Genomic Information and the Importance of Communication

Communicating clinically useful results both to doctors and patients will drive success

genomics-communications-hannes-smarasonAround the world, researchers and clinicians are taking on the challenge of integrating genomic analysis into medical practice. Physicians and patients are increasingly aware of the potential utility of genomic data. As genomics continues to become a more powerful tool in healthcare, there is a clear and compelling need for a commitment to excellence in communication.

At WuXi NextCODE, we are proud to provide sequencing and analysis resources that help doctors:

  • Shorten diagnostic odysseys, as I have discussed here; and
  • Improve treatment choices, as I have discussed here.

Maximizing the opportunities afforded by the ‘big data’ of genomics necessitates collaboration and communication, which I discuss in more detail here. As part of our genomics business, we are dedicated to the highest standards of communication – indeed, we view effective communication as central to how our technologies will improve health in both the near and the long term.

The task of harnessing the vast and expanding quantity of genomic data to improve clinical care requires interpretation and discovery powered to translate the data into clinically useful information. Leveraging that information to improve patient outcomes also requires clear and accurate communication:

  • Between researchers and clinicians;
  • Between specialists in different medical fields;

And, increasingly,

  • Between doctors and patients.

As the recent CLARITY Undiagnosed competition highlighted, applying genomic data to medical practice involves interpreting the sequenced genomes and identifying molecular diagnoses – and a third step: communicating clinically useful results both to doctors and to patients.

The CLARITY challenge winners, including WuXi NextCODE, were explicitly recognized for the quality and clinical utility of their reports.

Studies and surveys have shown that many people favor greater access to genetic information. Individuals want analysis of their genomes in order to:

  • Reveal their unique risk factors for inherited diseases;
  • Pinpoint a diagnosis if they are ill; and
  • Guide their decisions if they are seeking treatment.

Genomics is helping to inform patients in all these ways.

In addition, genomics demonstrates enormous potential to empower individuals.

The hundreds of thousands of people who purchase genomic testing through direct-to-consumer businesses like 23andMe are demonstrating a robust enthusiasm for gathering genomic information. And patients enrolled in clinical trials and donors participating in population-wide genomic studies express a desire to be more informed. Patients and consumers consistently seek resources that transform their personal genomic signatures into information they can use to make better healthcare and lifestyle decisions.

And most patients and consumers are willing – often eager – to share their genomic information to aid medical research and discovery. 23andMe reports, for example, that 80% of its customers consent to share their genomes for research.

It is unmistakably clear that, in the not-too-distant future, every individual in many countries around the world will have their genome sequenced. Throughout a person’s life, medical professionals will be able to access genomic information to guide health decisions – from identifying inherited conditions to assessing risk for complex diseases to calculating appropriate treatments, drugs, and even dosages for truly personalized healthcare.

The more effectively we communicate – the more we share information within the research community and parlay that into clinically useful information for patients – the greater the benefit to all.

As much as people understandably prefer simple, definitive answers to questions about their personal health, the information that genomics provides can be complex and even ambiguous. A genetic variant might be identified, for example, that can be tied to family medical history and translated into a probability or likelihood. This was the case for Angelina Jolie Pitt, who noted in her New York Times piece that her genomic analyses “gave [her] an estimated 87 percent risk of breast cancer and a 50 percent risk of ovarian cancer.” Percentage risks are nuanced, and individual perceptions of acceptable risk vary considerably. It is therefore difficult to define precisely the circumstances under which a genetic variant becomes clinically actionable.

Or a genetic variant might be identified which gives physicians clues but does not explicitly identify a specific disease. For example, a patient seeking a diagnosis may have a genetic variant that correlates to a number of diseases involving dysregulation of lipid metabolism. Identifying the variant provides physicians and caregivers with a clear direction for further analysis and treatment, but does not yield a conclusive diagnosis or prognosis.

Or a genetic variant might be identified which has yet to be understood as causing or playing a role in disease. Such a variant may occur by chance and have no medical relevance, or its meaning may be uncovered as science in the field advances. But for the person who is having the genomic information analyzed today, it offers no actionable information.

As all of these examples illustrate, effective communication about genomic information can be a significant challenge. There is a risk that poor communication will be a barrier to the adoption of genomic medicine, but if we strive to communicate clearly with patients and the public, our successes will likely accelerate more widespread use of genomics. The role of genomics in transforming health care will grow exponentially as we all endeavor to improve communication with patients, their families, and the public at large.

Our work at WuXi NextCODE is advancing the transformation of medical practice through genomics. As part of that vision, we recognize the critical importance of facilitating effective communication among all stakeholders. We provide the resources that enable researchers and clinicians to identify disease and inform treatment decisions. And we strive to add additional value by communicating about genomic information accurately and proactively, all with the ultimate goal of meaningfully improving patient outcomes.

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Genomics: Big Data Leading to Big Opportunities

The Big Data of Genomics

WuXi NextCODE Exchange

The big data of genomics will continue to expand, and our approaches to analyzing genomic data need to continue to evolve to meet the growing demands of clinicians and researchers. Cloud-based platforms such as WuXi NextCODE’s Exchange are essential to address the fundamental big data challenge of genomics.

Beyond question, we are in the midst of an explosion of “Big Data” in many facets of human endeavors. In fact, data-storage leader IBM asserts that roughly 2.5 quintillion bytes of data are generated every day and 90% of the world’s data was created in the last two years.

An outpouring of articles in scientific journals and major newspapers has highlighted the promising potential of big data in medicine, including a special section in the current issue of Nature.  Genomics has become a major source of the growth of such big data, particularly as the cost of sequencing genomes has plummeted. The raw sequence data for just one person’s whole genome use as much as 100GB—and already hundreds of thousands of individual genomes have been sequenced.  With more than 2,500 high-throughput sequencing instruments currently used in 55 countries across the globe, more genomes are added every day. The aggregate amount of genomic data is growing explosively, and next-generation sequencing (NGS) sequencing data are estimated to have doubled in volume annually since 2007.

The accumulation of genomic data is a worldwide phenomenon.  Impressive population-wide sequencing efforts are leading the way, from 100,000 genomes in England, Saudi Arabia, and Iceland to 350,000 in Qatar to a million in both China and the U.S.

And earlier this month, the CEO of the Cleveland Clinic predicted that soon children will routinely have their whole genomes sequenced at birth, implying a near-future in which 10s of millions of new genomes are sequenced annually.

Turning Data into Resources

But sequencing genomes is not enough, and the creation of genomic big data is just the beginning.

Thanks to the analysis of big data in genomics and associated informatics, we are seeing meaningful progress in cancer care and the diagnosis of rare diseases, as I have discussed here and here. We clearly have a tremendous opportunity to use the big data of genomics to continue to drive a revolution in healthcare.

Yet there is a broad consensus that a ‘data bottleneck’ is hampering collaboration and discovery. Not all researchers and physicians confronting the current onslaught of genomic big data can readily determine how to use genetic information to prevent or treat disease. To succeed, researchers and physicians clearly need resources that:

  • Draw together useful data from disparate sources;
  • Facilitate analysis and collaboration; and
  • Improve clinical practice.

The power of genomic analysis needs to expand outward from major research centers and hospitals to the myriad clinics and community hospitals where many patients receive care. To have the greatest impact on the broadest population, clinicians throughout the world’s health systems need access to the big data generated by DNA sequencing, even—or perhaps especially—if they are not affiliated with research institutions. They also need to be able to make sense of the data they have access to.

Answers in the Cloud

Sequencing provides the raw data to uncover the genetic variants that contribute to disease. But the datasets are too big to transfer repeatedly—and too big even for smaller hospitals, labs, or clinics to store onsite. Key medical advancements require not only big data, but also tools and resources to generate, interpret, and share analysis of millions of genomes.

Cloud-based platforms—such as WuXi NextCODE’s Exchange—are essential to address the fundamental big data challenge of genomics. Collaboration in the cloud works to dismantle existing “data silos”—genomic information hosted only on local servers and analyzed on idiosyncratic, closed platforms. The NextCODE Exchange, in contrast, is a browser-based hub that affords secure, seamless collaboration with colleagues around the world. Moreover, users get access to NextCODE’s tools for making the critical links between variation in the genome and disease and other phenotypes, backed by harmonized links to the the most important public reference data.

And cloud-based computing is inherently scalable: resources for data storage and analysis expand as needed, allowing researchers and physicians to leverage massive datasets to improve patient care in the clinic. The big data of genomics will continue to expand, and our approaches to analyzing genomic data need to continue to evolve to meet the growing demands of clinicians and researchers.

At WuXi NextCODE, we have built upon our heritage of conducting the largest analysis of genomic data (deCODE’s path-breaking Icelandic analysis) by assembling an ever-growing database of human genomes. We are committed to driving the movement of sequence data into patient diagnosis and care through user-friendly, leading-edge analysis and informatics. I am confident that data analysis and collaboration in the cloud will revolutionize healthcare, and exceptionally proud that WuXi NextCODE’s Exchange is at the forefront of this exciting advancement.

Bringing Together Core Technologies Unlocks Genomic Data to Improve Healthcare

genome analysis technologies

Within the “3-legged stool” of genomics-enabling technologies, lower-cost genome sequencing has reached a point of strong commercial viability, and the remaining two legs—genomic analysis tools database storage—are rapidly evolving to support the use of genomic information in medical care.

The adoption of genome sequencing technology is rapidly expanding as medical centers around the world embrace its utility in informing healthcare decisions—an emerging reality of personalized medicine.

There are three important areas of technology that are driving the use of genomic data in healthcare:  genome sequencing, genomic analysis tools, and database storage.

The first of these—genome sequencing—has advanced to the point that it is more widely accessible, with the cost of sequencing at nearly $1,000 or less. This lower cost of genome sequencing has reached a critical milestone to enable the use of sequencing as a mass-market product for medical care.

The second and third core genomic technologies—genomic analysis tools and database storage—are in the midst of evolution. Their progress and integration are critical for the next stage of adoption of genomic data into health care.

The rapidly evolving legs of the “3-legged stool” of genomics technology are genomic analysis tools and database storage.

  • Genomic Analysis Tools: Since the human genome was first sequenced more than a decade ago, an increasingly robust body of research has showcased the links between mutations identified in the genome and disease risk. Informatics tools have been developed by medical centers and genomics companies to apply to whole-genome samples. Increasingly, these genome analysis tools will need to adapt to the steady pace of new genomic linkages to disease and to operate at a level approaching “big data.”
  • Database Storage for Human Genomes: There are a growing number of robust databases of human genomes, including data for healthy people or those with certain diseases. When properly analyzed, these databases offer the potential to provide the medical community with a reference library against which to compare genetic data. Large-scale, high-quality databases are an essential element to cross-reference a patient genome to guide more informed medical decisions.

Recently, two leading genomics companies—WuXi and NextCODE Health—have combined their technology capabilities in these two areas. WuXi has industry-leading capabilities to analyze, store, and manage the vast amounts of genomic data. NextCODE Health brings a leading-edge system for sequence-based clinical diagnostic applications and genome analysis.

The combination of WuXi’s foundational genomic database storage and management and NextCODE’s sophisticated genome analysis tools will integrated the key components that are most rapidly evolving to apply genomics to medical care.

Initiatives like these advance the state-of-the-art in genomic analysis and database storage, bringing us to the heart of helping the world to fully harness personalized medicine and providing tools directly to doctors to provide better diagnostics and treatments to patients.

The progress to date has been amazing. Yet the opportunities ahead are even more extraordinary to improve the speed, accuracy, and accessibility of genomic information to improve human health.

Genomics and Rare Diseases: Hope for Solving Unanswered Questions

genomics and rare diseases

Leading institutions around the world are leveraging the power of advanced sequencing technology to solve some of the greatest unanswered questions in medicine.

As we learn more about disease biology and uncover new insights thanks to the availability of genomic technologies, we are making meaningful progress in identifying means to address many rare diseases for which there is little medical hope today.

With these new genomic tools and insights, a wide range of opportunities has emerged to improve diagnosis and treatment of rare diseases. Over the past few years, DNA sequencing has begun to uncover the causes of rare diseases and, at the heart of each case solved is a patient and a family that has gained new understanding about their condition. With time, these success stories in diagnosis will lead to more successes in treatment.

Now more than ever, there is more hope that identifying the key mutations will lead to better understanding of the biology of disease and then to novel therapies. Better and faster technologies are being promoted by leaders in the field of genomics that are enabling much more rapid analysis and interpretation of a patient’s genome to find answers. The critical first step is to obtain sufficient data to analyze, compare it against a robust database of reference data, and gain an accurate understanding of potential mutations associated with these rare conditions.

As researchers focus on specific areas, new partnerships are extending access to data and accelerating progress with rare diseases around the world. Recently, genomic analysis collaborations were initiated by ACoRD at University College Dublin to implement NextCODE’s proprietary database and analytical tools to mine whole genome data for variants linked to autism spectrum disorders. [See blog post here]. Another genomic analysis program with ANZAC in Australia applies advanced sequencing analysis technology to better understand X-linked Charcot-Marie-Tooth Syndrome, a rare and progressively debilitating neurodegenerative disorder. [See blog post here] More collaborations are in the works and we’ll be talking about them as soon as we can.

We look forward to the results of these and other collaborations as leading institutions around the world make efforts to leverage the power of advanced sequencing technology to solve some of the greatest unanswered questions in medicine.

Genomics-Based Medicine Coming Into View

NextCODE Health

NextCODE Health has quickly gained recognition for its unique capabilities to address unmet needs in the genomics space through a massive genomics database that interprets DNA samples to identify relevant disease markers.

The practice and adoption of genomic medicine is accelerating as technologies improve, costs fall and new insights drive better patient care. While many companies are supporting this emerging field, a select few are providing the unique perspectives and capabilities to advance progress even faster.

NextCODE Health made headlines less than a year ago with the announcement of its launch and funding by major investors in healthcare and biotechnology. The company quickly gained recognition for its unique capabilities to address unmet needs in the genomics space through a massive genomics database that interprets DNA samples to identify relevant disease markers. (See the features in Xconomy, Bio-IT World and PLOS Blog.) The company was later mentioned in Nature Biotechnology News for its potential contributions to genome studies by leveraging key reference data from deCODE’s Icelandic work in Iceland.

Its rapid trajectory since launch and the utility of its genomic analysis technology was featured in BioCentury in May, featuring testimonials from clinicians using NextCODE capabilities to diagnose patients at Boston Children’s Hospital, the Baylor College of Medicine, and the Sanford School of Medicine. In June, it was featured in a major interview with Bio-IT World and the company continues to expand. Since then, NextCODE has announced several programs through which global pioneers in clinical genomics research are applying its interpretation and analysis technology to support research and diagnosis in rare diseases, including:

As more organizations employ genomics in major research initiatives, NextCODE’s interpretation technology will be an increasingly important asset in delivering meaningful insights from the wealth of genomic data being produced. Visit NextCode for the latest on how the future of genomics-based medicine continues to evolve.