Meet Dr. Steffanie Strathdee, PhD, Author of "The Perfect Predator: A Scientist's Race to Save Her Husband from a Deadly Superbug"

[vc_row][vc_column][vc_column_text]the perfect predator

 

Dr. Steffanie Strathdee, PhD is a Co-Director of the Center for Innovative Phage Applications and Therapeutics (IPATH) and Associate Dean of Global Health Sciences, Harold Simon Professor, Department of Medicine, UCSD.

She is also an author of "The Perfect Predator: A Scientist's Race to Save Her Husband from a Deadly Superbug"  and was named by Time Magazine as one of 50 most influential people in healthcare in 2018.

 

 

Why did you choose epidemiology?

I've always been interested in science. And I was really lousy in the laboratory, I kept contaminating my Petri dishes, and had a really hard time envisioning tiny microbes that you couldn't see. So, I decided that epidemiology was better suited to me, as an applied science. It's the who, how, and what in terms of understanding the distribution of diseases and hopefully how to prevent it. That attracted me because I was in school when the HIV epidemic first hit. Even my PhD advisor and then my best friend passed away from HIV, so it became a really personal issue.

You have an incredible story about combining your knowledge, experience and intuition to save your husband's life and bring innovation in treating patients with multidrug-resistant bacteria. Tell us more about it.

I was able to remember some of my early training when my husband got sick. My virology professor from the University of Toronto had taught us about bacteriophage in class, back in the 1980’s. That turned out to be the forgotten cure that ended up saving my husband’s life.  I was one of many people who made this happen. It really was a global village that rose to the challenge, not the least of which were faculty and medical staff at UC San Diego.

How did it all start?

My husband and I were traveling in Egypt in 2015. He seemed as healthy as you and me, but what we didn't know was he had gallstone pancreatitis that manifested itself as if it was food poisoning. We just had seafood dinner and so it was over 24 hours before I realized that he didn’t have food-poisoning; he was really sick. He deteriorated really quickly, and we were able to get a medically evacuated to Frankfurt, Germany. There they put us in isolation as a safety precaution, or so I believed at the time.  And it turned out that this was a very good decision, because in addition to gallstone pancreatitis, Tom had acquired what one doctor called the worst bacteria on the planet.

What is a superbug?

A superbug is a bacterial infection that is resistant to multiple antibiotics. In my husband's case, initially this superbug was resistant to 15 antibiotics and only partially sensitive to three. But by the time he got medivacked home to San Diego a few weeks later, it was resistant to even those. Superbugs are on the rise because of overuse of antibiotics in livestock, and in people.  About 70% of all the antibiotics used in the US are actually used in livestock to make them grow fatter, faster. So, one of the most important things that you can do as a consumer is to not eat meat that's been treated with antibiotics, and to put pressure on companies that are serving meat products not to use antibiotics as growth promoters, or you can become a vegetarian.

What was the turning point?

The doctors were afraid to operate on Tom so they decided to use interventional radiology to insert catheters (drains) into his abdomen to drain off the infected fluid from an abscess that had grown the size of a football. One day, one of the drains inside him slipped and it poured all of that infected fluid into his abdomen and bloodstream, and he immediately went into septic shock. This meant that the superbug fully colonized him now, that it was everywhere. They put him in an induced coma and they admitted they’d run out of solutions. That’s when his daughters and I started to realize that he was going to die. I asked him while he was in coma, if he wanted to live, or if he wanted to give up. He squeezed my hand and indicated that he wanted to live.

How did you find a solution when everyone else gave up?

I may not be a medical doctor, but I am a trained researcher, so I took matters into my own hands. I started researching alternative therapies for multi drug-resistant bacteria and that’s when I came across bacteriophage (phage) therapy.  It really struck me because I remembered hearing about this when I was a student, but I didn’t know that they’d been used to treat people.  Around the same time, a friend of mine from UCSF emailed me to say that a friend of hers had received phage therapy in the Republic of Georgia, and it cured her superbug infection. It felt like a sign; something I had to look into.

What are phages and how do they act?

Phages are viruses that are a hundred times smaller than bacteria. They have naturally evolved as the predators of bacteria. And they're everywhere, they're in soil, the oceans, on our skin, in our guts. Sewage is one place where you can find a lot of bacteria, so you can find a lot of phage there too. But, you have to match the phage to the bacteria, it's like a lock and key. Not any phage will attack any bacteria, it's a very specific relationship of predator and prey.

How did you convince the medical team to try phage therapy?

I approached the head of infectious diseases at UC San Diego, Dr. Chip Schooley, who was a colleague of mine.  I asked him what he thought of phage therapy to treat Tom. He said, "It's an incredibly interesting idea, but it might be ahead of its time." It turned out it was actually behind its time because it had been discovered 100 years ago by a French-Canadian scientist named Félix d'Herelle. He'd actually used it successfully to treat infections in humans and animals, but it fell by the wayside when antibiotics were discovered.

Dr. Schooley said he would help and ask FDA for compassionate use approval, if I can find phages that match Tom’s bacteria. The FDA knew all about phage therapy. They were actually happy to help since this was also an opportunity to gather more data so that they could make informed decisions about its use in other people. It was pretty clear that because his body was fully colonized with the superbug that we needed to treat him intravenously, and that was one of the real innovations in this case. We actually injected phages into his bloodstream. It was the scariest day of my life.

How did you obtain the right phage?

I did more research and made a list of US researchers who were studying the kind of superbug that was infecting Tom and emailed them.  Dr. Ry Young at Texas A&M University responded and said that my plea for help really pulled at his heartstrings.  He also thought that with my background I could cut through the red tape to make this happen. His team found several phages that matched Tom’s bacteria. When Dr. Schooley called the FDA to tell them we had a phage cocktail ready, they told us the US Navy Medical Research Center has been working on phage as well. And then they agreed to help, so we sent Tom's bacterial isolate to them too.

US Navy had a whole library of little vials of phage that had already been fully characterized. They developed a phage cocktail too, and chose phages that had super killing potential. Now we had two cocktails and they arrived just in the nick of time. We injected them into Tom and three days later, he woke up from his coma. It was just an unbelievably miraculous moment.

How long did it take from your initial reach out for phage to actually giving your husband the cocktails?

Three weeks from my email to actually having two phage cocktails that were personalized to Tom’s bacteria. Compare that to an antibiotic pipeline that take 10 to 15 years, and cost $80 million or more.

How is phage different from antibiotics?

As great as antibiotics are, they kill other bacteria in addition to one targeted and that is how the microbiome is disturbed. And phage, they just kill the bacteria that they match to and then they're excreted by the body. So, it's actually a beautiful concept. And nature gave it to us all along.

However, antibiotics and phage can actually work together and synergize. In Tom’s case, we found that there was a phage that was synergistic with an antibiotic. Prior to that, we also found that the bacteria developed some resistance to phage; and that’s because this is an evolution on a microscopic scale. It's happening within minutes sometimes, because the bacteria are being attacked by the phage, and the bacteria have their defense mechanisms, like CRISPRs.  We detected bacterial resistance to the phages within a few weeks, but the Navy was ready. They developed a second-generation phage cocktail in a couple of days, and then detected synergy between an antibiotic and a phage which was an added bonus. There's been several other cases of antibiotic-phage synergy reported, which should excite the pharma industry. Up until recently the pharmaceutical industry hasn't really been interested in phage because they thought they couldn't make money from it. But if phage can make a failing antibiotic work better, that's already a game changer.

Why has phage therapy been so overlooked?

Phage therapy was looked down upon because it was embraced by what was then Russia during World War II. And this geopolitical bias was carried over into current day; until we launched IPATH, the only countries with dedicated phage therapy centers were in the Republic of Georgia and Poland.  Tom’s case has been described as a watershed moment that brought phage therapy to the forefront in the West. Now that we're having superbugs emerge as a global health crisis, there's a lot more interest in phage therapy.

How many other people were you able to save with phage therapy?

We've treated five other cases since my husband's at UCSD, all of them have been treated intravenously as well. And we've consulted on a growing number of international cases and so it's showing quite a lot of promise.

From the biotechnology angle, how can you use your experience and make phage accessible to others?

There are really two general approaches for phage therapy right now. One is to have an off the shelf kind of cocktail.  That's attractive because it's less costly and you can actually administer it quickly, assuming that you know that the phages are going to be a match to the bacteria that you're trying to treat. And that's the approach that AmpliPhi Biosciences is using. They have two phage cocktails that have been approved by the FDA that they're moving into clinical trials to treat Staph and Pseudomonas. Pseudomonas aeruginosa is a very common superbug infection, especially in patients with Cystic Fibrosis, who develop lung infections that often get treated over and over with antibiotics which selects for multi-drug resistance.

The other approach is a personalized phage cocktail. And that's the approach that Adaptive Phage Therapeutics is using. Some of the team members that were involved in my husband's case formed this start-up. They believe it's more efficient and efficacious to take the bacterial isolate from an individual and have a phage library to develop a cocktail specifically for that case. That's really personalized medicine.

No one’s sure at this point which of these two approaches is ideal. They each have their pros and cons. On the horizon are therapeutic applications with genetically modified phage, and synthetic phage, which have yet to be tested in human cases.  But it’s coming soon.

Based on your experience you have established a Center for Innovative Phage Applications and Therapeutics (IPATH) as a part of UC San Diego School of Medicine. What is your goal?

Our main goal is to develop clinical trials so that we're not just responding to crises. We're actually planning a clinical trial with Cystic Fibrosis patients that have a chronic infection, that are shedding Pseudomonas aeruginosa. And we're hoping to partner with the NIAID, foundations, and private donors to get that study off the ground. We're also planning a clinical trial with patients that have infected medical devices, LVAD's in particular. Both should get launched in 2019 with any luck.

How has this experience changed your life?

My husband and I are seeing everyday as a gift and we're just so thankful that people still care enough to help total strangers across the globe. And we benefited from that generosity; it really instills and inspires your hope for mankind. On a professional level, I became a phage wrangler when my husband's case became publicized in April 2017. This was about a year after he recovered.  I started getting calls from all over the world. From China, Malaysia, Thailand, South America, Canada, all over the US. "Where can I get some phage therapy? I've got a family member who's sick." And through IPATH, we are now helping a growing number of people.[/vc_column_text][vc_empty_space height="20px"][grve_callout title="Tech Spotlight Interviews" heading_tag="h4" button_text="Learn More" button_link="url:http%3A%2F%2Finfo.managedsolution.com%2Fc-level-interview-registration|||"]IT is a journey, not a destination. We want to hear about YOUR journey!
Are you a technology innovator or enthusiast?
We would love to highlight you in the next edition of our Tech Spotlight.[/grve_callout][/vc_column][/vc_row]

Meet the Tech Exec: Claire Weston, Founder and CEO, Reveal Biosciences

[vc_row][vc_column][vc_empty_space height="20px"][vc_column_text]To download the full magazine and read the full interviews, click here.

Dr. Claire Weston is an accomplished and dedicated scientific leader with a track record of success in cancer research.  She was awarded a PhD in from Cambridge University in the UK and has lead teams and projects focused on cancer biomarkers in both large pharma and start-up environments.  Claire founded Reveal Biosciences in 2012 and has since demonstrated strong year-on-year growth.  She has authored numerous peer-reviewed publications in leading journals including Science, and is a respected member of multiple professional organizations including the Digital Pathology Association. 

Reveal Biosciences is a computational pathology company focused on tissue-based research. 

Why did you decide to explore biotechnology?

When I was a child I went to a local science day and watched a scientist pour liquid nitrogen onto the floor. The liquid nitrogen changed from liquid to gas, something I’d never seen before, and I thought it was amazing!  It really initiated my interest in science. I love biotechnology because it's at the interface of science and technology, and solves real world problems.

How was the idea of Reveal Biosciences born?

Several years ago I was working at a different company developing a biomarker-based test for breast cancer. As part of that test, we sent a set of 150 patient slides to three different pathologists to review and provide a diagnosis. We then compared those results to our quantitative biomarker test. What really struck me at the time was the variation in the results that we got back from the pathologists. These are all very qualified, experienced pathologists, yet they didn't agree on the results for all the different patients. This is important because the way the patients are treated is often dependent on the way that the pathologist reviews the slide. It became clear that taking a quantitative, computational approach could help provide more accurate and reproducible data to benefit patients. This became one of the driving missions of our company.

In simple words, how do you help people?

We provide data from microscope slides or pathology samples that can benefit research, clinical trials, and patients.  For example, we generate quantitative pathology data to help pharmaceutical companies develop therapeutic drugs, we use it for clinical trials to increase precision and stratify patient groups, and we're also in the process of building pathology data applications to help pathologists diagnose disease in a way that will ultimately benefit patients.

Click here to watch more videos.

How are your services different from other similar companies in the market?

We are fairly unique in that we have a scientific team in the lab doing pathology and a computational team of data scientists and software engineers who are developing our AI-based platform. Our ImageDx platform includes models to generate very quantitative data and diagnostic outputs that can be applied to many different diseases. The products that we are working on are unique and differentiate us, but the main driver is the quantitative pathology data that we generate.

How did you marry artificial intelligence with pathology?

We've been using traditional machine learning to identify and quantify cells from images for a while, but in the last few years AI has advanced significantly. It's impressive to see how well it works in pathology images. We've made the natural evolution from more traditional machine learning into AI. Compute power is now more readily available which means that we can generate data from one patient slide in minutes rather than the days or weeks it used to take.  This sea change in computational speed means that the data we generate is more meaningful and relevant to routine pathology workflows.[/vc_column_text][grve_video video_link="https://www.youtube.com/watch?v=apAy6ZRi11w"][vc_column_text]Click here to watch more videos.

You are planning to use cloud-based technology to deliver accurate diagnosis and to address medical needs worldwide. How does that work?

There's a huge shortage of pathologists worldwide. Even in the US where we have very highly qualified pathologists we’re heading for a retirement cliff, and less pathologists are coming through residency to maintain their numbers. This is particularly evident in rural areas where there's a real shortage of expertise. Having a cloud-based approach will help address some of those problems.

I'm excited by the potential for AI in a cloud-based platform to bring advanced pathology expertise to anywhere with internet access. Hospitals or pathology labs throughout the world could upload an image from a microscope slide into the cloud, and that image can be analyzed to generate advanced diagnostics. Countries with limited resources often have the ability to generate the most basic kind of microscope slide, but they sometimes lack the ability to do the more advanced diagnostics. The possibility to do so is going to revolutionize pathology and be impactful for healthcare globally.  This should also benefit patients in the US by helping to lower the cost of healthcare.

How is AI impacting pathology?

The application of AI in pathology is a very new thing. We've been developing this for a while and we're launching the first products in the clinic for patients in 2019. We are also building more enhanced pathology models by integrating other data sources. We’re finding that we can use AI to detect aspects of cancer that are not obvious just by looking down a microscope. For example, we're detecting small changes in the texture of the nucleus of cells or small cellular changes that you wouldn't necessarily notice by eye but can be predictive or prognostic of disease. I think this is going to be really impactful for personalized medicine.[/vc_column_text][/vc_column][/vc_row][vc_row][vc_column heading_color="primary-1"][vc_empty_space][grve_callout title="Tech Spotlight Interviews" button_text="Learn more" button_link="url:http%3A%2F%2Finfo.managedsolution.com%2Fc-level-interview-registration||target:%20_blank|"]IT is a journey, not a destination. We want to hear about YOUR journey!
Are you a technology innovator or enthusiast?
We would love to highlight you in the next edition of our Tech Spotlight.[/grve_callout][/vc_column][/vc_row]

Meet the Tech Exec: Denise Bevers, Co-Founder, President, and Chief Operating Officer, Kindred Biosciences

[vc_row][vc_column][vc_empty_space height="20px"][vc_column_text]To download the full magazine and read the full interviews, click here.

Denise Bevers, Co-Founder, President, and Chief Operating Officer of Kindred Biosciences is an experienced pharmaceutical executive with a distinguished career in clinical operations, medical affairs, and scientific communications. With over 20 years of pharmaceutical and research experience, she has successfully managed dozens of product launches and development programs from Phase I through Phase IV. Bevers previously held leadership positions at Elan Pharmaceuticals, Scripps Clinic and Research Foundation, Quintiles, and SkyePharma. Prior to co-founding KindredBio, she was President and Founding Partner of SD Scientific, a full-service medical affairs and communications company.

KindredBio is a leading veterinary biotech company in the world that develops breakthrough medicines for our best friends: cats, dogs, and horses.

Watch more videos here.

How was the idea of KindredBio born?

KindredBio was born from the understanding that our pets need access to the same caliber of medicines to which we have access as humans.  When my partner, Dr. Richard Chin, and I were working in human drug development, we decided we wanted to develop cutting-edge products for cats, dogs, and horses.  We formed KindredBio to develop these drugs, specific for each species, and have them approved for use by the FDA and/or other relevant regulatory agencies, for veterinary use.

How do you help pets?

At KindredBio, we identify drugs and biologics that work in humans, and we develop veterinary versions for cats, dogs, and horses. We lovingly say that we will not test any products on animals that have not been tested in humans first! By adapting the research and development from existing human products, we both increase the chance of success and decrease costs and timelines. We can develop these product candidates for an average of $5 to $8 million in 3-6 years.  This is a phenomenal feat if you consider that human drugs may cost over $1 billion and take over a decade to develop. At KindredBio, we have approximately 20 product candidates in our pipeline and hope to make a tremendous difference in the lives of pets and pet owners by providing products to veterinarians.

What has been you biggest professional challenge so far and how did you overcome it?

After nearly 25 years working in human drug development, it was a big leap to start a company focused in veterinary medicine.  As I have done throughout my career, the number one step was to surround myself with the most talented people in the industry.  We hired the top veterinarians, protein engineers, and drug developers in the business.  As a result, we developed an incredible pipeline and ended up taking the company public (Nasdaq: KIN) in just 14 months after founding.  It was one of the fastest IPOs in biotech history.  We are proof that, with the most talented and motivated team members, anything is possible!

What is the most important role of technology in biotechnology?

As a virtual company with remote employees across the US, we need to collaborate at all levels of the business daily.  Our IT team believes the technology should be transparent so whether we’re in virtual conferences, sharing information or collaborating on documents, or crunching data for research – our teams should be working as seamlessly as if we were all working in the same physical location.  The good news for companies like us is that the tools we have today, which were unattainable 5 or 10 years ago, are cost-effective and work quite well.

Watch more videos here.

What has been the biggest technological breakthrough for your company?

Our real technological breakthrough has been the development of specific monoclonal antibodies and recombinant proteins for cats, dogs, and horses. We are walking in lock-step with biotech innovation, such as immunotherapy, on the human side.  We have hired world-renown protein engineers and have the some of the most sophisticated manufacturing in all of biotech. We are developing first-in-class, cutting-edge product candidates for cats, dogs, and horses.  We can manufacture very sophisticated products at a much lower cost, which for us was the key to starting the company. Before we start to develop any product, we need to know that we can manufacture it at a cost that the pet owner can afford. And that really was what drove us to be able to start the company, the incredible advancement in biotechnology and manufacturing technology. Our goal is to truly revolutionize veterinary medicine.

You have held leadership positions at numerous professional organizations, what advice could you offer other professionals in STEM fields to help them become good leaders?

One of the important messages that I like to communicate to young women (and men) is that you can have a career in STEM without being a bench scientist, engineer, or mathematician.  I am a great example of that.  While I have a BS in biology, I am not a scientist, yet I have managed to surround myself, throughout my career, with the best scientists in the world.  I get so much gratification from a career in STEM.  For leaders, I particularly encourage them to work on their communication skills.  For technical talent, it is critical to be able to discuss the technology to many stakeholders, from non-technical employees, to management, and likely even to investors. The ability to tailor communication is a cornerstone to great leadership.

Innovation is the essence of KindredBio. Can you give us an example how you innovate with medicine for pets?

In 2018, we received FDA approval for our first product which is a transdermal ointment for cats. Until recently, a human drug was used off label. The owner was dispensed a little white pill and he or she had to cut it, typically into eights, and then pill that cat. Which, if you’ve ever had the pleasure of doing so, is really not fun. We worked very closely with our scientists to make a product that penetrates the skin of the ear. So, you rub some in the ear, and the transdermal ointment penetrates the skin and works as well as if you were taking a pill. And that’s how we use innovation to create value for the pet owner and veterinarian.[/vc_column_text][/vc_column][/vc_row][vc_row][vc_column heading_color="primary-1"][vc_empty_space][grve_callout title="Tech Spotlight Interviews" button_text="Learn more" button_link="url:http%3A%2F%2Finfo.managedsolution.com%2Fc-level-interview-registration||target:%20_blank|"]IT is a journey, not a destination. We want to hear about YOUR journey!
Are you a technology innovator or enthusiast?
We would love to highlight you in the next edition of our Tech Spotlight.[/grve_callout][/vc_column][/vc_row]

Top 3 IT Issues the Biotechnology Industry is Facing

Nowadays, with everything being digitized, IT issues stand to pop up sooner rather than later, and depending on the industry, the effects could vary regarding severity. The IT issues the biotechnology industry is facing are undoubtedly ones which would have the most affect and this is why such a subject should not be taken lightly.

For a relatively new industry, there are a few IT issues it is currently facing and here are the three most important ones right now.

The Increasing Costs for Specialized IT Professionals

Like previously mentioned, biotechnology is a vast industry that is continuously evolving, and new challenges appear every day. Given this fact, finding the right IT professionals willing to work in this environment can be pretty hard, because they need to be compensated according to their workload.

Untrained IT departments concerning BioTech can make a massive difference to your company’s product or service.

Lack of Competent Personnel

While this IT issue is related to the higher costs for Biotechnology specialized personnel, it is still a self-standing problem. Trained staff in BioTech are still pretty hard to find because new industries take time to develop a market and to attract interest in working in such a unique and volatile domain.

Most IT people prefer to choose something more stable, and they usually pick an entrepreneurial route and want to workout in classic startups.

Continually Having to Change Protocols and Products

If you’re working in the Biotechnology industry, you’re accustomed to pressure, stress and a fast-paced environment. When it comes to regulations and protocols, IT is usually the first to be affected by changes, and this is where most IT issues appear. What you are working on today, may not be implemented tomorrow due to new IT regulations in your field.

It makes every process harder, slower and less productive, and it’s one of the critical IT issues facing BioTech today.

If you’re interested in focusing on your product or service, you should consider Managed Solution, the company that since its inception in 2002 has been committed to providing clients with a full spectrum of managed services for reducing the burden of day-to-day IT management.

Gain access to high-level cost-effective expertise and place resource-intensive operations under the management of experienced specialists from Managed Solution.

Conclusion

Biotechnology is a fast-changing constantly evolving industry and IT specialists have to stay up to date at any given moment in order to prevent and protect companies activating in this field from any issues that may appear.

If you’re interested in finding out more, be sure to take a look at the official Managed Solution website. Dedicated professionals are here to answer all your questions you may have about your company’s IT issues and how they can be solved in a fast and efficient way. It is always better to be prepared in the event of any unplanned IT issues, because preventing a problem is more efficient and less costly than fixing it.

Case Study Video: See How Biotech Innovator Uses Cloud-Based Tools to Support New Drug Development

Moderna Therapeutics is a biotech company working to create new medicines through its revolutionary messenger RNA (mRNA) Therapeutics platform. It uses Microsoft Office 365 business productivity tools to build an agile, flexible, and collaborative ecosystem of Moderna teams and partners to accelerate innovation in mRNA research and development.
Founded in 2010, Moderna Therapeutics began as a company with a vision: create a new in vivo medicine using messenger RNA (mRNA) to teach human cells to create proteins that target diseased tissue. Placing eighth on the CNBC 2014 Disruptor 50 list, Moderna is poised to deliver a radical treatment modality that’s fast, scalable, and inexpensive.
“The beauty of using mRNA as a drug is the speed at which we can design a new mRNA therapeutic for a targeted protein,” says Stéphane Bancel, Chief Executive Officer at Moderna. “By replicating our basic methodology, we can scale quickly to target new diseases. Traditional drug development for pharmaceutical companies takes 10 years or more. And because the mRNA Therapeutic modality teaches the body how to make its own medicine, it’s inherently cost-effective.”

The Race to Save Lives

Fueled by the potential to unlock a new dimension of medical treatment for patients living with serious diseases, everything that happens at Moderna happens at “Moderna speed.” When the company chooses IT solutions, it looks for technology that enables the fast, agile, and collaborative scenarios that drive innovation and contribute to growth. That’s why Moderna uses Microsoft Office 365 cloud-based business productivity tools. “We’re innovating in the biotech space and we need to partner with innovators in the productivity space, which led us to Microsoft,” says Steven Frederick, Head of Enterprise IT at Moderna.
“We chose Office 365 because it supports what our fast-moving company needs to accomplish,” adds John Reynders, Chief Information Officer at Moderna. “We operate in a highly regulated environment and Microsoft has thought through privacy concerns and data security. Office 365 offers the right balance between flexibility and elasticity that allows us to scale quickly and collaborate globally, while giving us control of sensitive data around the world.”
Since it subscribed to Office 365 Enterprise E3 in 2013, Moderna has grown by a factor of four; opened two new facilities; forged partnerships with AstraZeneca and Alexion to develop new medicines in the areas of cardiology, oncology, and rare diseases, and founded its oncology-focused drug development subsidiary, Onkaido Therapeutics. Now it’s easy to add someone to the Moderna ecosystem using Office 365 ProPlus and Click-to-Run installation technology, enabling access to the latest version of Office on up to five PCs, Macs, and mobile devices per employee. “If we didn’t have a cloud-based approach powered by Office 365, we could never have moved this fast,” says Reynders.

Flexible Work Environments Improve Productivity

Everyone at Moderna uses Office 365 to improve their productivity and increase their contribution to the company, no matter where they are working or what device they are using. All employees are “heavy users” of Microsoft Excel, PowerPoint, and Word, and they expect to access to their files anytime, anywhere.
“We do heavy-duty simulation and modeling in Excel, and we’d bottom-out the capabilities of other online solutions in less than a day,” says Reynders. “Using Office 365 ProPlus and OneDrive for Business generates mobility and productivity that’s light years ahead of working with Office files that are stuck on your office computer. Instead, we create documents on our laptops, iPads, or smartphones, and store them online so it’s easy to share critical insights. At Moderna, we can’t imagine working any other way.”
Scientists also use Microsoft Office Online for browser-based access to files stored in the cloud so they can edit documents simultaneously. “Office Online puts the flex in flexible!” says Reynders. “You don’t even need your computer. Using a browser, we share PowerPoint presentations, schedule meetings, and update documents. That level of agility helps us to work at Moderna speed.”

Collaboration Drives Innovation, Competitive Advantage

According to Bancel, collaboration is essential for innovation. Because working on the leading edge of science is fraught with unknowns, collaborating with many partners offsets the risk of traveling down the wrong path of inquiry.
“We have to make decisions about our product years before launch, without knowing what the regulatory, manufacturing, or competitive landscape will look like,” says Bancel. “So we are using Microsoft cloud tools to achieve that level of collaboration to optimize our products and beat the odds: In the drug development world, 90 percent of drugs fail.”
Moderna is building an ecosystem of strategic global partnerships using Office 365 to establish highly secure online collaboration with academic and business partners in less than a day. “We use SharePoint Online and integrate with Microsoft Azure to enable multifactor authentication,” says Reynders. “We can capitalize on a business opportunity with a new partner by setting up a secure SharePoint collaboration platform in just a few clicks. That’s not just collaboration, that’s a competitive advantage.”

Reliability Enables the Science

Office 365 functions as a reliable backdrop at Moderna that “enables the science” by allowing people to focus on their work. Scientists in the United States exchange ideas with colleagues in Europe and Asia through instant messages, or by escalating a phone call to an interactive video conference to share desktops and drawings. Instead of wasting time figuring out how to connect with colleagues, Moderna scientists spend their energy on exchanging ideas to come up with innovative new concepts.
”It doesn’t matter what you are doing, if communication and collaboration is not reliable, all the gears grind to a halt,” concludes Reynders. “Since moving to Office 365, we’re not worrying about the technology. Instead, we are focusing on enabling our vision to pioneer a new way to treat serious illness and make a difference in the world.”
Source: Microsoft.com
Managed Solution is the premier provider of IT support services and technology recommendations in the biotechnology and life science industries.
Biotechnology & Life Science Resources

Emerald Therapeutics wants to make life sciences research as easy as launching a new app. See how running experiments over the cloud is cost-competitive and far more time efficient.

emeraldlabcropped_53217 managed solution

A Biotech Lab in the Cloud, Backed by Peter Thiel

By Jeff Bercovici, San Francisco bureau chief, Inc. as written on Inc.com. The ECT-1. IMAGE:
Hardly a week goes by in Silicon Valley without someone launching a new food-delivery or ride-sharing app. Meanwhile, we're running out of antibiotics that work. What's going on here? Why is new drug development so comparatively torpid when app development is so torrid?
The founders of Emerald Therapeutics, D.J. Kleinbaum and Brian Frezza, think it comes down to the difficulty of running experiments in the life sciences. A typical new experiment takes a month to set up -- a month during which a scientist with a decade of education might find herself lugging around jugs of reagent or pipetting. And that's when nothing goes wrong.
"There are these major roadblocks to doing research that all involve the energy you have to sink into the lab itself," said Frezza on Tuesday evening, speaking at the opening of the new Emerald Cloud Laboratory in South San Francisco. The ECL is Frezza and Kleinbaum's solution to the friction they believe is holding back progress in their field.
Dubbed ECL-1, because it's intended to be the first of many, the gleaming warehouse-like space is filled with state-of-the-art instruments for DNA sequencing, gas chromatography, nuclear magnetic resonance and other standard types of experiments. It's also filled with robots that prep and carry out the trials, with minimal oversight from human operators. Thanks to the high degree of automation, a team of two or three technicians can carry out up to 50 experiments simultaneously. "It's all about each experiment being 'push a button, walk away,'" Kleinbaum said during a tour of the facility.
The protocols themselves are uploaded to ECL's servers remotely by clients. (Hence the "Cloud" part.) Frezza and Kleinbaum liken the arrangement to Amazon Web Services, which triggered an explosion in the number of new internet startups by removing the need to own one's own servers as a barrier to entry.
Running experiments over the cloud is cost-competitive and far more time efficient; in Emerald's old lab, average setup time was a mere 25 minutes. But it's also superior in terms of standardization and reproducibility, with the environment engineered to control for and measure a host of variables, from ambient air temperature to the length of rubber tubing, that often get overlooked. Capturing so much more data this way gives investigators what Kleinbaum calls "full computational closure," and it's a big part of the ECL's value proposition. "If we're asking people to experiment out of place and out of time, it's not enough to just give them an equivalent experience," he says. "We have to give them a richer experience."
If Kleinbaum and Frezza are sensitive to the needs of researchers, it's because it was in that role that they started Emerald Therapeutics in 2010. Attempting to raise funding for their effort to develop a novel therapy for persistent viral infections, the co-founders, who've been best friends since they grew up together in Philadelphia, were on the verge of giving up and heading back to the east coast when Peter Thiel personally persuaded them to stay in town. A few weeks later, his Founders Fund wrote them their first check. They've raised more than $13 million to date.
Work on their viral cure is ongoing but deep in stealth mode. Frezza says it will be perhaps a year before they're ready to talk about it publicly. Meanwhile, in the next 18 months they plan to invest another $7 million in the ECL, more than doubling the number of different experiments it's capable of carrying out.
Source: http://www.inc.com/jeff-bercovici/emerald-therapeutics-peter-thiel.html
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5 Tips for Biotechnology Privacy & Security

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8.26 Biotech Security top story photo sizeHigh-risk security breaches and hacker attacks are making headline news in today’s biotechnology and pharmaceutical industries. Experts are warning biotechnology industries to beware of the data hit list because personal documents and records have been the primary focus of current attacks. Given the ever-changing nature of biotechnology industries and the massive quantities of data generated, it is imperative to stay ahead of the game. With data management coming under increasing focus, experts encourage industries to use the below tips when securing and managing data, which is crucial to the integrity of the industry.
A checklist including strategic planning, compliance, privacy and security will help industries successfully secure and manage data.
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