. Genge directed other clinics at the Montreal Neurological Hospital including the Neuromuscular Disease Clinic and the Neuropathic Pain Clinic. In 2014, she was a Distinguished Clinical Investigator in Novartis Global Neuroscience Clinical Development Unit, and she has served as an independent consultant for dozens of companies developing and launching neurological therapeutics. Dr. Genge has served in professorial positions at McGill University since 1994.

At this pivotal period in its journey, QurAlis is equipped with a strong, committed leadership team and promising precision medicine preclinical assets, and I look forward to joining the company as CMO, said Dr. Genge. This is an exciting opportunity to further strengthen my work in ALS and other neurological diseases, and I intend to continue innovating and expanding possibilities for the treatment of rare neurological diseases alongside the dedicated QurAlis team.

QurAlis new Clinical Advisory Board Members are:

Dr. Al-Chalabi is a Professor of Neurology and Complex Disease Genetics at the Maurice Wohl Clinical Neuroscience Institute, Head of the Department of Basic and Clinical Neuroscience, and Director of the Kings Motor Neuron Disease Care and Research Centre. Dr. Al-Chalabi trained in medicine in Leicester and London, and subsequently became a consultant neurologist at Kings College Hospital.

Dr. Andrews is an Associate Professor of Neurology in the Division of Neuromuscular Medicine at Columbia University, and serves as the Universitys Director of Neuromuscular Clinical Trials. She currently oversees neuromuscular clinical trials and cares for patients with neuromuscular disease, primarily with ALS. Dr. Andrews is the elected co-chair of the Northeastern ALS (NEALS) Consortium and is also elected to the National Board of Trustees of the ALS Association.

Dr. Cudkowicz is the Julianne Dorn Professor of Neurology at Harvard Medical School and Chief of Neurology and Director of the Sean M. Healey & AMG Center for ALS at Mass General Hospital. As co-founder and former co-chair of the Northeast ALS Consortium, she accelerated the development of ALS treatments for people with ALS, leading pioneering trials using antisense oligonucleotides, new therapeutic treatments and adaptive trial designs. Through the Healey Center at Mass General, she is leading the first platform trial for people with ALS.

Dr. Shaw serves as Director of the Sheffield Institute for Translational Neuroscience, the NIHR Biomedical Research Centre Translational Neuroscience for Chronic Neurological Disorders, and the Sheffield Care and Research Centre for Motor Neuron Disorders. She also serves as Consultant Neurologist at the Sheffield Teaching Hospitals NHS Foundation Trust. Since 1991, she has led a major multidisciplinary program of research investigating genetic, molecular and neurochemical factors underlying neurodegenerative disorders of the human motor system.

Dr. Van Damme is a Professor of Neurology and director of the Neuromuscular Reference Center at the University Hospital Leuven in Belgium. He directs a multidisciplinary team for ALS care and clinical research that is actively involved in ALS clinical trials, but is also working on the genetics of ALS, biomarkers of ALS, and disease mechanisms using different disease models, including patient-derived induced pluripotent stem cells.

Dr. van den Berg is a professor of neurology who holds a chair in experimental neurology of motor neuron diseases at the University Medical Center Utrecht in the Netherlands. He also is director of the centers Laboratory for Neuromuscular Disease, director of the Netherlands ALS Center, chairman of the Neuromuscular Centre the Netherlands, and chairman of the European Network to Cure ALS (ENCALS), a network of the European ALS Centres.

About ALS

Amyotrophic lateral sclerosis (ALS), also known as Lou Gehrigs disease, is a progressive neurodegenerative disease impacting nerve cells in the brain and spinal cord. ALS breaks down nerve cells, reducing muscle function and causing loss of muscle control. ALS can be traced to mutations in over 25 different genes and is often caused by a combination of multiple sub-forms of the condition. Its average life expectancy is three years, and there is currently no cure for the disease.

About QurAlis Corporation

QurAlis is bringing hope to the ALS community by developing breakthrough precision medicines for this devastating disease. Our stem cell technologies generate proprietary human neuronal models that enable us to more effectively discover and develop innovative therapies for genetically validated targets. We are advancing three antisense and small molecule programs addressing sub-forms of the disease that account for the majority of patients. Together with a world-class network of thought leaders, drug developers and patient advocates, our team is rising to the challenge of conquering ALS. http://www.quralis.com

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QurAlis Announces Appointment of New Chief Medical Officer and Formation of Clinical Advisory Board - BioSpace

Spinal Cord Stem Cells Comments Off on QurAlis Announces Appointment of New Chief Medical Officer and Formation of Clinical Advisory Board – BioSpace | October 30th, 2020

Medical skin care products are used for beautifying or to address some other skin care problems. The cosmetic industry is booming and skin care forms a very huge part of this industry. The aesthetic appearance is so important that people spend a lot on skin care products and treatment. People being more technologically aware of the various new skin care products trending in the market. In addition to the aesthetic application, the medical skin care products are also used to address issues such as acne, pimples or scars.

Medical Skin Care Products Market: Drivers and Restraints

The medical skin care products is primarily driven by the need of natural based active ingredients products which are now trending in the market. Consumers demand medical skin care products which favor health and environment. Moreover, the consumers are updated with the trends so that various companies end up providing such products to satisfy the customers. For instance, a single product face mask has thousands of different variants. This offers consumers different options to select the product depending on the skin type. Moreover, the market players catering to the medical skin care products are offering products with advanced technologies. For instance, Santinov launched the CICABEL mask using stem cell material based on advanced technologies. The stem cells used in the skin care product helps to to protect and activate the cells and promote the proliferation of skin epidermal cells and the anagenesis of skin fibrosis.

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Medical Skin Care Products Market: Segmentation

On the basis of product type the medical skin care products market can be segmented as:

On the basis of application, the medical skin care products market can be segment as:

On the basis of distribution channel, the medical skin care products market can be segment as:

Medical Skin Care Products Market: Overview

Medical skin care products are used to address basic skin problems ranging from acne to scars. There are various advancements in the ingredients used to offer skin care products to the consumers. For instance, the use of hyaluronic acid and retinoids is the latest development in the industry. The anti-aging creams are at the forefront as the help treating issues such as wrinkles, scars, acne, and sun damage. Another, product in demand is the probiotic skincare which include lactobacillus and bifidobacterium.

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Medical Skin Care Products Market: Region-wise Outlook

In terms of geography, medical skin care products market has been divided into five regions including North- America, Asia- Pacific, Middle-East & Africa, Latin America and Europe. North America dominated the global medical skin care products market as international players are acquiring domestic companies to make their hold strong in the U.S. LOral is accelerating its U.S. market by signing a definitive agreement with Valeant Pharmaceuticals International Inc. to acquire CeraVe, AcneFree and Ambi skin-care brands for US$ 1.3 billion. The acquisition is expected LOreal to get hold of the brands in the price-accessible segment. Asia Pacific is expected to be the fastest growing region owing to the increasing disposable income and rising awareness towards the skin care products.

Medical Skin Care Products Market: Key Market Participants

Some of the medical skin care products market participants are Avon Products Inc., Beiersdorf AG, Colgate-Palmolive Company, Kao Corporation, LOral S.A., Procter & Gamble, Shiseido Company, The Estee Lauder Companies Inc., Unilever PLC, Revlon, Clinique Laboratories, llc., Murad, LLC., SkinCeuticals, RMS Beauty, J.R. Watkins and 100% PURE.

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The Medical Skin Care Products market to grow on a prudent note from 2017 to 2025 - TechnoWeekly

Skin Stem Cells Comments Off on The Medical Skin Care Products market to grow on a prudent note from 2017 to 2025 – TechnoWeekly | October 30th, 2020

(Image: Sunny Ng/Unsplash) By Chloe Pek October 30, 2020

Thanks to epigenetic research, it turns out that 70 to 75 per cent of skin ageing is up to your environment and lifestyle, instead of genes. We ask Prof Augustinus Bader, co-founder of his eponymous skincare brand, and Dr Nadine Pernodet, Este Lauder's vice president of Skin Biology and BioActives more

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Heres a piece of good news and not so great news. Thanks to epigenetic research, studies have found that while genes play a role in your skin type and how it ages, 70 to 75 per cent of skin ageing is actually dependent of environment and lifestyle factors. The goodyou have a chance at achieving youthful skin. The badyoull have to put in some extra effort for it.

Epigenetics refers to modifications that change the expression of genes but do not directly alter the DNA sequence. The science of epigenetics shows that factors such as environment and lifestyle can change your gene expression, Dr Nadine Pernodet, vice president of Skin Biology & BioActives at the Este Lauder Companies, explains.

(Related: Glow Recipe in Singapore: The Founders Reveal How To Achieve Glass Skin and More)

The genes in your skin are set. You were born with it, and it is a given, but you caninfluence them, says Prof Augustinus Bader, founder of his eponymous skincare brand.

Lifestyle factors, such as what youeat, where you live, when yousleep, how youexercise, evenageingcan eventually cause chemical modifications around the genes that will turn those genes on or off over time.

Though cell care isnt a new concept, it has increasingly taken centre stage in the skincare industry in recent years.

Este Lauder most recently reformulated its well-loved Advanced Night Repair Serum, boasting a new Chronolux Power Signal Technology that is powered by a proprietary blend of New Adansonia digitata extract and other plant-derived ingredients to boost cellular communication.

Through seven years of research, Este Lauder has proved for the first time that a specific micro-signalling molecule is essential to the skins natural repair and promotes multiple vital anti-ageing pathways.

Significantly, this molecule, helps skin increase its natural renewal of fresh cells and boosts its natural collagen production, Dr Pernodet shares.

Hollywood favourite Augustinus Bader, whose star product is The Cream, has also always been informed by cellular science since its founding. The brand officially launched in Singapore in September.

Our skincare technology works with the skin's own intrinsic repair needs by delivering various active ingredients that control and influence the skin cells in a targeted manner. This combination of active ingredients makes up our proprietary Trigger-Factor Complex 8 (TFC8), Prof Bader shares.

TFC8 functions like GPS: utilising a novel transporting mechanism made up of ceramide structures to deliver these nutrient compounds to the right location within the skin cell microenvironment. In short, the cream naturally causes the skin to undergo a physiological process of remodelling. When you can do that, you can influence epigenetic factors that enable the body to fix your skin according to your own needs.

We find out more from both experts about skin ageing, and how to optimise your environment and lifestyle for a more youthful complexion.

(Related: Celebrity Facialist Joanna Czech Shares Her Self-Care Routine and Tips to Prevent Maskne)

Signs of ageing skin is mainly characterised by dryness, dullness, lack of elasticity, and fine lines. According to Dr Pernodet, this can be influenced by the environment, such as UV and blue light, pollution and ozone, travel, and varied climates as well as lifestyle choices, like diet and sleep patterns.

Environmental factors such as UV and blue light exposure and pollution can result in oxidative stress on the skin, manifesting as wrinkles, roughness, pigmentation, and yellowish or greyish-yellow complexion.

Diets heavy in fat, tobacco, alcohol, sugar and baked goods can also compromise the skins barrier function, cause skin inflammation, and affect its lipid composition.

The skin completely renews itselfapproximately every 27 days. Since our skin is living tissue, it is also not a permanentstructure; it is nourished and rebuilt every day. This rebuilding is called remodelling, Prof Bader explains.

Ageingcorrelates with a lack of elasticity due to a different form of remodelling of the skin over time.Positively rebuilding our skin can be achieved by returningessential components to the cells of our skin.

The cells can then follow their natural role of rebuilding the skin in a healthy way, gradually replacing hardened forms of collagens in aged skin with elastin.

(Related: Biohack Your Way To Beauty And Health Using Your DNA And Stem Cells At These Wellness Retreats Around The World)

We often hear about the term circadian rhythm, and its more than just a body clock that determines when you wake up or sleep. As every cell in our body has a circadian rhythm, it can impact everything from our hormones and moods to our skin.

This means that different processes are occurring to your skin at different periods of the day, making them more susceptible to certain types of skincare at each period.

According to both Prof Bader and Dr Pernodet, night time is when the skins natural process is at its peak, and its barrier becomes more permeable for products to absorb effectively.

Nighttime is when the skins moisture barrier is at its thinnest, causing the most moisture loss. Dehydration can also accelerate skin damage. That is why hydration is so critical before bed to creating the optimal environment for skin to maximise its natural nightly repair of visible skin damage, Dr Pernodet advises. The Este Lauder Advanced Night Repair Synchronised Multi-Recovery Complex includes a high level of hyaluronic acida moisture magnetthat promises to offer 72 hours of hydration. The night serum also offers eight hours of antioxidant power.

Products rich in antioxidants defend skin against further trauma from free radical damage and oxidative stress, which helps to improve signs of ageing.

Life inflicts little traumas on the skin all the time. Your stem cells are there to heal these traumas. As you get older, your skin becomes less adept at healing itself, instead often favouring scarringwhich you experience as your skin looking more aged, Prof Bader shares.

Augustinus Baders The Cream is designed to target these traumas inflicted by everyday stressors by providing the cells with everything they need to help fix the things that go wrong. It does this with TFC8 complex, which replenishes key nutrients with a blend of natural amino acids, medical-grade vitamins, and synthesized molecules that are naturally found on the skin. The addition of antioxidant vitamins C and B5, as well as hydrolysed rice protein also helps to hydrate, condition and heal the skin.

Read more:
You Can Influence The Way Your Skin AgesHere's How - Tatler Singapore

Skin Stem Cells Comments Off on You Can Influence The Way Your Skin AgesHere’s How – Tatler Singapore | October 30th, 2020