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European Commission Approves Opdivo (nivolumab) Four-Week Dosing Schedule for the Adjuvant Treatment of Adult Patients with Melanoma with Involvement…

By daniellenierenberg

DetailsCategory: AntibodiesPublished on Friday, 25 October 2019 10:03Hits: 345

PRINCETON, NJ, USA I October 24, 2019 I Bristol-Myers Squibb Company (NYSE: BMY) today announced that the European Commission (EC) has approved Opdivo (nivolumab) flat dosing schedule of 240 mg infused over 30 minutes every two weeks (Q2W) or 480 mg infused over 60 minutes every four weeks (Q4W) for the adjuvant treatment of adult patients with melanoma with involvement of lymph nodes or metastatic disease who have undergone complete resection.

The approval of Opdivo two and four-week flat dosing schedule in the adjuvant melanoma setting is an important milestone for patients across the European Union who now have additional treatment flexibility, said Ralu Vlad, Pharm.D, development team lead, product design and delivery, Bristol-Myers Squibb. Bristol Myers-Squibb is committed to empowering patients with cancer and their families to regain control of their lives through more flexible treatment options that fit their individual needs.

About Melanoma

Melanoma is a form of skin cancer characterized by the uncontrolled growth of pigment-producing cells (melanocytes) located in the skin. Metastatic melanoma is the deadliest form of the disease and occurs when cancer spreads beyond the surface of the skin to other organs. The incidence of melanoma has been increasing steadily for the last 30 years. In the United States, 91,270 new diagnoses of melanoma and more than 9,320 related deaths are estimated for 2018. Globally, the World Health Organization estimates that by 2035, melanoma incidence will reach 424,102, with 94,308 related deaths. Melanoma is mostly curable when treated in its very early stages; however, survival rates are roughly halved if regional lymph nodes are involved. Patients in the United States diagnosed with advanced melanoma classified as Stage IV historically have a five-year survival rate of 15% to 20% and a 10-year survival of 10% to 15%.

Adjuvant Therapy in Melanoma

Melanoma is separated into five staging categories (Stages 0- IV) based on the in-situ feature, thickness and ulceration of the tumor, whether the cancer has spread to the lymph nodes, and how far the cancer has spread beyond lymph nodes.

Stage III melanoma has generally reached the regional lymph nodes but has not yet spread to distant lymph nodes or to other parts of the body (metastasized) and requires surgical resection of the primary tumor as well as the involved lymph nodes. Some patients may also be treated with adjuvant therapy. Despite surgical intervention, most patients experience disease recurrence and progress to metastatic disease.

Bristol-Myers Squibb: Advancing Oncology Research

At Bristol-Myers Squibb, patients are at the center of everything we do. The focus of our research is to increase quality, long-term survival for patients and make cure a possibility. Through a unique multidisciplinary approach powered by translational science, we harness our deep scientific experience in oncology and Immuno-Oncology (I-O) research to identify novel treatments tailored to individual patient needs. Our researchers are developing a diverse, purposefully built pipeline designed to target different immune system pathways and address the complex and specific interactions between the tumor, its microenvironment and the immune system. We source innovation internally, and in collaboration with academia, government, advocacy groups and biotechnology companies, to help make the promise of transformational medicines, like I-O, a reality for patients.

About Opdivo

Opdivo is a programmed death-1 (PD-1) immune checkpoint inhibitor that is designed to uniquely harness the bodys own immune system to help restore anti-tumor immune response. By harnessing the bodys own immune system to fight cancer, Opdivo has become an important treatment option across multiple cancers.

Opdivos leading global development program is based on Bristol-Myers Squibbs scientific expertise in the field of Immuno-Oncology, and includes a broad range of clinical trials across all phases, including Phase 3, in a variety of tumor types. To date, the Opdivo clinical development program has treated more than 35,000 patients. The Opdivo trials have contributed to gaining a deeper understanding of the potential role of biomarkers in patient care, particularly regarding how patients may benefit from Opdivo across the continuum of PD-L1 expression.

In July 2014, Opdivo was the first PD-1 immune checkpoint inhibitor to receive regulatory approval anywhere in the world. Opdivo is currently approved in more than 65 countries, including the United States, the European Union, Japan and China. In October 2015, the Companys Opdivo and Yervoy combination regimen was the first Immuno-Oncology combination to receive regulatory approval for the treatment of metastatic melanoma and is currently approved in more than 50 countries, including the United States and the European Union.

U.S. FDA-APPROVED INDICATIONS FOR OPDIVO

OPDIVO (nivolumab) as a single agent is indicated for the treatment of patients with unresectable or metastatic melanoma.

OPDIVO (nivolumab), in combination with YERVOY (ipilimumab), is indicated for the treatment of patients with unresectable or metastatic melanoma.

OPDIVO (nivolumab) is indicated for the treatment of patients with metastatic non-small cell lung cancer (NSCLC) with progression on or after platinum-based chemotherapy. Patients with EGFR or ALK genomic tumor aberrations should have disease progression on FDA-approved therapy for these aberrations prior to receiving OPDIVO.

OPDIVO (nivolumab) is indicated for the treatment of patients with metastatic small cell lung cancer (SCLC) with progression after platinum-based chemotherapy and at least one other line of therapy. This indication is approved under accelerated approval based on overall response rate and duration of response. Continued approval for this indication may be contingent upon verification and description of clinical benefit in confirmatory trials.

OPDIVO (nivolumab) is indicated for the treatment of patients with advanced renal cell carcinoma (RCC) who have received prior anti-angiogenic therapy.

OPDIVO (nivolumab), in combination with YERVOY (ipilimumab), is indicated for the treatment of patients with intermediate or poor risk, previously untreated advanced renal cell carcinoma (RCC).

OPDIVO (nivolumab) is indicated for the treatment of adult patients with classical Hodgkin lymphoma (cHL) that has relapsed or progressed after autologous hematopoietic stem cell transplantation (HSCT) and brentuximab vedotin or after 3 or more lines of systemic therapy that includes autologous HSCT. This indication is approved under accelerated approval based on overall response rate. Continued approval for this indication may be contingent upon verification and description of clinical benefit in confirmatory trials.

OPDIVO (nivolumab) is indicated for the treatment of patients with recurrent or metastatic squamous cell carcinoma of the head and neck (SCCHN) with disease progression on or after platinum-based therapy.

OPDIVO (nivolumab) is indicated for the treatment of patients with locally advanced or metastatic urothelial carcinoma who have disease progression during or following platinum-containing chemotherapy or have disease progression within 12 months of neoadjuvant or adjuvant treatment with platinum-containing chemotherapy. This indication is approved under accelerated approval based on tumor response rate and duration of response. Continued approval for this indication may be contingent upon verification and description of clinical benefit in confirmatory trials.

OPDIVO (nivolumab), as a single agent, is indicated for the treatment of adult and pediatric (12 years and older) patients with microsatellite instability-high (MSI-H) or mismatch repair deficient (dMMR) metastatic colorectal cancer (CRC) that has progressed following treatment with a fluoropyrimidine, oxaliplatin, and irinotecan. This indication is approved under accelerated approval based on overall response rate and duration of response. Continued approval for this indication may be contingent upon verification and description of clinical benefit in confirmatory trials.

OPDIVO (nivolumab), in combination with YERVOY (ipilimumab), is indicated for the treatment of adults and pediatric patients 12 years and older with microsatellite instability-high (MSI-H) or mismatch repair deficient (dMMR) metastatic colorectal cancer (CRC) that has progressed following treatment with a fluoropyrimidine, oxaliplatin, and irinotecan. This indication is approved under accelerated approval based on overall response rate and duration of response. Continued approval for this indication may be contingent upon verification and description of clinical benefit in confirmatory trials.

OPDIVO (nivolumab) is indicated for the treatment of patients with hepatocellular carcinoma (HCC) who have been previously treated with sorafenib. This indication is approved under accelerated approval based on tumor response rate and durability of response. Continued approval for this indication may be contingent upon verification and description of clinical benefit in the confirmatory trials.

OPDIVO (nivolumab) is indicated for the adjuvant treatment of patients with melanoma with involvement of lymph nodes or metastatic disease who have undergone complete resection.

Checkmate Trials and Patient Populations

Checkmate 037previously treated metastatic melanoma; Checkmate 066previously untreated metastatic melanoma; Checkmate 067previously untreated metastatic melanoma, as a single agent or in combination with YERVOY; Checkmate 017second-line treatment of metastatic squamous non-small cell lung cancer; Checkmate 057second-line treatment of metastatic non-squamous non-small cell lung cancer; Checkmate 032small cell lung cancer; Checkmate 025previously treated renal cell carcinoma; Checkmate 214previously untreated renal cell carcinoma, in combination with YERVOY; Checkmate 205/039classical Hodgkin lymphoma; Checkmate 141recurrent or metastatic squamous cell carcinoma of the head and neck; Checkmate 275urothelial carcinoma; Checkmate 142MSI-H or dMMR metastatic colorectal cancer, as a single agent or in combination with YERVOY; Checkmate 040hepatocellular carcinoma; Checkmate 238adjuvant treatment of melanoma.

About the Bristol-Myers Squibb and Ono Pharmaceutical Collaboration

In 2011, through a collaboration agreement with Ono Pharmaceutical Co., Bristol-Myers Squibb expanded its territorial rights to develop and commercialize Opdivo globally, except in Japan, South Korea and Taiwan, where Ono had retained all rights to the compound at the time. On July 23, 2014, Ono and Bristol-Myers Squibb further expanded the companies strategic collaboration agreement to jointly develop and commercialize multiple immunotherapies as single agents and combination regimens for patients with cancer in Japan, South Korea and Taiwan.

About Bristol-Myers Squibb

Bristol-Myers Squibb is a global biopharmaceutical company whose mission is to discover, develop and deliver innovative medicines that help patients prevail over serious diseases. For more information about Bristol-Myers Squibb, visit us at BMS.com or follow us on LinkedIn, Twitter, YouTube, Facebook and Instagram.

SOURCE: Bristol-Myers Squibb

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European Commission Approves Opdivo (nivolumab) Four-Week Dosing Schedule for the Adjuvant Treatment of Adult Patients with Melanoma with Involvement...

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New funding to test personalised treatment for aplastic anaemia – Pharmafield

By daniellenierenberg

Patients with ultra-rare bone marrow disease are set to benefit from 1.15m grant from LifeArc and The Aplastic Anaemia Trust. The grant will support researchers from Kings College London and Kings College Hospital to test a personalised treatment for aplastic anaemia patients who have not responded to available therapies

The grant has been awarded to investigate the potential of a novel type of personalised cellular therapy to reverse the ultra-rare condition aplastic anaemia (AA). The results of this research could give new hope to people living with a severe, life-limiting form of this condition.

The grant will fund a clinical trial to investigate the safety and efficacy of using a patients own T-reg cells to restore the blood-making function of the bone marrow. This follows laboratory-based research from the team of scientists where T-reg cells from a patients own blood were collected, selected for activity and multiplied. In a test tube, these cells prevented the immune system from attacking the patients bone marrow stem cells.

AA is an ultra-rare life-threatening illness caused by the bone marrow failing to make enough of all three types of blood cells red blood cells, white blood cells and platelets. Only around 100-150 people in UK are diagnosed per year, affecting all ages but most commonly people between the ages of 10 to 20 years old and those over the age of 60 years.

People with the illness are at greater risk of infections, bleeding, and can experience extreme fatigue, which leaves them unable to carry out simple daily tasks that most people take for granted. Around one in three patients with severe AA fail to respond to existing drug treatments and the other option a bone marrow transplant is reliant on finding a suitable donor, requires life-long treatment with immunosuppression therapy and is unsuccessful in one in three people.

The trial at Kings College London and Kings College Hospital will run for three years and aims to recruit nine patients. A blood sample of the patients T-reg cells will be extracted, purified and grown in the lab before being given back to them in a higher concentration. As patients with AA are more susceptible to infection, this personalised treatment approach is more likely to avoid the risk of severe infection and inflammation.

Professor Ghulam Mufti, Department of Haematological Medicine at Kings College London and Kings College Hospital, and lead study investigator said: For patients with this ultra-rare disease, were looking for the first time at a personalised medicine approach where their own immune cells could be used to alter their disease. In AA there is a reduction in the number of T-regs and most of the ones that the AA patients do have are non-functional. Weve seen success in the laboratory by selecting and bolstering the number of functional T-reg cells. Now, with funding from LifeArc and the AAT, we can investigate the potential of this approach in treating AA patients who currently have very limited treatment options.

Dr Catriona Crombie, LifeArcs Head of Philanthropic Fund explained why the charity had approved the funding: LifeArc set up the Philanthropic fund to support translational research into rare diseases, where there is less interest from commercial organisations. Patients with AA can have limited treatment options; this opportunity with Kings College London, Kings College Hospital and the AAT has the potential to transform the lives of patients living with a severe form of the disease.

Grazina Berry, Chief Executive of the AAT said: AA can severely impact a persons quality of life. Through AATs close work with Kings College London and Kings College Hospital as a specialist centre of clinical care and research in AA, we identified the project with the most potential to directly benefit patients who are currently at a loss for solutions. We are delighted to have partnered with LifeArc and Kings College London and Kings College Hospital to progress this ground-breaking work, which could potentially enable people living with severe AA to once again lead a normal life.

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Rocket’s gene therapy shows long-term efficacy in rare blood disorder – MedCity News

By daniellenierenberg

A gene therapy for a rare blood disorder has shown what the manufacturer calls the first evidence of long-term improvement associated with the disease.

New York-based Rocket Pharmaceuticals said Thursday that it had presented long-term follow-up data from the Phase I/II study of RP-L102, its gene therapy for Fanconi anemia, at the annual congress of the European Society of Cell and Gene Therapy in Barcelona, Spain. The company said it represented the first evidence of long-term improvement and stabilization in blood counts and durable mosaicism among patients who received the therapy without the use of the conditioning regimens normally used for allogeneic stem cell transplants, which the company calls Process A.

Shares of Rocket were up slightly on the Nasdaq following the news. RP-L102 is a lentiviral vector-based gene therapy. Most other gene therapies in development, and both of the currently marketed ones Spark Therapeutics Luxturna (voretigene neparvovec-rzyl) and Novartis Zolgensma (onasemnogene abeparvovec-xioi) are adeno-associated viral vector-based.

According to the data, representing four of nine patients, there were improved blood counts and long-term bone marrow mitomycin C (MMC) resistance, thereby indicating durable phenotypic correction. The data met or exceeded a 10 percent threshold that the company said the Food and Drug Administration and European Medicines Agency had agreed to for its upcoming Phase II registration study, for which it plans to start enrolling patients by the end of the year.

FA is a rare, genetic bone marrow failure disorder, half of whose patients are diagnosed before the age of 10, while about 10 percent of patients are diagnosed as adults, according to the National Organization for Rare Disorders. It is often associated with progressive deficiency of production of red and white blood cells and platelets in the bone marrow and can eventually lead to certain solid and liquid tumor cancers. It occurs in 1-in-136,000 births and is more common among Ashkenazi Jews, Spanish Roma and black South Africans.

These results indicate the feasibility of engraftment in FA patients using autologous, gene corrected [hematopoietic stem cells] in the absence of any conditioning regimen, said Dr. Juan Bueren, scientific director of the FA gene therapy program at Spains Center for Energy, Environmental and Technological Research, in a statement. This indicates the potential of this therapeutic approach as a definitive hematologic treatment, while avoiding the burdensome side effects associated with allogeneic transplant, including the risk of post-transplant mortality and a substantially higher risk of head and neck cancer.

Photo: virusowy, Getty Images

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Worlds first cell atlas of developing liver created by Cambridge scientists – Cambridge Independent

By daniellenierenberg

The worlds first cell atlas of the human developmental liver has been created, giving fresh insight into how the blood and immune systems develop in the foetus.

A high-resolution resource, it will aid our understanding of normal development and efforts to tackle diseases that can form during development, such as leukaemia and immune disorders.

The cell atlas maps how the cellular landscape within the developing liver changes between the first and second trimesters of pregnancy, including how stem cell from the liver seed other tissues, supporting the high demand for oxygen required for growth.

Researchers from the Wellcome Sanger Institute in Hinxton, the Wellcome MRC Cambridge Stem Cell Institute, University of Cambridge, Newcastle University and their collaborators created the atlas by using single cell technology to analyse 140,000 liver cells and 74,000 skin, kidney and yolk sac cells.

In adults, it is bone marrow that is primarily responsible for the creation of blood and immune cells in a process called haematopoiesis.

In early embryonic life, the yolk sac and liver play a key role in creating these cells, which then seed peripheral tissues such as skin, kidney and ultimately bone marrow.

But until now, the precise process of how blood and immune systems develop in humans has been unknown.

Isolating cells from the developing liver, the researchers were able to identify them by what genes they were expressing and discover what the cells looked like.

They tagged haematopoietic cells in sections of developmental liver using heavy metal markers in order to map them to their location.

Prof Muzlifah Haniffa, a senior author of the study from Newcastle University and senior clinical fellow at the Wellcome Sanger Institute, said: Until now research in this area has been a little bit like blindfolded people studying an elephant, with each describing just a small part of it.

This is the first time that anyone has described the whole picture, how the blood and immune systems develop in such detail. Its been an extraordinary, multidisciplinary effort that is now available as a tool for the whole scientific community.

The scientists learned that during foetal development, mother haematopoietic stem cells stay in the liver. But the liver alone cannot supply enough red blood cells, so the next generation daughter cells called progenitor cells travel to other tissues, maturing in places such as the skin. Thee, they develop into red blood cells to help meet the high demand for oxygen in the developing foetus.

Dr Elisa Laurenti, a senior author from the Wellcome MRC Cambridge Stem Cell Institute and the Department of Haematology at the University of Cambridge, said: We knew that as adults age our immune system changes. This study shows how the livers ability to make blood and immune cells changes in a very short space of time, even between seven and 17 weeks post-conception.

If we can understand what makes the stem cells in the liver so good at making red blood cells, it will have important implications for regenerative medicine.

The study, published in Nature, also involved the mapping of genes involved in immune deficiencies to reveal which cells were expressing them.

It is known that gene mutations can lead to immune disorders such as leukaemia.

A better understanding of the development of healthy liver functions could aid our understanding of how to treat such conditions.

The work is part of the ambitious effort to create the first complete Human Cell Atlas.

Dr Katrina Gold, genetics and molecular sciences portfolio manager at Wellcome, said: Our immune system is vital in helping to protect us from disease, yet we know very little about how immune cells develop and behave in the early embryo. This study is hugely important, laying a critical foundation for future research that could help improve our understanding of disorders linked to the early immune system, such as childhood leukaemias.

The Human Cell Atlas has the potential to transform our understanding of health and disease and were excited to see these first discoveries from our Wellcome-funded multidisciplinary team of scientists.

Dr Sarah Teichmann, a senior author from the Wellcome Sanger Institute, University of Cambridge and co-chair of the Human Cell Atlas organising committee, said: The first comprehensive cellular map of the developmental liver is another milestone for the Human

Cell Atlas initiative.

The data is now freely available for anyone to use and will be a great resource to better understand healthy cellular development and disease-causing genetic mutations.

Read more

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AstraZeneca and Cancer Research UK launch joint Functional Genomics Centre in Cambridge

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BrainStorm Cell Therapeutics to Present at the Dawson James Securities 5th Annual Small Cap Growth Conference – BioSpace

By daniellenierenberg

NEW YORK, Oct. 25, 2019 (GLOBE NEWSWIRE) -- BrainStorm Cell Therapeutics Inc. (NASDAQ: BCLI), a leader in the development of innovative autologous cellular therapies for highly debilitating neurodegenerative diseases, today announced that it will be presenting at the Dawson James Securities 5th Annual Small Cap Growth Conference, being held on October 28-29, 2019 at the Wyndham Grand Hotel in Jupiter, Florida.

Preetam Shah, PhD, MBA, Chief Financial Officer is scheduled to present on Tuesday, October 29th at 3:40 p.m. Eastern Time, in Track 2 - Preserve Ballroom B, with one-on-one meetings to be held throughout the conference.

Chaim Lebovits, President and CEO of BrainStorm said, We are pleased to have the opportunity to have Dr. Shah present at the Dawson James Small Cap Growth Conference. Dr. Shah, joined BrainStorm in September 2019, and we look forward to having him present the Companys growth strategy and future to a wide audience of accreditied investors.

About NurOwnNurOwn (autologous MSC-NTF cells) represent a promising investigational approach to targeting disease pathways important in neurodegenerative disorders. MSC-NTF cells are produced from autologous, bone marrow-derived mesenchymal stem cells (MSCs) that have been expanded and differentiated ex vivo. MSCs are converted into MSC-NTF cells by growing them under patented conditions that induce the cells to secrete high levels of neurotrophic factors. Autologous MSC-NTF cells can effectively deliver multiple NTFs and immunomodulatory cytokines directly to the site of damage to elicit a desired biological effect and ultimately slow or stabilize disease progression. NurOwn is currently being evaluated in a Phase 3 ALS randomized placebo-controlled trial and in a Phase 2 open-label multicenter trial in Progressive MS.

About BrainStorm Cell Therapeutics Inc.BrainStorm Cell Therapeutics Inc. is a leading developer of innovative autologous adult stem cell therapeutics for debilitating neurodegenerative diseases. The Company holds the rights to clinical development and commercialization of the NurOwn Cellular Therapeutic Technology Platform used to produce autologous MSC-NTF cells through an exclusive, worldwide licensing agreement. Autologous MSC-NTF cells have received Orphan Drug status designation from the U.S. Food and Drug Administration (U.S. FDA) and the European Medicines Agency (EMA) in ALS. BrainStorm has fully enrolled the Phase 3 pivotal trial in ALS (NCT03280056), investigating repeat-administration of autologous MSC-NTF cells at six sites in the U.S., supported by a grant from the California Institute for Regenerative Medicine (CIRM CLIN2-0989). The pivotal study is intended to support a BLA filing for U.S. FDA approval of autologous MSC-NTF cells in ALS. BrainStorm received U.S. FDA clearance to initiate a Phase 2 open-label multi-center trial of repeat intrathecal dosing of MSC-NTF cells in Progressive Multiple Sclerosis (NCT03799718) in December 2018 and has been enrolling clinical trial participants since March 2019. For more information, visit the company's website.

Safe-Harbor Statements Statements in this announcement other than historical data and information, including statements regarding future clinical trial enrollment and data, constitute "forward-looking statements" and involve risks and uncertainties that could cause BrainStorm Cell Therapeutics Inc.'s actual results to differ materially from those stated or implied by such forward-looking statements. Terms and phrases such as "may", "should", "would", "could", "will", "expect", "likely", "believe", "plan", "estimate", "predict", "potential", and similar terms and phrases are intended to identify these forward-looking statements. The potential risks and uncertainties include, without limitation, BrainStorms need to raise additional capital, BrainStorms ability to continue as a going concern, regulatory approval of BrainStorms NurOwn treatment candidate, the success of BrainStorms product development programs and research, regulatory and personnel issues, development of a global market for our services, the ability to secure and maintain research institutions to conduct our clinical trials, the ability to generate significant revenue, the ability of BrainStorms NurOwn treatment candidate to achieve broad acceptance as a treatment option for ALS or other neurodegenerative diseases, BrainStorms ability to manufacture and commercialize the NurOwn treatment candidate, obtaining patents that provide meaningful protection, competition and market developments, BrainStorms ability to protect our intellectual property from infringement by third parties, heath reform legislation, demand for our services, currency exchange rates and product liability claims and litigation,; and other factors detailed in BrainStorm's annual report on Form 10-K and quarterly reports on Form 10-Q available at http://www.sec.gov. These factors should be considered carefully, and readers should not place undue reliance on BrainStorm's forward-looking statements. The forward-looking statements contained in this press release are based on the beliefs, expectations and opinions of management as of the date of this press release. We do not assume any obligation to update forward-looking statements to reflect actual results or assumptions if circumstances or management's beliefs, expectations or opinions should change, unless otherwise required by law. Although we believe that the expectations reflected in the forward-looking statements are reasonable, we cannot guarantee future results, levels of activity, performance or achievements.

CONTACTS

Corporate:Uri YablonkaChief Business OfficerBrainStorm Cell Therapeutics Inc.Phone: 646-666-3188uri@brainstorm-cell.com

Media:Sean LeousWestwicke/ICR PRPhone: +1.646.677.1839sean.leous@icrinc.com

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United Therapeutics Receives Permit For Cell Therapy Facility Build-Out At Mayo – Pharmaceutical Online

By daniellenierenberg

The build-out is estimated at $9.5M.

United Therapeutics received a building permit Tuesday for a $9.5M build-out of its cell therapy facility on the second floor of Mayo Clinics Discovery and Innovation Building.

The 21,843-square-foot space will house an automated stem cell manufacturing site, which is one of the first of its kind in the country. The Whiting-Turner Contracting Co. is the project contractor.

The technology, approved by the FDA in 2018, allows the Mayo Clinic Center for Regenerative Medicine to produce cells from the bone marrow of a stem cell donor in large enough quantities to be used as treatments in clinical trials. It allows for the treatment of multiple patients at the same time.

Construction began in 2017 on the $32.4M building at 14221 Kendall Hench Drive. It held a grand opening in August.

The first floor houses three ex-vivo lung perfusion surgical suites used for lung restoration, another form of regenerative medicine. It turns donor lungs, which previously would have previously been unusable, into viable transplant organs. United Therapeutics also collaborates with Mayo Clinic on lung restoration.

The third floor houses the Life Sciences Incubator for biotech entrepreneurs, which offers coworking space, wet labs, business resources, networking and entrepreneurial training.

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Imago BioSciences Preliminary Data from Ongoing Phase 2 Study of IMG-7289 for the Treatment of Myelofibrosis to be Presented at the 61st American…

By daniellenierenberg

SAN FRANCISCO--(BUSINESS WIRE)--Imago BioSciences, Inc., a clinical-stage biotechnology company focused on the treatment of myeloproliferative neoplasms (MPN) and related bone marrow diseases, announced today that preliminary data from its ongoing Phase 2 study of IMG-7289 (bomedemstat) in patients with myelofibrosis (MF) has been selected for an oral presentation at the American Society of Hematology (ASH) Annual Meeting, on December 9 in Orlando, Florida. The abstract will be published November 6, and the presentation will include results updated from those in the abstract.

Kristen Pettit, M.D., assistant professor at the University of Michigan and investigator in the study at the Rogel Cancer Center in Ann Arbor, will present both preliminary results from Phase 2a, as well as initial data from patients from the Phase 2b expansion. The objectives of the study are to evaluate the safety and efficacy of IMG-7289 (bomedemstat) in up to 75 patients at sites in Australia, the US, UK and Europe. In this study, bomedemstat is administered orally once-daily as monotherapy in adult patients with intermediate-2 or high-risk MF resistant to or intolerant of ruxolitinib.

The FDA recently approved a second JAK2 inhibitor but the majority of patients with myelofibrosis will eventually lose the benefit of those treatments, said Dr. Pettit. Patients have an urgent need for new treatments that manage their symptoms. We continue to be encouraged by the bomedemstat data we see in this clinical investigation.

Imago Presentation

Title: A Phase 2 Study of the LSD1 Inhibitor IMG-7289 (bomedemstat) for the Treatment of Myelofibrosis. Session: 634. Myeloproliferative Syndromes: Clinical: Emerging and Novel Targeted TherapiesSession Date: Monday, December 9, 2019Session Time: 7:00 AM - 8:30 AM ESTPresentation Time: 7:45 AM ESTRoom: Orange County Convention Center, W304EFGH

About IMG-7289

IMG-7289 (bomedemstat) is a small molecule discovered by Imago BioSciences that inhibits lysine-specific demethylase 1 (LSD1 or KDM1A). LSD1 is an enzyme regulating both cytokine expression and myeloid differentiation and sustaining self-renewal in malignant hematopoietic stem/progenitor cells. In non-clinical studies, bomedemstat demonstrated robust in vivo efficacy as a single agent and in combination with other therapeutic agents across a range of myeloid malignancy models, including the myeloproliferative neoplasms encompassing myelofibrosis, essential thrombocythemia and polycythemia vera. The U.S. Food and Drug Administration (FDA) has granted Fast Track designation to bomedemstat for the treatment of myelofibrosis. An international Phase 2b study of bomedemstat for the treatment of myelofibrosis remains ongoing (Clinicaltrials.gov NCT03136185). Additional clinical studies in hematologic disorders will begin in 2020.

About Imago BioSciences

Imago BioSciences is a clinical-stage, venture-backed pharmaceutical company whose investors include a fund managed by Blackstone Life Sciences, Frazier Healthcare Partners, Omega Funds, Amgen Ventures, MRL Ventures Fund, HighLight Capital, Pharmaron, Greenspring Associates and Xeraya Capital as well as other corporate and venture investors. Imago is focused on improving the management of malignant and life-threatening diseases of the bone marrow with a focus on the myeloproliferative neoplastic disorders including myelofibrosis, essential thrombocythemia and polycythemia vera. The company is based in California.

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Regenerative Medicine Market Industry Outlook, Growth Prospects and Key Opportunities – Health News Office

By daniellenierenberg

Regenerative Medicine Market: Snapshot

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.

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.

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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.

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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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Plant of the week: Plant thought to boost milk production now used for skin eruptions – Cyprus Mail

By daniellenierenberg

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Stem Cell Therapy Market Latest Report with Forecast to 2025 – Health News Office

By daniellenierenberg

Stem Cell Therapy Market: Snapshot

Of late, there has been an increasing awareness regarding the therapeutic potential of stem cells for management of diseases which is boosting the growth of the stem cell therapy market. The development of advanced genome based cell analysis techniques, identification of new stem cell lines, increasing investments in research and development as well as infrastructure development for the processing and banking of stem cell are encouraging the growth of the global stem cell therapy market.

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One of the key factors boosting the growth of this market is the limitations of traditional organ transplantation such as the risk of infection, rejection, and immunosuppression risk. Another drawback of conventional organ transplantation is that doctors have to depend on organ donors completely. All these issues can be eliminated, by the application of stem cell therapy. Another factor which is helping the growth in this market is the growing pipeline and development of drugs for emerging applications. Increased research studies aiming to widen the scope of stem cell will also fuel the growth of the market. Scientists are constantly engaged in trying to find out novel methods for creating human stem cells in response to the growing demand for stem cell production to be used for disease management.

It is estimated that the dermatology application will contribute significantly the growth of the global stem cell therapy market. This is because stem cell therapy can help decrease the after effects of general treatments for burns such as infections, scars, and adhesion. The increasing number of patients suffering from diabetes and growing cases of trauma surgery will fuel the adoption of stem cell therapy in the dermatology segment.

Global Stem Cell Therapy Market: Overview

Also called regenerative medicine, stem cell therapy encourages the reparative response of damaged, diseased, or dysfunctional tissue via the use of stem cells and their derivatives. Replacing the practice of organ transplantations, stem cell therapies have eliminated the dependence on availability of donors. Bone marrow transplant is perhaps the most commonly employed stem cell therapy.

Osteoarthritis, cerebral palsy, heart failure, multiple sclerosis and even hearing loss could be treated using stem cell therapies. Doctors have successfully performed stem cell transplants that significantly aid patients fight cancers such as leukemia and other blood-related diseases.

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Global Stem Cell Therapy Market: Key Trends

The key factors influencing the growth of the global stem cell therapy market are increasing funds in the development of new stem lines, the advent of advanced genomic procedures used in stem cell analysis, and greater emphasis on human embryonic stem cells. As the traditional organ transplantations are associated with limitations such as infection, rejection, and immunosuppression along with high reliance on organ donors, the demand for stem cell therapy is likely to soar. The growing deployment of stem cells in the treatment of wounds and damaged skin, scarring, and grafts is another prominent catalyst of the market.

On the contrary, inadequate infrastructural facilities coupled with ethical issues related to embryonic stem cells might impede the growth of the market. However, the ongoing research for the manipulation of stem cells from cord blood cells, bone marrow, and skin for the treatment of ailments including cardiovascular and diabetes will open up new doors for the advancement of the market.

Global Stem Cell Therapy Market: Market Potential

A number of new studies, research projects, and development of novel therapies have come forth in the global market for stem cell therapy. Several of these treatments are in the pipeline, while many others have received approvals by regulatory bodies.

In March 2017, Belgian biotech company TiGenix announced that its cardiac stem cell therapy, AlloCSC-01 has successfully reached its phase I/II with positive results. Subsequently, it has been approved by the U.S. FDA. If this therapy is well- received by the market, nearly 1.9 million AMI patients could be treated through this stem cell therapy.

Another significant development is the granting of a patent to Israel-based Kadimastem Ltd. for its novel stem-cell based technology to be used in the treatment of multiple sclerosis (MS) and other similar conditions of the nervous system. The companys technology used for producing supporting cells in the central nervous system, taken from human stem cells such as myelin-producing cells is also covered in the patent.

Global Stem Cell Therapy Market: Regional Outlook

The global market for stem cell therapy can be segmented into Asia Pacific, North America, Latin America, Europe, and the Middle East and Africa. North America emerged as the leading regional market, triggered by the rising incidence of chronic health conditions and government support. Europe also displays significant growth potential, as the benefits of this therapy are increasingly acknowledged.

Asia Pacific is slated for maximum growth, thanks to the massive patient pool, bulk of investments in stem cell therapy projects, and the increasing recognition of growth opportunities in countries such as China, Japan, and India by the leading market players.

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Global Stem Cell Therapy Market: Competitive Analysis

Several firms are adopting strategies such as mergers and acquisitions, collaborations, and partnerships, apart from product development with a view to attain a strong foothold in the global market for stem cell therapy.

Some of the major companies operating in the global market for stem cell therapy are RTI Surgical, Inc., MEDIPOST Co., Ltd., Osiris Therapeutics, Inc., NuVasive, Inc., Pharmicell Co., Ltd., Anterogen Co., Ltd., JCR Pharmaceuticals Co., Ltd., and Holostem Terapie Avanzate S.r.l.

About TMR Research:

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

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ReNeuron Presents Positive Data at the 27th Annual Congress of the European Society of Gene and Cell Therapy on Lead Cell Line – PRNewswire

By daniellenierenberg

PENCOED, Wales, Oct. 23, 2019 /PRNewswire/ --ReNeuron Group plc (AIM: RENE), a UK-based global leader in the development of cell-based therapeutics, is pleased to announce that new data relating to its CTX stem cell platform will be presented today at the 27th Annual Congress of the European Society of Gene and Cell Therapy(ESGCT), a leading scientific conference taking place this week in Barcelona, Spain.

Dr. Steve Pells, Principal Investigator at ReNeuron, will present new data showing the phenotypic stability and scalability of a mesenchymal stem cell line derived from the Company's proprietary, conditionally immortalized, human neural stem cell line (CTX) following re-programming to a pluripotent state.

The Company has previously presented data demonstrating that its CTX stem cell line, currently undergoing clinical evaluation for the treatment of stroke disability, can be successfully and rapidly re-programmed to an embryonic stem cell-like state enabling differentiation into any cell type. In essence, this means that the Company is able to take its neural stem cells back to being stem cells that can be made to develop into any other type of stem cell including bone, nerve, muscle and skin.

The new data being presented today show for the first time that these CTX-iPSCs (induced pluripotent stem cells) can indeed be differentiated along different cell lineages to generate, for example, mesenchymal stem cell lines. Further, the mesenchymal stem cell lines generated can be grown at scale by virtue of the Company's conditional immortalization technology, enabling the efficient production of clinical-grade cell therapy candidates.

These results are particularly encouraging as they demonstrate that CTX, a well-characterized, clinical-grade neural stem cell line, could be used to produce new conditionally immortalized allogeneic (i.e. non-donor-specific) cell lines from any of the three primary germ cell layers which form during embryonic development. ReNeuron is currently exploring the potential to develop further new allogeneic cell lines as potential therapeutic agents in diseases of unmet medical need for subsequent licensing to third parties.

Further information about the conference may be found at:

https://www.esgct.eu/congress/barcelona-2019.aspx

"The data we are presenting at the ESGCT Annual Congress represent a significant advance in the use of cell re-programming to generate new allogeneic cell lines as potential therapeutic candidates," commented Dr. Randolph Corteling, Head of Research at ReNeuron. "Importantly, the maintenance of the immortalization technology within these new cell lines may allow for the scaled production of 'off the shelf' allogeneic stem cells, such as haematopoietic stem cells as a potential alternative approach to those cancer immunotherapies currently in development that rely on the use of the patient's own T-cells."

About ReNeuronReNeuron is a global leader in cell-based therapeutics, harnessing its unique stem cell technologies to develop 'off the shelf' stem cell treatments, without the need for immunosuppressive drugs. The Company's lead clinical-stage candidates are in development for the blindness-causing disease, retinitis pigmentosa, and for disability as a result of stroke. ReNeuron is also advancing its proprietary exosome technology platform as a potential delivery system for drugs that would otherwise be unable to reach their site of action. ReNeuron's shares are traded on the London AIM market under the symbol RENE.L. For further information visit http://www.reneuron.com.

ENQUIRIES:

ReNeuron

+44 (0)20 3819 8400

Olav Helleb, Chief Executive Officer

Michael Hunt, Chief Financial Officer

Buchanan (UK)

+44 (0) 20 7466 5000

Mark Court, Tilly Abraham

Argot Partners (US)

Stephanie Marks, Claudia Styslinger

Stifel Nicolaus Europe Limited

+1 212 600 1902

+44 (0) 20 7710 7600

Jonathan Senior, Stewart Wallace, Ben Maddison (NOMAD and Joint Broker)

N+1 Singer

+44 (0) 20 7496 3000

Aubrey Powell, James Moat, Mia Gardner

(Joint Broker)

SOURCE ReNeuron Group plc

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ReNeuron Presents Positive Data at the 27th Annual Congress of the European Society of Gene and Cell Therapy on Lead Cell Line - PRNewswire

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What is aplastic anemia? Symptoms, causes, and treatment – Medical News Today

By daniellenierenberg

Aplastic anemia is a medical condition that damages stem cells in a person's bone marrow. These cells are responsible for making red blood cells, white blood cells, and platelets, which are vital to human health.

Doctors believe various conditions can cause aplastic anemia, while the disease itself ranges in severity from mild to life threatening.

Medical advancements mean that aplastic anemia is more treatable than ever. In this article, learn more about this rare medical disorder.

When a person has aplastic anemia, their bone marrow does not create the blood cells it needs. This causes them to feel ill and increases their risk of getting infections.

Doctors also call aplastic anemia bone marrow failure.

Doctors do not know exactly how many people in the United States have aplastic anemia.

According to the National Organization for Rare Disorders (NORD), doctors diagnose approximately 500 to 1,000 cases every year. It is most common in older children, teenagers, and young adults.

Researchers believe that most cases of aplastic anemia are due to the immune system attacking healthy bone marrow cells, according to NORD.

Doctors have also identified some of the possible causes of this immune system response, including:

However, doctors usually cannot pinpoint the underlying cause in most aplastic anemia cases.

When the cause is unknown, doctors refer to the condition as idiopathic aplastic anemia.

Symptoms of aplastic anemia include:

These symptoms may be severe. Some people may have heart-related symptoms, such as chest pain.

A doctor will start by asking about a person's symptoms and their medical history.

They will usually use a blood test known as a complete blood count (CBC) to evaluate a person's red blood cells, white blood cells, and platelets. If all three of these components are low, a person has pancytopenia.

A doctor may also recommend taking a sample of bone marrow, which comes from a person's pelvis or hip.

A laboratory technician will examine the bone marrow. If a person has aplastic anemia, the bone marrow will not have typical stem cells.

Aplastic anemia can also have similar symptoms as other medical conditions, such as myelodysplastic syndrome and paroxysmal nocturnal hemoglobinuria. A doctor will want to rule out these conditions.

Sometimes, a person with other medical conditions can develop aplastic anemia. These conditions include:

If a person has these conditions, a doctor will recognize that they are more likely to get aplastic anemia.

Doctors usually have two goals when treating aplastic anemia. The first is to reduce the person's symptoms, and the second is to stimulate the bone marrow to create new blood cells.

People with aplastic anemia can receive blood and platelet transfusions to correct low blood counts.

A doctor may also prescribe antibiotics as a person needs white blood cells to fight infections. Ideally, these drugs will prevent infections until a person can build more new white blood cells.

Doctors usually recommend a bone marrow transplant to stimulate new cell growth in the long term.

For this, a doctor may first prescribe chemotherapy medications to kill off abnormal bone marrow cells that are affecting a person's overall bone marrow function.

Next, a doctor performs a bone marrow transplant by injecting the bone marrow into a patient's body.

Ideally, the individual will receive bone marrow from a close family member. However, even a sibling donor is only a match in 2030% of cases.

People can also receive bone marrow from someone who is not related to them if doctors can find a compatible donor.

Some people cannot tolerate bone marrow transplants, especially older adults, and those having difficulty recovering from chemotherapy. Others may not be able to find a donor that matches their bone marrow. In these instances, a doctor can prescribe immunosuppressive therapy.

Immunosuppressive medicines suppress the immune system, which ideally stops it from attacking healthy bone marrow cells. Examples of these medications include antithymocyte globulin (ATG) and cyclosporine.

According to NORD, an estimated one-third of people with aplastic anemia do not respond to immunosuppressive drugs.

If this is the case, doctors may consider other treatments, such as hematopoietic stem cell transplantation and a medication called eltrombopag (Promacta).

Those with aplastic anemia may face complications due to their disease as well as their treatment.

Sometimes, a person's body rejects a bone marrow transplant. Doctors call this graft-versus-host disease or GVHD.

GVHD can make a person feel extremely ill and can cause symptoms that include:

According to 2015 research, about 15% of aplastic anemia patients who receive immunosuppressive therapy will develop myelodysplastic syndromes or acute myeloid leukemia.

These conditions can develop years after a person's initial diagnosis.

Some people do not respond to aplastic anemia treatments. When this is the case, they are more vulnerable to infections that can be life threatening.

The outlook for a person with aplastic anemia depends on many factors, including:

A doctor will discuss a person's treatment outlook when considering the various therapies.

Aplastic anemia damages stem cells in a person's bone marrow. The bone marrow makes red blood cells, white blood cells, and platelets, which are all essential for the body.

A person with aplastic anemia may experience severe anemia symptoms. Treatment may include chemotherapy, stem cell transplants, and immunotherapy.

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A Discussion With Jennifer Delgado on Life After Cancer and Weathering the Storm – Thrive Global

By daniellenierenberg

JenniferDelgado grew up in St. Louis, Missouri. She attended Webster University, whereshe received her Bachelor of Arts in Media Communications. She then went to MississippiState University, where she received a Bachelor of Science in Geosciences witha concentration in Broadcast Meteorology.

In 2006,Jennifer Delgado worked as a morning and noon meteorologist for WTVR-TV inRichmond, Virginia. Then in 2008, she began working at CNN International inAtlanta, Georgia, as their primary meteorologist, as well as a fill-inmeteorologist on all CNN networks. In 2010, she won a Peabody Award for CNNscoverage on the Deepwater Horizon oil spill in the Gulf of Mexico.

In 2013,Delgado was hired as a co-host of AMHQ (Americas Morning Headquarters) at TheWeather Channel. She anchored continuous coverage of breaking news and weatherevents, including live interviews with state and local officials, experts andresidents. She was also their fill-in co-host of Wake-Up with Al.

JenniferDelgado began freelancing as a meteorologist/anchor for WXIA-TV in 2017. Shepresented weathercasts every six minutes during a two-hour morning newscast andproduced weathercasts for radio, web, and the 24-hour weather channel.

Two yearsago, Jennifer Delgado was diagnosed with blood cancer. She underwent treatmentand received a bone marrow/stem cell transplant. Since the transplant, she hasbeen receiving treatment at the Emory Winship Cancer Institute and advocatingfor cancer awareness and more bone marrow donors.

No one is ever prepared tohear the words, you have cancer. It literally blew up my world. I had to stopworking because beating cancer became my full-time job. I knew something waswrong for months based on my symptoms. I was tiredall the time, my bones were aching, had migraines, vertigo andconfusion. Dealing with any illness is stressful, especially if you arent ableto work. Some people say cancer changed their life for the better; however, Idont want to credit cancer for anything positive. It was a wake-up call. Lifeis short, and you have to enjoy every moment.

I immediately went into adeep depression. I hid and only shared the news with my close friends andfamily. I was trying to hide the awful chemo port in my chest and made excuses for my appearanceand fatigue. It was very stressful. I think anyone dealing with a seriousmedical condition should reach out to people going through the same battle. I got some amazing tips from fellow blood cancersurvivors on Instagram and Facebook support groups. I have formed many closebonds and when I am feeling down they completely understand. Cancer patients caneasily go through their savings in a short amount of time. I was lucky to haveamazing health insurance but not everyone is that fortunate. There is a lot of grant money out there forpeople struggling financially. The Leukemia & Lymphoma Society is anamazing organization and helps patients with everything from financial help,information on clinical trials etc.

If you are strong enough, Isay its important to be your own health advocate. You know your body best. Ialso suggest if you have one, reaching out to a friend or family member whoworks in medicine (nurse, PA, doctor) to be your medical advocate. The advocatecan come to your appointments or even join a conference call during yourappointments when you need help understanding your treatment options. I waslucky to have both my mom and one of my best friends to help me interpreteverything. Never be afraid to ask your doctor questions, and dont forgetabout the physicians assistant, who often has more availability.

I was going back and forthto the doctor for nearly a year, and they keep dismissing my symptoms. At onepoint, one doctor told me to take probiotics. I finally decided it was time toget a second opinion when I was having trouble walking. Luckily, I found Dr.Drew Freilich, whom I credit with saving my life. He recognized that mysymptoms were severe and insisted that I needed an MRI. Thats how theydiscovered I had a blood cancer that was attacking my bones. I could havebecome disabled if I had waited longer to get help. If you know something iswrong, you have to be persistent about getting answers.

I know it sounds clich, butmy friends, family, and neighbors. They all took excellent care of me. Theydrove me to the hospital for chemotherapy or bone marrow biopsies. My friends were great and woulddrop by to bring me food or help clean up myhouse.

I know it may sound sillybut my dogs really helped keep my spirits up. Quite often, it was just me and the dogs and duringisolation. I truly believe that pets are healing, and studies show that havingone improves your mental health. There were several weeks when I had to be awayfrom my dogs because my immune system was too weak. I was lucky enough to havegreat friends watch my fur babies. I even tried to convince my friends to driveby Emory Hospital so that I could see them.

I would say you have to bepositive. It seems like its a long way away, and you wonder at times whetheror not everything you did is going to pay off when you finally get toremission. So, I think you have to be positive because you get very paranoid. Ibelieve positive thinking can be healing and improve your health. Keeping inmind that everyones journey is different, I think its also important to see apsychologist or therapist. Sometimes its easier to share your real concernswith a stranger. We always try and put on a brave face for family and friends.

Aftereverything, I felt like I had to give back to the cancer community and EmoryWinship Cancer Center. I got my dogs certified to be Happy Tails therapydogs, and now we visit patients battling cancer while they are getting chemo.Its amazing and emotional all at the same time. Many times, patients will say,your puppy made my day.

Iam also trying to raise awareness for the need of more bone marrow donors.Right now, the majority of donors come from Europe. It would be awesome if morepeople would register to be a bone marrow donor. Its a simple swab test. Ithink its a small price to pay, considering more than 170,000 people arediagnosed with blood cancer every year. Check out Be The Match or The Leukemia& Lymphoma Society.

I am not going to sugarcoatit, staying motivated is extremely challenging and a daily battle. I thinkevery cancer survivor questions, why did this happen to me? Is it gone? How longwill I stay in remission? It can be quite depressing, but you have to live forthe day and stick to a routine. I try to remind myself that there is a reasonwhy I am still alive, and I want to give back to others who are struggling.

Everything. I had months ofchemo to get my cancer level down enough to collect my stem cells for thetransplant. I wondered constantly, will I be in remission? And then once Iwas in remission, how long will I stay in remission before I relapse? Whenyoure dealing with blood cancers, most have no cure. So, theres always thatchance of relapse, and youre always worrying about it.

I did six rounds of chemobefore I was even ready to get a transplant. The stem cell transplant wassomething I was dreading because of the high dose of chemotherapy and losing myhair. That can be a very difficult experience, especially for women. After thosesix rounds, they collected my stem cells, which is not a fun process. Then theyprepped me, and I had the transplant.

After, I was in isolation atthe hospital for three weeks. Then I went home, and I was still under isolationfor another 100+ days. I felt like I was ready to lose my mind. During thistime, your white blood cells are regenerating, which means you dont have animmune system, and you suffer from extreme fatigue and pain. Walking up a shortflight of stairs would wipe me out. I couldnt eat salads, fruits, basicallyanything raw. When I left the house, Id have to wear a mask to protect myimmune system. I really hated that because everyone would stare and pretty muchknew I had cancer.

However, to put a positivespin on it, because of my time in isolation at home, I really felt my creativejuices start to flow. I began brainstorming and thinking of a lot of differentthings because life is short, and the cancer was my wake-up call.

So, my best advice duringthat period is to make a reading list and binge-watch shows on Netflix. I readthe Game of Thrones series. Iliterally had a calendar counting down to 100 days. Thats also the time whenyour hair finally starts to grow back!

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Dad who called on the public for stem cells for his son is up for an award – Chronicle Live

By daniellenierenberg

Doting dad Stephen Armstrong knows all too well what its like to be waiting for a transplant donor.

His son Jacob was diagnosed at two years old with a rare blood disorder and called on the public to donate stem cells to find him a match.

He then set out to raise as much money as he could for the blood cancer charity Anthony Nolan in a bid to save lives.

And now, after raising over 20,000, his efforts have been recognised by the charity as they honour him at an awards ceremony held at the Tower of London in November.

Stephen, 33, of Wallsend, North Tyneside, has been shortlisted for the Individual Fundraiser of the Year Award at the Anthony Nolan Supporter Awards 2019.

The prestigious awards are back for their seventh year and will recognise the outstanding achievements of the volunteers, fundraisers and campaigners who help the pioneering blood cancer charity save lives.

Stephens nomination is in recognition of his incredible fundraising efforts, leading a group of 19 friends and family in a series of physical challenges, all while his son was undergoing treatment.

After Jacob was diagnosed in 2017, Stephen set out to find a matching stem cell donor, as well as raise awareness of the need for more people on the register.

From here Jacobs Journey was born, and through a series of challenges including the Great North Run, the Great North Bike Ride and climbing Ben Nevis, Stephen has helped raise over 20,000 for the charity.

Jacob, who turns four in November, and his family have been told he does not need a transplant, but Stephen and his family want to continue raising awareness for others who arent so lucky.

When Jacob was diagnosed, we were stunned by how few people were on the stem cell donor register. I couldnt believe how a stranger in the street could potentially save our little boys life, said Stephen, an assistant manager for Dixons Carphone.

Anthony Nolan helped us massively while Jacob was ill and provided a great support network. I feel very proud to be nominated for an award, and I hope it can help build even more awareness for the cause.

Stephen and mum Kirsty, 28, received the news in December 2017 that Jacob was suffering from bone marrow failure, which affects between 30 and 40 children each year.

They first became concerned about his health when they went abroad to get married and noticed he was getting bruised easily. The marks would take weeks to disappear, so when the couple returned to the UK they decided to take Jacob to the doctor for a check up.

After tests he was then diagnosed and was treated at the Great North Childrens Hospital in Newcastle, where he received two blood transfusions.

Stephen added: When we were told Jacob did not need the transplant it was the best news in the world, a total relief. He still needs check ups every three months and his consultants is keeping an eye on him. There are so few people on the stem cell donor register so I just wanted to create a ripple effect with awareness and get more people on it.

Stephen, who has raised a further 8,000 for other smaller charities, has also been nominated for our Chronicle Champions Award in the Champion Fundraiser category.

Henny Braund, Chief Executive of Anthony Nolan, said: It is remarkable to see how many people support our work to find a match for those in need of a stem cell transplant. Without them, none of our lifesaving work would be possible.

Stephen has shown tremendous commitment to Anthony Nolan by continually going above and beyond in his fundraising efforts.

Henny added: We want to extend a huge congratulations to Stephen and look forward to celebrating with him at the awards.

The awards take place on Thursday 28 November at the Tower of London, and all winners will be revealed on the night.

Anthony Nolan is the charity that finds matching stem cell donors for people with blood cancer and blood disorders and gives them a second chance at life. It also carries out ground-breaking research to save more lives and provide information and support to patients after a stem cell transplant, through its clinical nurse specialists and psychologists, who help guide patients through their recovery.

To see the full shortlist, and find out more about the charity visit http://www.anthonynolan.org/awards

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BrainStorm Cell Therapeutics’ President and CEO to be Featured as Keynote Speaker at Cell Series UK 2019 – GlobeNewswire

By daniellenierenberg

NEW YORK, Oct. 24, 2019 (GLOBE NEWSWIRE) -- BrainStorm Cell Therapeutics Inc. (NASDAQ: BCLI), a leader in the development of innovative autologous cellular therapies for highly debilitating neurodegenerative diseases, today announced, Chaim Lebovits, President and CEO, will serve as a Keynote Speaker at Cell Series UK.Cell Series UK, will be held October 29-30, 2019, at London Novotel West, London, UK. The Conference, organized by Oxford Global, is one of the foremost events in Europe focused on regenerative medicine and cellular innovation.

Ralph Kern MD, MHSc, Chief Operating and Chief Medical Officer of Brainstorm, who will also participate at Cell Series UK stated, We are very pleased to have Chaim Lebovits presenting at this prestigious conference where global leaders in stem cell and regenerative medicine will have the opportunity to learn more about NurOwn and the critical research being conducted by the Company. Mr. Lebovits Keynote Address, Stem Cell Therapeutic Approaches For ALS, will be presented to leading members of the scientific and business community including potential partners and investors.

About NurOwnNurOwn (autologous MSC-NTF cells) represent a promising investigational approach to targeting disease pathways important in neurodegenerative disorders. MSC-NTF cells are produced from autologous, bone marrow-derived mesenchymal stem cells (MSCs) that have been expanded and differentiated ex vivo. MSCs are converted into MSC-NTF cells by growing them under patented conditions that induce the cells to secrete high levels of neurotrophic factors. Autologous MSC-NTF cells can effectively deliver multiple NTFs and immunomodulatory cytokines directly to the site of damage to elicit a desired biological effect and ultimately slow or stabilize disease progression. NurOwn is currently being evaluated in a Phase 3 ALS randomized placebo-controlled trial and in a Phase 2 open-label multicenter trial in Progressive MS.

AboutBrainStorm Cell Therapeutics Inc. BrainStorm Cell Therapeutics Inc. is a leading developer of innovative autologous adult stem cell therapeutics for debilitating neurodegenerative diseases. The Company holds the rights to clinical development and commercialization of the NurOwn Cellular Therapeutic Technology Platform used to produce autologous MSC-NTF cells through an exclusive, worldwide licensing agreement. Autologous MSC-NTF cells have received Orphan Drug status designation from the U.S. Food and Drug Administration (U.S. FDA) and the European Medicines Agency (EMA) in ALS. BrainStorm has fully enrolled the Phase 3 pivotal trial in ALS (NCT03280056), investigating repeat-administration of autologous MSC-NTF cells at six sites in the U.S., supported by a grant from the California Institute for Regenerative Medicine (CIRM CLIN2-0989). The pivotal study is intended to support a BLA filing for U.S. FDA approval of autologous MSC-NTF cells in ALS. BrainStorm received U.S. FDA clearance to initiate a Phase 2 open-label multi-center trial of repeat intrathecal dosing of MSC-NTF cells in Progressive Multiple Sclerosis (NCT03799718) in December 2018 and has been enrolling clinical trial participants since March 2019. For more information, visit the company's website.

Safe-Harbor Statements Statements in this announcement other than historical data and information, including statements regarding future clinical trial enrollment and data, constitute "forward-looking statements" and involve risks and uncertainties that could causeBrainStorm Cell Therapeutics Inc.'sactual results to differ materially from those stated or implied by such forward-looking statements. Terms and phrases such as "may", "should", "would", "could", "will", "expect", "likely", "believe", "plan", "estimate", "predict", "potential", and similar terms and phrases are intended to identify these forward-looking statements. The potential risks and uncertainties include, without limitation, BrainStorms need to raise additional capital, BrainStorms ability to continue as a going concern, regulatory approval of BrainStorms NurOwn treatment candidate, the success of BrainStorms product development programs and research, regulatory and personnel issues, development of a global market for our services, the ability to secure and maintain research institutions to conduct our clinical trials, the ability to generate significant revenue, the ability of BrainStorms NurOwn treatment candidate to achieve broad acceptance as a treatment option for ALS or other neurodegenerative diseases, BrainStorms ability to manufacture and commercialize the NurOwn treatment candidate, obtaining patents that provide meaningful protection, competition and market developments, BrainStorms ability to protect our intellectual property from infringement by third parties, heath reform legislation, demand for our services, currency exchange rates and product liability claims and litigation,; and other factors detailed in BrainStorm's annual report on Form 10-K and quarterly reports on Form 10-Q available athttp://www.sec.gov. These factors should be considered carefully, and readers should not place undue reliance on BrainStorm's forward-looking statements. The forward-looking statements contained in this press release are based on the beliefs, expectations and opinions of management as of the date of this press release. We do not assume any obligation to update forward-looking statements to reflect actual results or assumptions if circumstances or management's beliefs, expectations or opinions should change, unless otherwise required by law. Although we believe that the expectations reflected in the forward-looking statements are reasonable, we cannot guarantee future results, levels of activity, performance or achievements.

CONTACTS

Corporate:Uri YablonkaChief Business OfficerBrainStorm Cell Therapeutics Inc.Phone: 646-666-3188uri@brainstorm-cell.com

Media:Sean LeousWestwicke/ICR PR Phone: +1.646.677.1839sean.leous@icrinc.com

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Ewing sarcoma: Causes, symptoms, and treatment – Medical News Today

By daniellenierenberg

Ewing sarcoma is a form of bone cancer that usually affects children and adolescents.

Ewing sarcoma can be very aggressive, but the cells tend to respond well to radiation therapy. Ideally, doctors will diagnose the cancer before it has spread.

According to the National Library of Medicine, an estimated 250 children in the United States receive a diagnosis of Ewing sarcoma each year.

In this article, learn more about Ewing sarcoma, including the symptoms, causes, and treatment options.

Ewing sarcoma is a rare type of cancer that usually starts in the bone typically in the pelvis, chest wall, or legs and occurs mostly in children and teenagers.

Dr. James Ewing first described Ewing sarcoma in 1921. He identified cancer cells that looked different than the cells in osteosarcoma, another type of bone tumor.

Doctors may also refer to this cancer type as the Ewing family of tumors. These tumors have distinct cells that usually respond well to radiation treatments.

This rare cancer type accounts for just 1.5% of all childhood cancers and is the second most common bone cancer type in childhood, after osteosarcoma.

Although researchers are unsure why some people develop Ewing sarcoma, they have identified mutations in certain genes in the tumor cells that cause this cancer.

These include the EWSR1 gene on chromosome 22 and the FLI1 gene on chromosome 11.

These genetic mutations occur spontaneously during a person's lifetime. The individual does not inherit them from a family member.

There are no known risk factors for Ewing sarcoma that make one person more likely than another to develop this cancer.

Ewing sarcoma can cause the following symptoms:

An estimated 87% of Ewing sarcomas are sarcoma of the bone. The other types form in the soft tissues, such as cartilage, that surround the bones.

Ewing sarcoma can spread to other areas of the body. Doctors call this process metastasis.

Areas that the cancer can spread to include other bones, bone marrow, and the lungs.

Doctors categorize Ewing sarcoma as one of three types according to its extent:

Before diagnosing Ewing sarcoma, a doctor will take a person's full medical history and ask them what symptoms they are having, when they noticed them, and what makes them better or worse. They will also perform a thorough physical exam, focusing on the area of concern.

A doctor will usually recommend an imaging study to view the bone or bones. These tests include:

If it looks as though a tumor may be present, a doctor will perform a biopsy, which involves taking a sample of bone tissue. They will send this tissue to a laboratory, where a specialist called a pathologist will check it for the presence of cancerous cells.

A doctor may also order blood tests, a bone marrow biopsy, and other scans when necessary. These tests can help determine whether the cancer has spread to other locations.

A doctor will work with a team of cancer specialists and surgeons to recommend and implement particular treatments.

Possible treatments for Ewing sarcoma include:

Doctors may use a combination of treatments depending on how far the cancer has spread and a person's overall health.

Research into new treatments for Ewing sarcoma is ongoing. Some doctors may inform their patients about clinical trials, which help test new treatments.

Possible complications of Ewing sarcoma include:

If Ewing sarcoma has spread to other areas of the body, it can be life threatening. For this reason, it is vital for a doctor to evaluate any symptoms as quickly as possible.

According to the American Academy of Orthopaedic Surgeons, an estimated two-thirds of people in whom cancer has not spread to other areas of the body survive at least 5 years after their diagnosis.

People who are more likely to have positive outcomes include those who have:

The likelihood of successful treatment is different for every individual, so people should speak to a doctor about their or their child's expected outlook.

Ewing sarcoma is a rare type of cancer that mostly affects young people.

When doctors detect it early enough, the condition usually responds well to treatment.

Anyone who notices signs or symptoms of Ewing sarcoma, such as a bone that breaks for no apparent reason or a painful lump or swelling, should speak to a doctor.

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Cannabis use and the immune system: white blood cell count – Health Europa

By daniellenierenberg

The study, published in the Journal of Cannabis Research, looked at a number of studies covering cannabis use and the immune system, noting that little is known on circulating white blood cell counts and cannabis use.

The researchers looked at the National Health and Nutrition Examination Survey (20052016), a survey designed to be nationally representative of United States non-institutionalised population, and found that there was a modest association between heavy cannabis use and higher white blood cell count but that neither former nor occasional cannabis use was associated with total or differential WBC counts.

White blood cells are the cells in our body that function mainly as immune cells originating in the bone marrow.

Today, it is known that cigarette smoking generates several chemicals that are implicated in oxidative stress pathways and systemic inflammation and elevated white blood cell count in tobacco cigarette smokers have been well documented, whereas tobacco abstinence is associated with sustained decrease in white blood cell count.

The study highlights how cannabis is able to mediate its effects through the cannabinoid-1 (CB1) and cannabinoid-2 (CB2) receptors.

CB2 receptors can be found in numerous parts of the body related to the immune system, including bone marrow, thymus, tonsils and spleen. CB1 receptors are present in the central nervous system, and at lower levels in the immune system.

The effects of cannabinoids on hematopoiesis, and immune cell proliferation using animal and cell based models has been widely demonstrated and a number of studies have examined the association of cannabis use and white blood cell counts in human immunodeficiency virus (HIV).

The studies have shown a higher white blood cell count in HIV positive men who used cannabis.

Last year a study discovered certain cannabinoids that enhance the immunogenicity of tumour cells, rendering them more susceptible to recognition by the immune system. This discovery is important because the leading class of new cancer fighting agents, termed checkpoint inhibitors, activates the immune system to destroy cancer cells.

Enhancing recognition of cancer cells with cannabinoids may greatly improve the efficacy of this drug class. The Pascal study was the first to identify a mechanism in which cannabinoids may provide a direct benefit in immunotherapy.

When looking at white blood cell counts the study noted that: Several of the important study limitations merit attention. The observational nature of the study constrained causal inferences. Even though NHANES collects blood and urine specimens, drug testing is not conducted, and cannabis use was self-reported which may lead to non-differential misclassification bias. There was no available information on the route of administration of cannabis (smoking, ingestion, etc.) or cannabis preparation/potency.

In addition, the study is based on fairly recent NHANES surveys (200516) which might be more representative of the increasing cannabis potency compared to NHANES III (19881994) surveys.

A number of laboratory studies have reported suppression of immune responses with cannabinoid administration, and some epidemiological studies found lower levels of inflammatory biomarkers such as fibrinogen, C-reactive protein and interleukin-6 in adult cannabis users.

The study also noted that the reported anti-inflammatory effects of cannabis were greatly attenuated when body weight is controlled for and suggests that the inverse cannabis-body weight association might explain the lower levels of circulating inflammatory biomarkers in adult cannabis users.

The study highlights that these alterations of immune responses by cannabis use might be associated with increased susceptibility to infections and hence the higher white blood cell count, however, it notes that it is possible that the elevated white blood cell count and suboptimal health status contributed to cannabis use rather than cannabis use caused suboptimal health.

The study states: This hypothesis, though, cannot be tested as NHANES does not collect information on cannabis use motives. Another potential mechanism can be through the effect of cannabinoids on stem cells. Pre-clinical studies suggest that cannabinoids stimulate hematopoiesis and hence this stimulation to bone marrow tissues can be associated with increased circulating white blood cell count in cannabis users.

Positive associations between heavy cannabis use, and total white blood cell and neutrophil counts were detected. Clinicians should consider heavy cannabis use in patients presenting with elevated white blood cell count.

Research on cannabis use and the immune system is lacking and the study suggests further research is needed to understand the immune related effects of different modes of cannabis use.

The study noted: Research on heavy cannabis use and cardiovascular health is needed as systemic inflammation, increased cardiovascular risk and increased mortality risk have been all associated with white blood cell elevation within the normal physiologic range.

Studies with repeated measures are needed to study immunomodulatory changes in cannabis users, and whether the mode of cannabis use can differentially affect immune responses.

Additional research is needed to understand the immune related effects of different modes of cannabis use and to elucidate the role of proinflammatory chemicals generated from smoking cannabis.

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BrainStorm Cell Therapeutics to Present at the Dawson James Securities 5th Annual Small Cap Growth Conference – GlobeNewswire

By daniellenierenberg

NEW YORK, Oct. 25, 2019 (GLOBE NEWSWIRE) -- BrainStorm Cell Therapeutics Inc. (NASDAQ: BCLI), a leader in the development of innovative autologous cellular therapies for highly debilitating neurodegenerative diseases, today announced that it will be presenting at the Dawson James Securities 5th Annual Small Cap Growth Conference, being held on October 28-29, 2019 at the Wyndham Grand Hotel in Jupiter, Florida.

Preetam Shah, PhD, MBA, Chief Financial Officer is scheduled to present on Tuesday, October 29th at 3:40 p.m. Eastern Time, in Track 2 - Preserve Ballroom B, with one-on-one meetings to be held throughout the conference.

Chaim Lebovits, President and CEO of BrainStorm said, We are pleased to have the opportunity to have Dr. Shah present at the Dawson James Small Cap Growth Conference. Dr. Shah, joined BrainStorm in September 2019, and we look forward to having him present the Companys growth strategy and future to a wide audience of accreditied investors.

About NurOwn NurOwn (autologous MSC-NTF cells) represent a promising investigational approach to targeting disease pathways important in neurodegenerative disorders. MSC-NTF cells are produced from autologous, bone marrow-derived mesenchymal stem cells (MSCs) that have been expanded and differentiated ex vivo. MSCs are converted into MSC-NTF cells by growing them under patented conditions that induce the cells to secrete high levels of neurotrophic factors. Autologous MSC-NTF cells can effectively deliver multiple NTFs and immunomodulatory cytokines directly to the site of damage to elicit a desired biological effect and ultimately slow or stabilize disease progression. NurOwn is currently being evaluated in a Phase 3 ALS randomized placebo-controlled trial and in a Phase 2 open-label multicenter trial in Progressive MS.

AboutBrainStorm Cell Therapeutics Inc.BrainStorm Cell Therapeutics Inc. is a leading developer of innovative autologous adult stem cell therapeutics for debilitating neurodegenerative diseases. The Company holds the rights to clinical development and commercialization of the NurOwn Cellular Therapeutic Technology Platform used to produce autologous MSC-NTF cells through an exclusive, worldwide licensing agreement. Autologous MSC-NTF cells have received Orphan Drug status designation from the U.S. Food and Drug Administration (U.S. FDA) and the European Medicines Agency (EMA) in ALS. BrainStorm has fully enrolled the Phase 3 pivotal trial in ALS (NCT03280056), investigating repeat-administration of autologous MSC-NTF cells at six sites in the U.S., supported by a grant from the California Institute for Regenerative Medicine (CIRM CLIN2-0989). The pivotal study is intended to support a BLA filing for U.S. FDA approval of autologous MSC-NTF cells in ALS. BrainStorm received U.S. FDA clearance to initiate a Phase 2 open-label multi-center trial of repeat intrathecal dosing of MSC-NTF cells in Progressive Multiple Sclerosis (NCT03799718) in December 2018 and has been enrolling clinical trial participants since March 2019. For more information, visit the company's website.

Safe-Harbor Statements Statements in this announcement other than historical data and information, including statements regarding future clinical trial enrollment and data, constitute "forward-looking statements" and involve risks and uncertainties that could causeBrainStorm Cell Therapeutics Inc.'sactual results to differ materially from those stated or implied by such forward-looking statements. Terms and phrases such as "may", "should", "would", "could", "will", "expect", "likely", "believe", "plan", "estimate", "predict", "potential", and similar terms and phrases are intended to identify these forward-looking statements. The potential risks and uncertainties include, without limitation, BrainStorms need to raise additional capital, BrainStorms ability to continue as a going concern, regulatory approval of BrainStorms NurOwn treatment candidate, the success of BrainStorms product development programs and research, regulatory and personnel issues, development of a global market for our services, the ability to secure and maintain research institutions to conduct our clinical trials, the ability to generate significant revenue, the ability of BrainStorms NurOwn treatment candidate to achieve broad acceptance as a treatment option for ALS or other neurodegenerative diseases, BrainStorms ability to manufacture and commercialize the NurOwn treatment candidate, obtaining patents that provide meaningful protection, competition and market developments, BrainStorms ability to protect our intellectual property from infringement by third parties, heath reform legislation, demand for our services, currency exchange rates and product liability claims and litigation,; and other factors detailed in BrainStorm's annual report on Form 10-K and quarterly reports on Form 10-Q available athttp://www.sec.gov. These factors should be considered carefully, and readers should not place undue reliance on BrainStorm's forward-looking statements. The forward-looking statements contained in this press release are based on the beliefs, expectations and opinions of management as of the date of this press release. We do not assume any obligation to update forward-looking statements to reflect actual results or assumptions if circumstances or management's beliefs, expectations or opinions should change, unless otherwise required by law. Although we believe that the expectations reflected in the forward-looking statements are reasonable, we cannot guarantee future results, levels of activity, performance or achievements.

CONTACTS

Corporate:Uri YablonkaChief Business OfficerBrainStorm Cell Therapeutics Inc.Phone: 646-666-3188uri@brainstorm-cell.com

Media:Sean LeousWestwicke/ICR PR Phone: +1.646.677.1839sean.leous@icrinc.com

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Baby dies from AML, the same cancer his identical twin has – TODAY

By daniellenierenberg

Nicole Duhaney couldnt believe her luck when she learned she was having identical twins.

I felt like had won the lottery, Duhaney, 21, told TODAY Parents. "It was the happiest surprise."

After being pregnant for what felt like an eternity, Duhaney and her boyfriend, Niles Liburd, finally welcomed sons Emre pronounced Em-ree" and Elijah on Dec. 23, 2018.

Our life seemed perfect, the mom from Huddersfield, England, said.

But just three weeks later, Elijah developed a lump on his cheek, and both babies developed colds they couldnt seem to kick. Suddenly, they were projectile vomiting.

Trending stories,celebrity news and all the best of TODAY.

At just 4 months old, Emre and Elijah were both diagnosed with childhood acute myeloid leukemia. The disease, also known as AML, is a type of cancer in which the bone marrow makes a large number of abnormal white blood cells, according to the National Cancer Institute.

Myeloid leukemia is the second most common pediatric blood cancer, but it's still relatively rare. In the United States there are roughly 500 children a year between the ages of 0 and 14 that are diagnosed with AML, according to Dr. Richard Aplenc, a physician-scientist within the Division of Oncology at Children's Hospital of Philadelphia.

Aplenc said it is not surprising that Emre and Elijah were diagnosed at the same time.

"If the twins are identical, then they share the same placenta and the same blood supply, so that leukemic cell goes to the other twin," Aplenc explained. "We know that if leukemia is diagnosed before a year or so, there is 100 percent chance that the other twin will develop it."

Tragically, 10-month-old Elijah passed away at home in Tuesday. Doctors allowed Emre, who is currently undergoing chemotherapy, to leave the hospital so he could say goodbye to his brother.

The love they had for each other was just unbreakable, Duhaney noted. "They didn't like to be separated."

She recalled how Elijah pulled his brother in for a kiss after a recent stem cell transplant.

Elijah was beautiful. Every person he met, he touched their heart," Duhaney said. There were times when I cried and he rubbed my tears away. I wish God took me instead of him.

As Duhaney and Liburd, 26, make funeral arrangements a GoFundMe has been set up to help the couple with expenses they are finding comfort in knowing Elijah took his final breaths at home.

He spent six months of his life in a hospital, Duhaney told TODAY Parents. His final night he was where he wanted to be, with the people who loved him him the most.

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The global nerve repair and regeneration market size is expected to reach USD 17.8 billion by 2026 registering a CAGR of 10.7% – Yahoo Finance

By daniellenierenberg

Nerve Repair And Regeneration Market Size, Share & Trends Analysis Report By Surgery (Nerve Grafting, Neurorrhaphy), By Product (Biomaterials Neurostimulation & Neuromodulation Device), And Segment Forecasts, 2019 - 2026

New York, Oct. 24, 2019 (GLOBE NEWSWIRE) -- Reportlinker.com announces the release of the report "Nerve Repair And Regeneration Market Size, Share & Trends Analysis Report By Surgery, By Product And Segment Forecasts, 2019 - 2026" - https://www.reportlinker.com/p05807210/?utm_source=GNW

The global nerve repair and regeneration market size is expected to reach USD 17.8 billion by 2026 registering a CAGR of 10.7%. Demand for neurological disorder therapies owing to increasing incidence and rising awareness about the same will drive the market. Moreover, government funding and reimbursement policies and uninterrupted technological advances are also projected to help boost the market growth.

In January 2016, the EU Horizon 2020 program funded a research project Autostem, launched by the NUI Galways Regenerative Medicine Institute (REMEDI), costing about USD 6.73 million. This project was to develop a robotic stem cell production factory, having an edge over the old traditional techniques. This technique offers prospects of new therapies for a range of diseases, such as cancers, diabetes, and arthritis. Increased R&D and investments by key companies in emerging countries are also driving the market growth. In July 2018, the Stem Cells Australia (SCA) received USD 3 million for stem cell research from the Medical Research Future Fund (MRFF).

In addition, government and private funded organizations are conducting clinical trials to develop a safe and effective therapy for different neurological disorders, such as Stem Cells in Umbilical Blood Infusion for Cerebral Palsy (Phase II) and usage of Polyethylene glycol (PEG) drug (Phase I) to promote axonal fusion technique to repair peripheral nerve injuries in humans.

Furthermore, in October 2017, Stryker Corporation acquired VEXIM, a France-based medical device company.VEXIMs portfolio is complementary to Strykers Interventional Spine (IVS) portfolio.

With this acquisition, Stryker will strengthen its distribution channels in Eastern Europe, Middle East, Asia, and Latin America. In January 2018, Boston Scientific Corporation received U.S. FDA approval for the first and only Spectra WaveWriter spinal cord stimulator system. This system is used for paresthesia-based therapy.

Further key findings from the study suggest: In 2018, neuromodulation and neurostimulation devices segment led the market due to increased cases of Central Nervous System (CNS) disorders and awareness about mental disorders and available treatments Biomaterials is anticipated to expand at the fastest CAGR during the forecast period due to technological advancements and development of biodegradable polymers that can help enhance spinal stabilization, healing of fractures, and reduce hospitalization North America led the market in 2018 owing to technological advancements and advent of new devices. Government initiatives and funding and increased cases of injured CNS, such as injuries to the spinal cord and brain, were some of the major reasons responsible for the regions growth Asia Pacific is expected to be the fastest-growing market during the forecast period. Growing geriatric population, technological advancements, and many unmet medical needs are some of the factors driving the regions growth In February 2016, Indian scientists working for Revita Life Sciences were approved to conduct clinical trials in 20 clinically dead patients to bring specific parts of their CNS back to life Combination of therapies including cocktail of peptides, nerve stimulation techniques, injecting the brain with stem cells and other techniques that were successful in bringing patients out of coma were to be used Existing medical devices were combined with regenerative biological medicines with an objective to achieve such a complex initiative Some of the key companies include Boston Scientific, Inc.; Stryker Corporation; St. Jude Medical, Inc.; Medtronic plc.; Baxter International, Inc.; AxoGen, Inc.; Polyganics B.V.; Integra; Cyberonics, Inc.; and Lifesciences CorporationRead the full report: https://www.reportlinker.com/p05807210/?utm_source=GNW

About ReportlinkerReportLinker is an award-winning market research solution. Reportlinker finds and organizes the latest industry data so you get all the market research you need - instantly, in one place.

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