A quick pivot turns an infectious disease class into timely education – Penn: Office of University Communications

Biologist David Roos studied influenza as a grad student, and he typically kicks off his advanced course on infectious disease biology with a focus on that virus. Thats how he began this semester, too, with plans to also cover aspects of HIV and malaria.

Then COVID-19 emerged.

A small silver lining to this dark cloud of the pandemic is that its not a bad semester to be taking, or teaching, a class on infectious disease biology and public health, says Roos, the E. Otis Kendall Professor of Biology in Penns School of Arts and Sciences.

In the midst of the campus shutdown that compelled faculty to move their courses online, Roos has also shifted the content of his course, Molecular Mechanisms of Infectious Disease Biology, to encompass what is playing out all around us. Because the approach of the course emphasizes how to think rather than how to memorize biological pathways and proteins, says Roos, the scientific approaches students have already learned allow them to consider strategies for discovering, characterizing, and fighting this new disease.

We had already spent considerable time this semester discussing the cell biology, molecular genetics, evolution, and epidemiology of influenza, including the 1918 pandemic and subsequent outbreaks, says Roos, as well as the emergence, spread, and management of HIV.

From the first weeks of the semester in January, Roos began sharing information with his students about the novel coronavirus in class discussions and suggesting readings and online resources related to the escalating outbreak.

Even before COVID-19 was really on everyones radar, he says, we had been challenging ourselves with questions like, Imagine there is a new disease outbreak. What do you look for? What data do you need? How could you obtain this information?

Roos has a wealth of experience to inform his teachings, including three decades of laboratory research on the parasites that cause malaria and other diseases and, more recently, the responsibility for supporting genomic datasets for hundreds of parasite and fungal pathogens. Several of his former trainees have gone on to careers in public health, including at the U.S. Centers for Disease Control and Prevention and other government labs, and in the pharmaceutical and biotech sectors. He also directs teams managing a constantly expanding database related to viral and parasite disease (VEuPathDB.org, the Eukaryotic Pathogen, Host & Vector Genomics Resource) and clinical and epidemiological datasets (ClinEpiDB.org).

Transitioning to video conference-style teaching has not posed a major barrier for Roos, whose database group is dispersed around the globe and relies on such technology on a daily basis.

Within several days of the Universitys announcement that Penn would be moving classes online for the remainder of the spring semester, Roos sent a note to his students offering an optional online meeting during spring break to smooth out any technological difficulties, to check in to see how they were faring, and to discuss some of the science behind the COVID-19 pandemic.

Most of our readings this semester focus on primary research literature, so I shared articles on the evolution of coronaviruses than can cause the common cold, previous epidemics like SARS and MERS, and recent preprints on the SARS-CoV-2 virus responsible for COVID-19, he says.

Recognizing the personal toll of the pandemic, and with many students now home with their families, Roos also invited questions from family members about coronavirus biology, the ongoing pandemic, and public health responses. Im not a practicing physician, so I cannot answer medical questions, says Roos, but I wanted to do my best to address whatever concerns they may have.

Abhinav Suri, who graduated from Penn last year with a double major in biology and computer science, is now taking the course remotely from his home in San Antonio as part of the post-baccalaureate Pre-Health Specialized Studies Program. While getting a firsthand view of the pandemic responsehis parents are both physiciansSuri, who plans to go to medical school, also appreciates how what hes been learning has given him a deeper understanding of the scientific approaches to fighting the novel coronavirus.

The research papers we read and the methodologies we learned in the first part of the class when we were dealing with influenza are coming full circle, says Suri. Now were talking about things like, How can scientists use these methodologies to make something along the lines of a vaccine or an antiviral for this disease? Its making our discussions even more relevant to whats going on in the world today.

As the pandemic continuesand classes do, tooRoos plans to work in additional readings, discussions, and probably exam questions relating to COVID-19.

The point I make at the beginning of this class is that in most university courses we do a pretty good job of teaching students the stuff we know, says Roos. But we dont always do a great job of teaching students how scientists figured all that stuff out. With this brand new virus now spreading throughout the world, its an important time to learn about the how.

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A quick pivot turns an infectious disease class into timely education - Penn: Office of University Communications

Evotec Expands into Gene Therapy – Associated Press

HAMBURG, GERMANY / ACCESSWIRE / April 6, 2020 / Evotec SE (Frankfurt Stock Exchange: EVT, MDAX/TecDAX, ISIN: DE0005664809) today announced that the Company has established a dedicated site for research and development of gene therapy-based projects: Evotec Gene Therapy (Evotec GT) which will start operations with a strong team of gene therapy experts at an R&D site in Orth/Donau, Austria.

Evotec GT is an integral part of Evotecs integrated drug discovery platform and complements the Companys existing expertise. This strategic addition marks an important step towards Evotecs long-term vision of becoming a fully modality-agnostic drug discovery and development partnership company.

The team in Austria have worked together for many years and applied their research within gene therapy to different gene therapy-related technologies as well as various indications. The scientists have deep expertise in vectorology and virology as well as disease insights, in particular in hemophilia, hematology, metabolic and muscle diseases. Evotec GTs fully operational site will enable the Company to perform dedicated services in the field of gene therapy along the value chain of its customers from Pharma and biotech as well as foundations and academia.

Dr Werner Lanthaler, Chief Executive Officer of Evotec, commented: We are delighted to initiate our new gene therapy platform and step into this field, which perfectly fits into our business strategy going forward. In recent years, precision medicines based on cell and gene therapies have emerged and are predicted to grow significantly. Gene therapy is a promising approach in the development of genetic medicines for patients, especially for inherited and rare diseases. Finding the best candidate agnostic of modality for any given disease biology will ultimately bring forward the best medicine for patients.

Dr Friedrich Scheiflinger, EVP Head of Gene Therapy at Evotec, said: We are proud to join the growing Evotec team to add the highly promising modality of gene therapy to drug discovery projects. Our team has performed research in the field across different technologies and therapeutic areas for many years and we look forward to leveraging our expertise as part of the truly impressive, modality-agnostic Evotec platform.

About Gene Therapy

Gene therapy is a technique that modifies a persons genes to treat or prevent disease by introduction, removal or editing of genetic material, specifically DNA or RNA, within the cells of a patient. Gene therapies aim to replace a disease-causing gene with a healthy copy, inactivate a disease-causing gene, introduce a new or modified gene or interfere on an expression-regulatory level to support treatment of a disease. Through this modification of gene expression, gene therapies can increase levels of disease-fighting proteins or reduce levels of disease-causing proteins within the cell. Since direct insertion of genes into cells is still very inefficient, gene delivery is facilitated by vehicles which are most often of viral origin. The structure of these viral vectors has been modified to accommodate for the therapeutic gene and to render the vector non-infectious. Depending on the indication and the affected tissue, the technique can be either applied ex-vivo or in-vivo, i.e. with or without removing the cells from the patients body for the therapeutic procedure.

According to various analyst reports, the gene therapy market was valued at approx. $ 500 m in 2018 and the market is expected to reach > $ 5 bn by 2025 with an impressive CAGR of ~34% over the forecast period. Furthermore, rapid and significant progress in the molecular and cellular biology arena, driven by technological advancements in genomics and gene-editing tools, has contributed to an increasing number of approved gene therapies as well as an expanding pipeline. According to the Alliance for Regenerative Medicine (ARM), by the end of the second quarter of 2019, there were more than 700 clinical trials ongoing globally.[1]

ABOUT EVOTEC SE Evotec is a drug discovery alliance and development partnership company focused on rapidly progressing innovative product approaches with leading pharmaceutical and biotechnology companies, academics, patient advocacy groups and venture capitalists. We operate worldwide and our more than 3,000 employees provide the highest quality stand-alone and integrated drug discovery and development solutions. We cover all activities from target-to-clinic to meet the industrys need for innovation and efficiency in drug discovery and development (EVT Execute). The Company has established a unique position by assembling top-class scientific experts and integrating state-of-the-art technologies as well as substantial experience and expertise in key therapeutic areas including neuronal diseases, diabetes and complications of diabetes, pain and inflammation, oncology, infectious diseases, respiratory diseases, fibrosis, rare diseases and womens health. On this basis, Evotec has built a broad and deep pipeline of approx. 100 co-owned product opportunities at clinical, pre-clinical and discovery stages (EVT Innovate). Evotec has established multiple long-term alliances with partners including Bayer, Boehringer Ingelheim, Bristol-Myers Squibb, CHDI, Novartis, Novo Nordisk, Pfizer, Sanofi, Takeda, UCB and others. For additional information please go to http://www.evotec.com and follow us on Twitter @Evotec.

FORWARD LOOKING STATEMENTS Information set forth in this press release contains forward-looking statements, which involve a number of risks and uncertainties. The forward-looking statements contained herein represent the judgement of Evotec as of the date of this press release. Such forward-looking statements are neither promises nor guarantees, but are subject to a variety of risks and uncertainties, many of which are beyond our control, and which could cause actual results to differ materially from those contemplated in these forward-looking statements. We expressly disclaim any obligation or undertaking to release publicly any updates or revisions to any such statements to reflect any change in our expectations or any change in events, conditions or circumstances on which any such statement is based.

Contact Evotec SE:

Gabriele Hansen, SVP Corporate Communications, Marketing & Investor Relations, Phone: +49.(0)40.56081-255,

[1] Sources: https://www.grandviewresearch.com/industry-analysis/gene-therapy-market; https://www.marketwatch.com/press-release/at-339-cagr-gene-therapy-market-size-to-surpass-usd-518-billion-by-2025-2019-09-16; https://www.prnewswire.com/news-releases/gene-therapy-market-to-garner-6-21-bn-globally-by-2026-at-34-8-cagr-says-allied-market-research-300975194.html

SOURCE: Evotec AG via EQS Newswire

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Evotec Expands into Gene Therapy - Associated Press

UK Prime Minister Boris Johnson in ICU With Virus – NBC Connecticut

British Prime Minister Boris Johnson has been moved to the intensive care unit of a London hospital after his coronavirus symptoms worsened.

Johnsons office says Johnson is conscious and does not require ventilation at the moment. Johnson was admitted to St. Thomas Hospital late Sunday, 10 days after he was diagnosed with COVID-19.

Johnson has asked Foreign Secretary Dominic Raab to deputize for him.

Full coverage of the COVID-19 outbreak and how it impacts you

Johnsons office said the initial admission to an undisclosed London hospital came on the advice of his doctor and was not an emergency. The prime minister's Downing St. office said it was a precautionary step and Johnson remains in charge of the government.

Johnson, 55, has been quarantined in his Downing St. residence since being diagnosed with COVID-19 on March 26 the first known head of government to fall ill with the virus.

British Prime Minister Boris Johnson announced on social media that he is under quarantine after contracting coronavirus. Johnson says his symptoms are mild and he will continue to work from home.

Johnson has continued to preside at daily meetings on Britains response to the outbreak and has released several video messages during his 10 days in isolation.

In a message Friday, a flushed and red-eyed Johnson said he said he was feeling better but still had a fever.

The virus causes mild to moderate symptoms in most people, but for some, especially older adults and the infirm, it can cause pneumonia and lead to death.

U.S. President Donald Trump offered encouragement to Johnson as he opened a White House briefing on the pandemic Sunday. All Americans are praying for him, Trump said.

Johnson has received medical advice remotely during his illness, but going to a hospital means doctors can see him in person.

Dr. Rupert Beale, a group leader of the cell biology of infection lab at the Francis Crick Institute for biomedical studies, said doctors would likely be monitoring important vital signs such as oxygen saturations, as well as performing blood tests, assessing Johnsons organ function and possibly performing a CT scan on his chest to assess his lungs.

Foreign Secretary Dominic Raab, who has been designated to take over if Johnson becomes incapacitated, is set to lead the government's coronavirus meeting Monday.

Johnsons fiancee, Carrie Symonds, 32, revealed Saturday that she spent a week in bed with coronavirus symptoms, though she wasn't tested. Symonds, who is pregnant, said she was now on the mend. She has not been staying with the prime minister in Downing St. since his diagnosis.

The government said Sunday that almost 48,000 people have been confirmed to have COVID-19 in the U.K., and 4,934 have died.

Johnson replaced Theresa May as Conservative prime minister in July and won a resounding election victory in December on a promise to complete Britain's exit from the European Union. But Brexit, which became official Jan. 31, has been overshadowed by the coronavirus pandemic sweeping the globe.

Johnson's government was slower than those in some European countries to impose restrictions on daily life in response to the pandemic, leading his critics to accuse him of complacency. He imposed an effective nationwide lockdown March 23, but his government remains under huge pressure to boost the country's number of hospital beds and ventilators and to expand testing for the virus.

London has been the center of the outbreak in the U.K., and politicians and civil servants have been hit hard. Several other members of Johnsons government have also tested positive for the virus, including Health Secretary Matt Hancock and junior Health Minister Nadine Dorries. Both have recovered.

News of Johnsons admission to hospital came an hour after Queen Elizabeth II made a rare televised address to the nation, in which she urged Britons to remain united and resolute in the fight against the virus.

We will succeed and that success will belong to every one of us, the 93-year-old monarch said, drawing parallels to the struggle of World War II.

We should take comfort that while we may have more still to endure, better days will return: we will be with our friends again; we will be with our families again; we will meet again," she said.

___

Follow AP news coverage of the coronavirus pandemic at http://apnews.com/VirusOutbreak and https://apnews.com/UnderstandingtheOutbreak

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Columbia University Cancer Researchers in the Fight Against COVID-19 – Columbia University Irving Medical Center

Since the novel coronavirus was identified in China in December 2019, its rapid spread has turned into a global pandemic. The highly contagious COVID-19 has ripped through communities and challenged medical resources, particularly in epicenters like New York City, where, as of April 1, the reported cases of those infected with COVID-19 have soared to surpass 45,000 in the five boroughs alone.

The surge in positive cases have summoned clinical communities to the front lines of the pandemic.And while governmentsstate and federalhave ordered residents to shelter-in-place, to social distance or self-quarantine, the scientific community has mobilized and converged its diverse areas of expertise to problem-solve a cure for the virus in real time.

Researchers from the Herbert Irving Comprehensive Cancer Center (HICCC) at NewYork-Presbyterian/Columbia are swiftly transforming their discoveries and innovation in cancer to address COVID-19. HICCC members, whose expertise range from computational biology and bioinformatics to molecular biology, genomics, and pathology, are leveraging tools and technologies developed and validated for cancer to study COVID-19.

Recognizing the enormous impact that COVID-19 already has and will continue to have on our global society, we have rapidly reorganized our cancer center to refocus some of our research efforts on COVID-19, says Anil K. Rustgi, MD, director of the Herbert Irving Comprehensive Cancer Center. Our members come from six different schools and more than 35 departments across Columbia University. Their expertise across disciplines provides expanded perspectives in the war against this virus.

There has been an incredible outpouring of rapid response by academic researchers to aid in a cure or uncover the fundamental biology driving the novel coronavirus.

This is an unprecedented time in history, when scientists from all fields who are not necessarily experts in virology are forming teams with exceptional complementary talent to address one of the greatest challenges our society has every faced, says Andrea Califano, Dr, who co-leads the Precision Oncology and System Biology research program at the HICCC and chair of Columbias Department of Systems Biology. The current situation creates a unique and unprecedented commitment to a shared goal without institutional, geographic, or expertise boundaries.

Many scientists at CUIMC are in the research foreground of the pandemic, including cancer researchers at the HICCC. Several projects are just getting off the ground or are still being formulated, but the researchers are working on an aggressive timeline to meet the pressing needs to overcome this global crisis.

This is an opportunity for us to show our value as scientists to society in a very clear and concrete way, says Alejandro Chavez, MD, PhD, a member of the HICCCs Precision Oncology and Systems Biology program and assistant professor of pathology and cell biology at Columbia. It has been a terrible time for all of us but also its been a joyous time seeing how people are coming together, especially the scientific community. The level of mobilization is unprecedented. There is such a dissemination of ideas right now.

Below is a sample of COVID-19 research currently underway at the HICCC.

Coronavirus genomes are comprised of single-stranded RNA, and the novel coronavirus, SARS-CoV-2 that leads to COVID-19, is part of a family of viruses that include SARS and MERStwo devastating infectious diseases that surfaced in the last 20 years. Xuebing Wu, PhD, a member of the HICCC's Precision Oncology and Systems Biology research program, is an expert in RNA research and studies RNA-centric gene regulation in mammalian cells. He is currently working on developing a CRISPR-based approach for killing the SARS-CoV-2 virus, and potentially also the infected surrounding cells.

CRISPR is a natural bacterial immune system that scientists have begun to use as a revolutionary tool to alter genomes. Dr. Wu and his collaborators have already developed a similar CRISPR-based technique to eliminate cancer cells, and intend to apply this method to target COVID-19. The hope is that this research can aid in the speedier development of a therapeutic, not just for this novel strain but for future variants of SARs-CoV-2. Dr. Wu,who holds appointments in the departments of medicine and systems biology, and is working on this project with infectious disease expert Dr. Ian Lipkin and the Center for Infection and Immunity at Columbia.

Barry Honig, PhD, also a member of the HICCCs Precision Oncology and Systems Biology research program and a professor of systems biology, and Sagi Shapira, PhD, an assistant professor of systems biology, have developed a computational method, termed P-HIPSTer, that leverages the supercomputing infrastructure at CUIMC to identify key interactions between all human infecting viruses and the cells that they infect (the work was recently published in Cell). The pair are now applying the same method to uncover how SARS-CoV-2 causes disease differently from other coronaviruses. They have already made interesting observations about how the virus manipulates the immune system and have some hints as to why the disease progresses the way it does. They are also using the information to identify FDA-approved drugs that may be repurposed and immediately deployed, and are investigating vaccine design.

Andrea Califano, Dr, who co-leads the HICCCs Precision Oncology and Systems Biology research program, is a pioneer in the field of system biology and founding chair of Columbias Department of Systems Biology. He has developed sophisticated algorithms to identify key master regulator proteins in tumors and enable the prioritization of FDA-approved drugs that could treat and kill cancer in various tumor types. He is now applying these validated methods to study the biology of coronaviruses and their interactions with host cells.

Dr. Califano and his collaborators have analyzed gene expression profile data generated from SARS-CoV infected and mock-infected epithelial cells to identify the proteins responsible for maintaining the transcriptional state of infection response. (SARS-CoV is closely related to the current novel coronavirus SARS-CoV-2 and produces a similar response in patients.) Theyve applied the computational method, OncoTreat, developed by the Califano lab, and have already identified several promising drugs to potentially treat COVID-19, including drugs used to treat rheumatoid arthritis as well as several kinase and transport protein inhibitors. Dr. Califano and his team are hoping to obtain access to novel SARS-CoV-2-infected cells to repeat their analyses and to screen a larger number of drugs beyond those selected for oncology.

Dr. Califano also is collaborating with Dr. Sagi Shapira to generate RNA sequencing-based biomarkers from nasal swab tests that can predict the need for hospitalization and intensive care. The researchers will analyze patient cell samples from swab tests by using rapid-turnaround, next-generation sequencing methods that capture both the infection status and complex immune response profiles. Using Dr. Califanos computational methods, the researchers hope to identify master regulator-based markers to predict clinical outcomes based on the transcriptional profiles of easily accessible samples. The hope is to be able to rapidly inform doctors how to best triage COVID-19 patients upon diagnosis.

Raul Rabadan, PhD, co-leader of the HICCCs Cancer Genomics and Epigenomics research program and professor of systems biology at Columbia, is an expert in uncovering patterns of evolution in biological systemsin particular, RNA viruses and cancer. He has developed computational methods to study cancer genetics and to elucidate biological understanding of how tumors evolve over time, in such complex cancers as pancreatic ductal adenocarcinoma and glioblastoma. Dr. Rabadan and his collaborators are now applying these validated methods to assess individuals predispositions to COVID-19. Why do some patients who test positive for COVID-19 experience severe symptoms and complicationsin some cases their illness results in deathwhereas other COVID positive patients do not?

Dr. Rabadan and his group are taking a deep dive into the genetics of COVID-19, with the hope of identifying biomarkers of COVID-19 severity and that can lend to immediate management of patients at risk, including cancer patients. They are already leveraging their cancer genomics expertise and algorithms to analyze the UK Biobank data (comprising 500,000 individuals, with genetic and clinical data) and patient data from Columbia University Irving Medical Center and NewYork-Presbyterian Hospital, as well as transcriptomic data from lung aspirates and patient electronic health records. This effort will help us to better understand the SARS-CoV-2 mechanism of action, says Dr. Rabadan, and to define risk groups with greater precision, in particular those with other conditions, such as cancer.

Several members at the HICCC have been directly involved in establishing the COVID-19 Biobank (COB), a new resource for researchers to combat the challenges of the COVID-19 pandemic. Announced March 30 and in partnership with NewYork-Presbyterian Hospital, the new biobank at Columbia University Irving Medical Center will be crucial in collecting, processing, storing, and disseminating biological specimens, biomarkers, and clinical and related data for researchers at Columbia and beyond. Columbias Department of Pathology and Cell Biology has established a COVID-19 clinical pathological lab and intend to facilitate access to residual clinical samples. The primary focus will be to enroll COVID-19 positive patients but will also aim to enroll all patients who have been tested for the novel coronavirus at CUIMC and NewYork-Presbyterian to cast a wide net of samples.

The launch of this collaborative initiative was led by HICCC members Drs. Muredach Reilly, Wendy Chung, Kevin Roth, and David Goldstein, along with Drs. George Hripcsak, Krzysztof Kiryluk, Soumitra Sengupta, Steve Spitalnik, and Eldad Hod.

Studies in the enzyme protease has led to breakthrough antiviral therapies, most notably to treat HIV and viral hepatitis. For the past two years, Alejandro Chavez, MD, PhD, a member of the HICCCs Precision Oncology and Systems Biology program and assistant professor of cell biology and pathology, has worked with his lab on innovative methods to rapidly identify protease inhibitors to viruses. Their method enables them to investigate multiple viral proteases at once, including those from over a dozen different coronaviruses, to identify inhibitors to block them. By looking at multiple coronavirus protease at a time their group hopes to identify a novel pan-coronavirus protease inhibitor. While the need is pressing for a treatment that works against COVID-19, Dr. Chavez stresses, This is the third time weve seen a coronavirus strain. We know this will continue to happen, and its time once and for all we identify a compound that has broad activity against coronavirus, not just COVID-19.

Dr. Chavez is working as part of a collaborative effort at Columbia to identify antiviral drugs for novel coronavirus, led by David Ho, MD, founding scientific director of the Aaron Diamond AIDS Research Center and professor of medicine at Columbia. HICCC member Brent Stockwell, PhD, a member of the HICCCs Precision Oncology and Systems Biology program and professor of biological sciences and chemistry, also is working with Dr. Ho and others on SARS-CoV-2 viral protease inhibitors with the goal to develop a cure.

We have a chance of doing something significant hereand we are going to try, adds Dr. Chavez. A lot of us are actively working on the problem. There are tough days ahead, but we are going to get there. It is just a matter of time.

-Melanie A. Farmer

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Columbia University Cancer Researchers in the Fight Against COVID-19 - Columbia University Irving Medical Center

Luciferase Assay Kits Market 2020 Is Expected To Gain Massive Growth. Major Players are New England Biolabs, Takara Bio Inc., www.elabscience.com,…

Luciferase Assay Kits Market

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Luciferase Assay Kits Market 2020 Is Expected To Gain Massive Growth. Major Players are New England Biolabs, Takara Bio Inc., http://www.elabscience.com,...

Coronavirus deaths of two nurses lead to calls for more protection – The Guardian

Demands for better protection for healthcare workers are growing following the death of two nurses in their 30s, while another frontline worker quit her job after being forbidden from wearing a face mask.

Areema Nasreen, 36, died shortly after midnight on Friday at Walsall Manor hospital in the West Midlands, where she had worked for 16 years. Aimee ORourke, 38, who joined the NHS in 2017 and worked at Queen Elizabeth The Queen Mother hospital in Margate, Kent, died hours earlier, on Thursday night. Both were mothers of three children.

Two NHS healthcare assistants have also died. The family of Thomas Harvey, 57, who worked in north-east London, believe he would still be alive today if he had been given proper personal protective equipment (PPE), they told Sky News.

Meanwhile, the Guardian has learned that Tracy Brennan, a healthcare assistant (also known as an auxiliary nurse) in north-west London, quit her job after she was not allowed to wear a surgical face mask she had bought herself.

In her resignation letter, Brennan chastised her superiors at Hillingdon Hospitals NHS foundation trust for barring her from wearing the mask to protect herself and patients she was caring for from contracting the deadly virus.

Brennan said she had returned to work after self-isolating for 14 days because her daughter had shown symptoms of Covid-19. She said that patients in the ward where she was working, which was not a coronavirus treatment ward, felt comfortable with her wearing the surgical mask and some positively encouraged her to do so.

The letter continued: Upon arriving to work on Tuesday morning, whilst still wearing a mask, you asked me for a word in your office. You outlined to me that wearing a mask wasnt following the trust policy and asked me to remove it. I responded stating that I wasnt pleased with this instruction and defended myself stating that I was uncomfortable not wearing a mask while dealing with patients who may be carriers of Covid. However I adhered to the request.

She said that later that day, while taking blood, a patient coughed into her unprotected face but, despite relaying details of the incident, she was still refused permission to wear her mask.

Brennan wrote: With a heavy heart and sadness, I feel I have no alternative but to hand this letter in as my formal resignation and will be unable to work my notice due to not being allowed to wear sufficient PPE for the duties I perform.

Her resignation comes as the government sought to quell a backlash from healthcare workers over PPE. On Thursday, the government and public health bodies upgraded the recommended PPE that healthcare professionals should be wearing amid criticism that the existing guidelines did not offer them enough protection.

But employers and unions warned that the upgrade would mean nothing without resolving the shortages that have led to clinicians improvising with snorkels and school science goggles.

At the daily Downing Street press conference on Friday, Englands chief nursing officer, Ruth May, invoked the deaths of Nasreen and ORourke as she urged members of the public to stay at home. This weekend is going to be very warm and it will be very tempting to go out and enjoy those summer rays, she said. But please, I ask you to remember Aimee and Areema. Please stay at home for them.

She added: I worry that theres going to be more and I want to honour them today.

The face mask issue is particularly pertinent as the World Health Organization (WHO) is considering changing its guidance on whether people should wear face masks in public amid suggestions that their widespread use have played a role in containing outbreaks in some Asian countries.

On Thursday, in an about-turn, the mayor of New York, Bill de Blasio, advised people in the city to cover up their faces, following in the footsteps of Los Angeles. De Blasio stressed that homegrown protection was fine in a bid to prevent a run on the professional grade masks coveted by clinicians.

No 10 said on Friday that its advice continued to be that face masks are unnecessary outside. Matt Hancock, the health secretary, told Good Morning Britain: Masks are very important to protect healthcare workers ... but that [asking the public to wear them] isnt something that weve done here because the whole basis of our response has been making sure that we follow the science.

Experts remain divided on the issue but a study published in Nature Medicine on Friday, which included WHO-affiliated researchers, suggested surgical face masks may be effective in preventing the transmission of coronaviruses from symptomatic individuals.

Dr Rupert Beale, group leader of the cell biology of infection laboratory at the Francis Crick Institute, said the study, which he was not involved in, presented strong and compelling evidence in favour of mask wearing as a means of reducing transmission of some viruses, including coronaviruses. Public health officials must immediately take note of this important new evidence.

On Thursday, Donna Kinnair, the chief executive and general secretary of the Royal College of Nursing, raised concerns with the health secretary that nurse deaths were not being counted amongst the official coronavirus mortality figures.

On BBCs Question Time, Kinnair pushed Matt Hancock to release statistics relating to healthcare staff. She said: We havent even counted the nurses yet. I keep asking for the stats on nurses, she said. I didnt know that, we will sort that out, Hancock replied.

Paying tribute to Nasreen, Toby Lewis, chief executive of the neighbouring Sandwell and West Birmingham hospitals NHS trust, said it was clear from experiences in other countries particularly Italy, where dozens of nurses and doctors have died that healthcare workers were at risk.

They are at risk not only from the patients we look after but from each other. There is additional grief counselling and psychological support being provided to staff because they are working in situations that are very different to those that they have worked in, he said.

Will more healthcare workers pass away? With the greatest regret I think that is a certainty. [However] it is our collective effort to try and minimise the number of tragedies that we see in the number of people who serve within the NHS.

Nasreen, whose family have asked the media not to publish her picture, developed symptoms of coronavirus on 13 March, including aches, a high temperature and then a cough. She tested positive for the virus on 27 March.

In a tribute posted on Facebook, her friend Rubi Aktar said: She was the most lovely, genuine person you could ever meet, she went above and beyond for everyone she met.

Im so grateful that I had the honour to call her my best friend. She saw me at my best and my worst and accepted my every flaw. I am so broken that words cant explain.

ORourkes daughter Megan Murphy described her mother as an angel. She wrote on Facebook : Look at all the lives you looked after and all the families you comforted when patients passed away. You are an angel and you will wear your NHS crown forevermore because you earned that crown the very first day you started!

NHS England has insisted that PPE shortages are down to distribution problems rather than shortages but many remain sceptical. On Friday, a group of organisations including Doctors in Unite and the Doctors Association UK issued a demand that the government repurpose industry to produce adequate quantities of PPE, including face masks, preferably to the highest specification.

A Department of Health and Social Care spokesperson said: In the past two weeks the NHS supply chain have delivered 397m pieces of PPE equipment. While we are confident that enough supply is now reaching the frontline, we appreciate there were limited distribution problems to begin with while we dealt with a new demand caused by this emerging epidemic.

A spokesperson for the Hillingdon Hospitals NHS trust said: Our trust takes the safety of all our staff extremely seriously and we follow national guidelines, as set out by Public Health England. We regularly update staff on the types of PPE and the rules for its use. Today [Friday] we are making sure our staff have sight of and understand the latest guidance on PPE that was released late yesterday. We are also providing extra support to our staff during the current emergency both for their physical and their mental health and wellbeing.

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Coronavirus deaths of two nurses lead to calls for more protection - The Guardian

Neuroscientists find memory cells that help us interpret new situations – MIT News

Imagine you are meeting a friend for dinner at a new restaurant. You may try dishes you havent had before, and your surroundings will be completely new to you. However, your brain knows that you have had similar experiences perusing a menu, ordering appetizers, and splurging on dessert are all things that you have probably done when dining out.

MIT neuroscientists have now identified populations of cells that encode each of these distinctive segments of an overall experience. These chunks of memory, stored in the hippocampus, are activated whenever a similar type of experience takes place, and are distinct from the neural code that stores detailed memories of a specific location.

The researchers believe that this kind of event code, which they discovered in a study of mice, may help the brain interpret novel situations and learn new information by using the same cells to represent similar experiences.

When you encounter something new, there are some really new and notable stimuli, but you already know quite a bit about that particular experience, because its a similar kind of experience to what you have already had before, says Susumu Tonegawa, a professor of biology and neuroscience at the RIKEN-MIT Laboratory of Neural Circuit Genetics at MITs Picower Institute for Learning and Memory.

Tonegawa is the senior author of the study, which appears today in Nature Neuroscience. Chen Sun, an MIT graduate student, is the lead author of the paper. New York University graduate student Wannan Yang and Picower Institute technical associate Jared Martin are also authors of the paper.

Encoding abstraction

It is well-established that certain cells in the brains hippocampus are specialized to store memories of specific locations. Research in mice has shown that within the hippocampus, neurons called place cells fire when the animals are in a specific location, or even if they are dreaming about that location.

In the new study, the MIT team wanted to investigate whether the hippocampus also stores representations of more abstract elements of a memory. That is, instead of firing whenever you enter a particular restaurant, such cells might encode dessert, no matter where youre eating it.

To test this hypothesis, the researchers measured activity in neurons of the CA1 region of the mouse hippocampus as the mice repeatedly ran a four-lap maze. At the end of every fourth lap, the mice were given a reward. As expected, the researchers found place cells that lit up when the mice reached certain points along the track. However, the researchers also found sets of cells that were active during one of the four laps, but not the others. About 30 percent of the neurons in CA1 appeared to be involved in creating this event code.

This gave us the initial inkling that besides a code for space, cells in the hippocampus also care about this discrete chunk of experience called lap 1, or this discrete chunk of experience called lap 2, or lap 3, or lap 4, Sun says.

To further explore this idea, the researchers trained mice to run a square maze on day 1 and then a circular maze on day 2, in which they also received a reward after every fourth lap. They found that the place cells changed their activity, reflecting the new environment. However, the same sets of lap-specific cells were activated during each of the four laps, regardless of the shape of the track. The lap-encoding cells activity also remained consistent when laps were randomly shortened or lengthened.

Even in the new spatial locations, cells still maintain their coding for the lap number, suggesting that cells that were coding for a square lap 1 have now been transferred to code for a circular lap 1, Sun says.

The researchers also showed that if they used optogenetics to inhibit sensory input from a part of the brain called the medial entorhinal cortex (MEC), lap-encoding did not occur. They are now investigating what kind of input the MEC region provides to help the hippocampus create memories consisting of chunks of an experience.

Two distinct codes

These findings suggest that, indeed, every time you eat dinner, similar memory cells are activated, no matter where or what youre eating. The researchers theorize that the hippocampus contains two mutually and independently manipulatable codes, Sun says. One encodes continuous changes in location, time, and sensory input, while the other organizes an overall experience into smaller chunks that fit into known categories such as appetizer and dessert.

We believe that both types of hippocampal codes are useful, and both are important, Tonegawa says. If we want to remember all the details of what happened in a specific experience, moment-to-moment changes that occurred, then the continuous monitoring is effective. But on the other hand, when we have a longer experience, if you put it into chunks, and remember the abstract order of the abstract chunks, thats more effective than monitoring this long process of continuous changes.

The new MIT results significantly advance our knowledge about the function of the hippocampus, says Gyorgy Buzsaki, a professor of neuroscience at New York University School of Medicine, who was not part of the research team.

These findings are significant because they are telling us that the hippocampus does a lot more than just representing space or integrating paths into a continuous long journey, Buzsaki says. From these remarkable results Tonegawa and colleagues conclude that they discovered an event code, dedicated to organizing experience by events, and that this code is independent of spatial and time representations, that is, jobs also attributed to the hippocampus.

Tonegawa and Sun believe that networks of cells that encode chunks of experiences may also be useful for a type of learning called transfer learning, which allows you to apply knowledge you already have to help you interpret new experiences or learn new things. Tonegawas lab is now working on trying to find cell populations that might encode these specific pieces of knowledge.

The research was funded by the RIKEN Center for Brain Science, the Howard Hughes Medical Institute, and the JPB Foundation.

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Neuroscientists find memory cells that help us interpret new situations - MIT News

Allen Institute Announces New Phase Of Neuroscience Research – Chinook Observer

SEATTLE, April 6, 2020 /PRNewswire/ -- The Allen Institute today announced new phases of research for its largest division, the Allen Institute for Brain Science, as well as a leader hired to direct a new neuroscience-related division of the Institute.

This change reflects a structural transition for the Allen Institute for Brain Science as it nears the end of its current 10-year scientific timeline. Established in 2003, the Allen Institute for Brain Science has grown to more than 300 researchers and staff working in two broad research programs.

The larger of these groups, the Cell Types program, will move into a new 16-year phase that builds on the team's success in working toward a "periodic table" of brain cell types. In this new phase, the Allen Institute for Brain Science will focus solely on brain cell types and connectivity research. The MindScope Program, which seeks to understand how the brain's neural circuits produce the sense of vision, will also move into a new phase of discovery and will transition out of the Allen Institute for Brain Science to become a separate program of the Allen Institute.

"Through the vision and guidance of our late founder, Paul G. Allen, our model has always been to find scientific problems where our particular flavor of big, team and open science can have the greatest impact," said Allan Jones, Ph.D., President and Chief Executive Officer of the Allen Institute. "As we shift into the next phase of our neuroscience research, I am confident that our teams will continue to push the boundaries of discovery and create invaluable resources for the community."

Christof Koch, Ph.D., currently the President and Chief Scientist of the Allen Institute for Brain Science, will continue to lead the MindScope Program as its Chief Scientist. Hongkui Zeng, Ph.D., currently Executive Director of Structured Science, will lead the cell types and connectivity research as the Executive Vice President, Director of the Allen Institute for Brain Science.

Additionally, renowned neuroscientist Karel Svoboda, Ph.D., will join the Allen Institute in 2021 to lead a new division of the Institute, which will launch in 2022 and will focus on research related to neural computation and dynamics.

The Allen Institute for Brain Science's next phaseThe Allen Brain Observatory, established under Koch's leadership, was built to understand how the brain stores, encodes and processes information, using the mouse visual system as a model for understanding. Koch will continue to lead Observatory projects and direct a team of researchers under the MindScope Program.

"After spending the past eight years building up the tools (such as MesoScope and Neuropixels), instrumental recording capabilities and data analysis pipelines of the Allen Brain Observatory, we are now ready over the next five years to harvest the scientific insights into how the mouse cortex, 14 million complex neurons packed into the volume of a tenth of a sugar cube, represent and evaluate incoming visual information to rapidly and robustly control the behavior and the perception of the mouse," Koch said. "I'm looking forward to dedicating my efforts to this exciting area of research in the years ahead."

Zeng has been a neuroscientist at the Allen Institute since 2006 and leads several projects aiming to create a periodic table of cell types in the brain. Under her leadership, the Allen Institute for Brain Science will now dedicate its focus to defining comprehensive catalogs of mouse and human brain cell types, understanding how different cell types arise through development and evolution, and how they connect and function in health and in disease. The division will generate brain atlases, tools and foundational knowledge for the neuroscience community. Zeng is also the principal investigator on several large National Institutes of Health-funded research projects and programs, which she will continue to lead in her new role.

"I am honored to lead the Allen Institute for Brain Science, and I am confident our researchers will continue to lead their fields as we work together to tackle new and challenging scientific questions," Zeng said. "Our teams have made incredible progress in the past decade in our quest to identify the 'parts lists' of the mouse and human brains and how these parts are connected into the 'Google map' of the brain. Information gained from these efforts opens up unprecedented opportunities for us to look deeper into how brain works. I'm excited to help bring our endeavor to the next level."

A new Institute coming in 2022The Allen Institute's newest division is slated to launch in 2022 and will focus on neural computation and dynamics, with a more specific vision to be developed in several planning sessions this year and next. The new division, led by Svoboda, will focus on making new discoveries and solving hard problems in neural computation.

Svoboda is currently a senior group leader at The Howard Hughes Medical Institute's Janelia Research Campus, where his lab studies synaptic plasticity and develops new technologies and tools. He was previously a professor at Cold Spring Harbor Laboratory, completed a postdoctoral fellowship at Bell Labs and earned his Ph.D. in biophysics from Harvard University. He has served as a member of the Allen Institute for Brain Science's scientific advisory councils over the past 10 years.

"Over the years as a frequent visitor and advisor to the Allen Institute, I have grown to know and value its unique intellectual culture," Svoboda said. "The Allen Institute has made extraordinary contributions to science and the world, and I'm so excited join this amazing community."

About the Allen Institute for Brain ScienceThe Allen Institute for Brain Science is a division of the Allen Institute (alleninstitute.org), an independent, 501(c)(3) nonprofit medical research organization, and is dedicated to accelerating the understanding of how the human brain works in health and disease. Using a big science approach, the Allen Institute generates useful public resources used by researchers and organizations around the globe, drives technological and analytical advances, and discovers fundamental brain properties through integration of experiments, modeling and theory. Launched in 2003 with a seed contribution from founder and philanthropist, the late Paul G. Allen, the Allen Institute is supported by a diversity of government, foundation and private funds to enable its projects. The Allen Institute for Brain Science's data and tools are publicly available online atbrain-map.org.

Media Contact:Rob Piercy, Director, Media Relations206.548.8486 | press@alleninstitute.org

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Allen Institute Announces New Phase Of Neuroscience Research - Chinook Observer

MIT neuroscientists identify memory cells that help us interpret novel situations – News-Medical.net

Reviewed by Emily Henderson, B.Sc.Apr 6 2020

Imagine you are meeting a friend for dinner at a new restaurant. You may try dishes you haven't had before, and your surroundings will be completely new to you. However, your brain knows that you have had similar experiences -- perusing a menu, ordering appetizers, and splurging on dessert are all things that you have probably done when dining out.

MIT neuroscientists have now identified populations of cells that encode each of these distinctive segments of an overall experience. These chunks of memory, stored in the hippocampus, are activated whenever a similar type of experience takes place, and are distinct from the neural code that stores detailed memories of a specific location.

The researchers believe that this kind of "event code," which they discovered in a study of mice, may help the brain interpret novel situations and learn new information by using the same cells to represent similar experiences.

When you encounter something new, there are some really new and notable stimuli, but you already know quite a bit about that particular experience, because it's a similar kind of experience to what you have already had before."

Susumu Tonegawa, professor of biology and neuroscience at the RIKEN-MIT Laboratory of Neural Circuit Genetics at MIT's Picower Institute for Learning and Memory

Tonegawa is the senior author of the study, which appears today in Nature Neuroscience. Chen Sun, an MIT graduate student, is the lead author of the paper. New York University graduate student Wannan Yang and Picower Institute technical associate Jared Martin are also authors of the paper.

It is well-established that certain cells in the brain's hippocampus are specialized to store memories of specific locations. Research in mice has shown that within the hippocampus, neurons called place cells fire when the animals are in a specific location, or even if they are dreaming about that location.

In the new study, the MIT team wanted to investigate whether the hippocampus also stores representations of more abstract elements of a memory. That is, instead of firing whenever you enter a particular restaurant, such cells might encode "dessert," no matter where you're eating it.

To test this hypothesis, the researchers measured activity in neurons of the CA1 region of the mouse hippocampus as the mice repeatedly ran a four-lap maze. At the end of every fourth lap, the mice were given a reward. As expected, the researchers found place cells that lit up when the mice reached certain points along the track. However, the researchers also found sets of cells that were active during one of the four laps, but not the others. About 30 percent of the neurons in CA1 appeared to be involved in creating this "event code."

"This gave us the initial inkling that besides a code for space, cells in the hippocampus also care about this discrete chunk of experience called lap 1, or this discrete chunk of experience called lap 2, or lap 3, or lap 4," Sun says.

To further explore this idea, the researchers trained mice to run a square maze on day 1 and then a circular maze on day 2, in which they also received a reward after every fourth lap. They found that the place cells changed their activity, reflecting the new environment. However, the same sets of lap-specific cells were activated during each of the four laps, regardless of the shape of the track. The lap-encoding cells' activity also remained consistent when laps were randomly shortened or lengthened.

"Even in the new spatial locations, cells still maintain their coding for the lap number, suggesting that cells that were coding for a square lap 1 have now been transferred to code for a circular lap 1," Sun says.

The researchers also showed that if they used optogenetics to inhibit sensory input from a part of the brain called the medial entorhinal cortex (MEC), lap-encoding did not occur. They are now investigating what kind of input the MEC region provides to help the hippocampus create memories consisting of chunks of an experience.

These findings suggest that, indeed, every time you eat dinner, similar memory cells are activated, no matter where or what you're eating. The researchers theorize that the hippocampus contains "two mutually and independently manipulatable codes," Sun says. One encodes continuous changes in location, time, and sensory input, while the other organizes an overall experience into smaller chunks that fit into known categories such as appetizer and dessert.

"We believe that both types of hippocampal codes are useful, and both are important," Tonegawa says. "If we want to remember all the details of what happened in a specific experience, moment-to-moment changes that occurred, then the continuous monitoring is effective. But on the other hand, when we have a longer experience, if you put it into chunks, and remember the abstract order of the abstract chunks, that's more effective than monitoring this long process of continuous changes."

Tonegawa and Sun believe that networks of cells that encode chunks of experiences may also be useful for a type of learning called transfer learning, which allows you to apply knowledge you already have to help you interpret new experiences or learn new things. Tonegawa's lab is now working on trying to find cell populations that might encode these specific pieces of knowledge.

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MIT neuroscientists identify memory cells that help us interpret novel situations - News-Medical.net

Finding new approaches for emotional wellness – News from southeastern Connecticut – theday.com

As a mother who lost her son to addiction, I am always wondering how we can prioritize prevention and promote healthy behaviors at an early age? I came upon an old blog post in Psychology Today, April 16, 2010, by Ronald Alexander, author of "Wise Mind, Open Mind: Finding Purpose and Meaning in Times of Crisis, Loss, and Change" that discusses mindful meditation and how it creates new neural pathways in the brain.

In my opinion, this approach is the future of prevention, treatment and recovery. Firmlybased in neuroscience, it can teach kids the skills needed to regulate their stress and emotion, for positive relationships, and act with kindness, confidence and compassion. Through these methods children become empowered to achieve long-term success in every aspect of their lives.

I recently learned that the Goldie Hawn Foundation has an organization called MindUP with the goal of "empowering children through mindful practice based in neuroscience." It hastools for schools, teachers and parents.

I amhappy to see iconic people using their influenceand resources for good and hope our local schools and families will consider these scienced-based approaches to building lifelong protective wellnessbehaviors in our children.

Ceci Iliff

Norwich

Editor's note: Ceci Iliff is the founder of TheCharityChallenge.Net and an advisory board member of TriCircle Inc. of Middlefield.

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Finding new approaches for emotional wellness - News from southeastern Connecticut - theday.com