Personal Genomics Can Drive Preventive Medicine and Wellness

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The next wave of genomics impact in health care is preventive medicine and wellness.

Genetic information for individual patients has already successfully infiltrated important areas of clinical practice, notably the diagnosis and treatment of cancer and rare diseases.

Can we now move beyond genomic tests for patients with diseases and begin to use genetic screening of healthy populations to guide preventive medicine and general wellness?  The answer is clearly “yes.”

Today, WuXi NextCODE announced a positive step forward with results from our HealthCODE wellness scan to show the value of genomics in preventive medicine.

Remarkable progress has been made—and continues to evolve—in using genomics as a fundamental technology to guide the treatment of diseases. Many types of cancer patients now routinely have their genetic information tested to inform a personalized medicine approach to their cancer treatment. Similarly, patients with idiopathic and rare diseases increasingly receive genomic testing to identify the pathogenic mutations that may be driving their disease.

Now, genomic information is evolving into the realm of health and wellness. Genomics can help with preventive medicine, serving as a valuable tool for informing people and their doctors about genetic risk factors hiding in DNA, so that individual health plans can be developed. In a preventive medicine and wellness context, genomic information can give people the opportunity to take control of their health by making lifestyle changes and charting a personally tailored healthcare path.

Medical experts, government organizations, and genomics leaders around the world are pushing the frontier of genomics in health and wellness. In January 2017, the U.S. Centers for Disease Control and Prevention (CDC) held a special workshop to discuss the role of public health in using genetic screening of healthy individuals. The CDC states that it is becoming clearer as science progresses that there are more opportunities for using genetic screening for preventing common diseases across the lifespan.

Today, WuXi NextCODE announced our first pilot analysis of results from a group of 190 healthy individuals using our HealthCODE consumer whole-genome wellness scan. The scan uses proprietary risk modeling to gauge each individual’s inherited risk of 28 common complex diseases, like hypertension, type 2 diabetes and heart attack. On average, these participants from China were at more than 1.5-times average risk of four common diseases.

A clinical-grade scan such as HealthCODE makes it possible to target those individuals at highest inherited risk of certain diseases, so that they and their doctors can act on this information with lifestyle changes, monitoring, and even medicines they should consider to counteract those risks and increase their chances of staying healthy.

Moreover, the results presented today are important as a reflection and component of the power of having a global platform for genomic data. The same leading technology that is being deployed for Chinese consumers interested in using their genome to protect their health is also being used and can be deployed around the world. The key is the ability to model risk accurately for different populations and to use the same platform for interpreting the data and delivering actionable results to individuals while, at the same time, enabling them to participate in research if they wish to do so.

With the rapid progress in genomics, there is a growing sense that genomic advances are leading to new models of health care centered on disease prevention as well as treatments that are tailored to the individual. At the core, the aim of all of us is to reinforce the ability of health care to prevent illness and inform how we can live healthier. The impact can be across a range of outcomes, from better individual health, improved quality of life, and reduced costs to the healthcare system.

Diversity in Genomic Data

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Incorporating information from diverse populations into reference genomic databases is key to our mission at WuXi NextCODE.

Diversity is undeniably essential to genomics. To maximize the power of our field to revolutionize healthcare and improve patient outcomes, we must continually expand our understanding of the genetic factors that influence disease. Importantly, we must recognize that those factors are not uniform across all populations. At WuXi NextCODE, we believe that incorporating information from diverse populations into reference genomic databases is key to our mission.

As a recent article in Nature clearly describes, we have made great strides in expanding the diversity of genome-wide association studies (GWAS). Between 2009 and 2016, we have seen tremendous growth both in the number of studies (from 373 to 2,511) and in the number of individual samples (from approximately 1.7 million to almost 35 million). During that same period, however, the percentage of non-European samples included in GWAS grew from just 4% to roughly 20%.

The progress that has been made in the diversity of genomic data is mostly derived from the inclusion of studies that focus on Asian populations, such as the initiatives WuXi NextCODE has launched in China. Expanded diversity in GWAS will continue as more and more population-wide studies gain traction in non-European countries. Announced studies that will contribute to diversity in genomics include H3Africa (Human Heredity & Health in Africa), the Egyptian Human Genome Sequencing Project, and the Saudi Human Genome Program. And WuXi NextCODE is proud to have partnered with Sidra Medical and Research Center to develop the Qatar Genome Programme.

In addition to these global initiatives, we will gain a better understanding of genetic diversity through targeted studies in Europe and the United States. Specifically, we will benefit from research that focuses on underrepresented populations, such as the Hispanic Community Health Study/Study of Latinos and the Strong Heart Study of American Indians. Further, we will benefit as well from continuing investigation of diversity within European populations, including the work of WuXi NextCODE allies Genomics England and Genomics Medicine Ireland.

In all of these efforts, we seek to identify actionable associations not only between genetic variants and diseases, but also between genetic variations and drug responses. Thus, as diversity expands, so will important information about disease biology. Key questions will be answered: Which associations uncovered in studies built on GWAS for European populations will be replicated, and what new associations will be discovered?

At WuXi NextCODE, we appreciate the importance of gathering and analyzing data from diverse populations.  We supply research and analytical tools to ensure that the benefits of research extend to diverse populations.  Above all, we are committed to pursuing research and discovery goals around the world, leveraging our global footprint and global vision to maximize opportunities to discover meaningful associations that lead to improved treatment and better patient outcomes.

Genomics: Forging Patient-Centric Communities

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Genomics has become a foundation for virtual patient-centric communities involving patients, caregivers, clinicians, and researchers worldwide.

In recent years, genomics has become a foundation for virtual patient-centric communities – communities built on the Internet and through social media that:

  • Connect people touched by a disease or disorder; or
  • Reach out to broad populations affected by rare diseases, many of whom are undiagnosed.

These patient-centric communities are dedicated to sharing information and providing support in order to break down the barriers of isolation and uncertainty that can compromise care and adversely affect quality of life for patients and their families.  As we learn more about the genetic variations that contribute to diverse conditions, virtual communities that are fueled by genomics contribute an ever-expanding resource.

Virtual communities have greatly affected patients and caregivers worldwide, and the relationships forged through genomics are essential to clinicians and researchers as well.  Genomics not only serves to link patients to each other but also to connect those patients to research initiatives that use genetic sequencing to diagnose conditions and guide treatment, thus improving patient outcomes today while influencing research for better therapies tomorrow.

RareConnect, for example, is an online platform that connects patients, caregivers, clinicians, and researchers in more than eighty disease-specific communities.  Another leader in this arena is PatientsLikeMe, which has activities that encompass more than 400,000 members with over 2,500 conditions.  Many diseases and conditions are identified by genetic abnormalities or characteristics.  Participants in RareConnect, PatientsLikeMe, and similar sites are drawn in part to the ways in which genomics could contribute to an accurate diagnosis, a novel treatment, and ultimately a cure.

The use of genomics to build communities has been especially important for rare diseases.  For patients and caregivers affected by the rarest of rare diseases – the disorders so rare that only a handful of known cases exist worldwide – the transformative role of genomics is that much more powerful.

An excellent article in The Atlantic tells the story of one young woman whose experience illustrates this phenomenon.  A genomic study identified the genetic mutation that underlies Lilly Grossman’s movement disorder.  The information provided by genomics has enabled the formation of a virtual community.

Lilly’s case has acted as a magnet for others with the same mutation. Families with the same problem read about Lilly’s case and contacted the Grossmans. Doctors and geneticists looked at their own patients and saw a new explanation behind puzzling symptoms. Before, there were isolated pockets of people around the world, dealing with their own problems, alone for all they knew. Now, there’s a community.

The connections forged through genomics are essential to patients, often children, and their caregivers, often families.  Genomics can provide the vital link, the piece of information that identifies individuals with similar experiences – the community of people who understand.  Patient-centric communities are one way in which the increasing availability of cost-effective genetic sequencing is transforming patient experiences, shortening diagnostic odysseys, and improving clinical care.

Many such communities are also critical for advocacy and fundraising.  Parent Project Muscular Dystrophy (PPMD), for instance, has worked effectively to promote Duchenne muscular dystrophy research and speed the discovery of potential treatments. PPMD has demonstrated how parents and caregivers can effect meaningful change, raising both awareness and financial resources – and even being a leading voice in support of FDA approval of therapeutics.

The intersection of genomics and social media increasingly drives progress, too. The Charlotte & Gwyneth Gray Foundation, for example, has raised an estimated $3.5 million to support CLN6-Batten disease research – through a crowdfunding initiative launched less than a year ago.

And coalitions of patient-centric communities can achieve significant advances through the power of numbers. Thus Genetic Alliance, a network of more than 10,000 organizations, was a key player in passage of the Genetic Information Nondiscrimination Act and in development of the National Patient-Centered Clinical Research Network.

Initiatives run the gamut from efforts to identify a handful of individuals with rare diseases to projects that aim to enroll thousands of participants.  Earlier this month, the University of Washington launched MyGene2, a site where families with rare conditions can publicly post their stories, establishing connections not only with those who share similar stories but also with clinicians and researchers.  At the other end of the spectrum, 23andMe has partnered with a number of Parkinson’s community groups on a project to gather genetic data from more than 11,000 individuals.

And, in the last year, the Simons Foundation Autism Research Initiative (SFARI) launched SPARK, a project to collect genomic information from 50,000 people with autism and their families.  At WuXi NextCODE we are delighted to participate in this endeavor by providing direct online access to the data.

Genomics has played a critical role in the evolution of patient-centric communities.  Groups that have developed resources and advice for patients and families are increasingly collaborating with clinicians and researchers.  Through voluntary contributions of personal knowledge – and genomic data – participants in patient communities are expanding the impact of genomics on medicine.  The growing power of virtual communities has facilitated numerous initiatives to improve patient outcomes through improved diagnosis, optimized standards of care, and new directions for promising research.

From rare diseases to disorders that affect millions, all stakeholders increasingly use genomics to translate individual experiences and expertise into meaningful improvements in the lives of patients and their caregivers.  Genomics sits at the powerful nexus between evidenced-based medicine and the empowered patient.  At WuXi NextCODE we are proud to advance the role of genomics not only in patient care but also in the evolution of strong, effective patient-centric communities.

Marking Progress in Genomics: Reflections and Prospects

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Progress in Genomics WuXi NextCODEAs leaders of our field gather in Vancouver for the annual American Society of Human Genetics Meeting (ASHG 2016), it is an excellent time to take stock of the past and clarify our perspectives for the future. For the field of genomics, this is an opportunity both to reflect on our accomplishments over the last few years and to consider what we can achieve in the years ahead.

Indeed, our accomplishments have been numerous and our goals are ambitious, yet achievable. Here, I would like to summarize five significant ways in which our work in genomics has been revolutionizing medicine and improving patient outcomes.  In addition, I would like to share my thoughts about five areas in which I believe our field can drive meaningful change over the next few years.

What We Have Achieved
1. Improvements in Sequencing Technology and Analytical Tools
The ever-increasing volume of genomic data is testimony to the dramatic increases in sequencing speed and efficiency over recent years.  At the same time, novel methods of analysis, like the powerful genomics platform employed here at WuXi NextCODE, have considerably advanced our understanding of genetic variations and their clinical significance.

2. Transformations in Cancer Treatment
As I have discussed here, the expanding use of genomic data to guide treatment decisions in oncology is transforming the way clinicians approach cancer treatment.  In addition, our growing understanding of genetic predispositions for certain cancers is helping high-risk individuals make informed choices about preventive care.

3. Progress in Rare Diseases
Genomic data has brought new hope to families struggling with rare diseases by shortening diagnostic odysseys, guiding treatment, and building communities.  I provide examples of the game-changing power of genomics in the diagnosis of rare diseases here.

4. Empowerment of Patients and Consumers
Patients and consumers are increasingly informed about the innovative and meaningful ways in which genomic data can guide healthcare decisions.  The successes in our field are empowering individuals to pursue personalized medicine and generating interest in direct-to-consumer testing.  I offer my thoughts about DTC genetic testing here.

5. Innovations in Cloud-Based Analysis
The vast and ever-growing quantity of genomic data and related information necessitates new approaches to storage and analysis.  As I have previously discussed, cloud-based computing is essential to continued success in genomics.  WuXi NextCODE’s Exchange is at the forefront of the accelerated research made possible by real-time collaboration and analysis in the cloud.

What We Can Achieve in the Years Ahead

1. Effective Communication and Collaboration
Realizing the full potential of big data and cloud-based computing will require new efforts to dismantle “data silos.”  I am encouraged by recent initiatives to facilitate collaboration in cancer research, and – as I have recently discussed – call upon researchers and clinicians throughout the field of genomics to improve communication among all stakeholders.

2. Policies for Research with Patient Data
Our field derives its greatest power from careful analysis of genomic data, and access to data is critical to effecting meaningful change in healthcare.  In order to gather this game-changing data – from patients, from consumers, and from population-wide studies – we need to develop and embrace policies that lead to consider the ‘biorights’ of patients.  Individuals who wish to contribute information for research should have the opportunity to do so, and all parties should clearly communicate the purposes and extent of data-sharing.

3. Integration for Clinical Trials
I perceive significant movement toward the development of clinical trials that test the efficacy of treatments tailored to specific genetic anomalies – and use genetic information to screen participants.  This is an area in which genomics will dramatically accelerate the development of personalized therapies that will surely improve patient outcomes.

4. Actionable Information from Population-Wide Genomic Studies
I believe that in the near future we will reap significant rewards from projects that gather population-wide genomic information.  Analysis of the data we are collecting around the world, which I describe here, is an essential step to reshaping healthcare practices worldwide.

5. Globalization of Genomic Products: ‘Think Globally, Act Locally’
The power of genomic information is now known throughout the globe, and can be applied in a multitude of positive ways.  With such widespread potential, individual countries and cultures will choose to advance and roll-out genomics in their own distinct ways for the benefit of their citizens.  Companies that develop genomic products will need to adapt and design their products for use in specific markets.  At WuXi NextCODE, the first focus of our product portfolio for individual patients and families is in China, where we are delivering three offerings: population-optimized diagnostics, carrier screening, and whole-genomic wellness scans.

Together these initiatives build upon our recent accomplishments and further the creation of data and analysis necessary for meaningful change in healthcare.

The genomic revolution in medicine that we envisage will be achieved through applied use of research and development that is:

  • Fueled by big data, including data provided by informed consumers and patients and data derived from population-wide studies;
  • Supported by clinical trials crafted to assess the safety and efficacy of treatments tailored to individual characteristics; and
  • Enabled by collaborative work and effective communication.

At WuXi NextCODE, we are energized by the prospects for genomics in the years to come. We are proud to be at the cutting edge, providing the tools and resources that researchers and clinicians need to harness the transformative power of genomic data. And—importantly—we are confident that our field will continue to drive meaningful changes in healthcare that improve patient outcomes.

Genomic Information and the Importance of Communication

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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.

Genomics: Big Data Leading to Big Opportunities

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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.

FDA Approval Moves DTC Genetic Testing Forward

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23andMe is relaunching its direct-to-consumer genetic tests in the U.S. with the approval of the FDA to provide consumers “carrier status” information on 36 genes that can cause rare diseases. I am optimistic that DTC genetic testing will expand its impact over time, ultimately having a tremendous impact on human health globally.

Today, genomics industry maverick, 23andMe, is relaunching its direct-to-consumer (DTC) genetic testing in the U.S., with the approval of the FDA to inform consumers whether they carry a genetic variant for one of 36 rare diseases that could potentially be passed on to their children. In addition to this carrier status information that now meets FDA standards, reports from the newly launched 23andMe test will include information on wellness, traits, and ancestry.

A big positive step forward

For the genomics industry as a whole, this is a significant step forward as the FDA’s decisions have global influence. Indeed, this is a landmark FDA decision, as it is the first time ever that the FDA has allowed such a broad spectrum of medically relevant genetic information to be provided directly to consumers. Both the FDA and 23andMe deserve credit for working through the challenges that, less than two years ago, resulted in the FDA ordering 23andMe to stop marketing its genetic testing kits in the U.S. That the FDA—one of the world’s most thoughtful medical regulatory agencies—has come so far so fast is indicative of the potential it likely sees in DTC genetic testing improving the health of U.S citizens.

A larger journey ahead for direct-to-consumer genetic testing

Moving forward, there are at least two important directions that—in collaboration with the appropriate regulatory agencies, such as the FDA—I think DTC genetic testing will advance:

• DTC genetic testing will expand its reach globally; and
• DTC genetic testing will likely expand the medical impact of its reported results.

DTC genetic testing will expand its reach globally.

Catalyzed by demand for improved health, DTC genetic testing services will inevitably become accessible to much of the world’s population over the decades to come. To be successful, these services will need to be customized by geography and culture and approved by the appropriate local governmental agencies. While the genome is shared by all humans, it is naïve to think that DTC genetic testing services will be the same across all people living anywhere. It is incumbent on industry participants to align their DTC reports and services to best meet the needs of the specific customers in specific countries and geographies—and to do so in a spirit of cooperation with the appropriate governmental health regulators.

DTC genetic testing will likely expand the medical impact of its reported results.

As noted, today’s FDA approval for 23andMe to be able report on carrier status is a significant step forward, but more health data remains to be gleaned—and reported—from an individual’s genomic data. From 23andMe’s announcement, you can see the foreshadowing of what may ultimately be possible:

About [23andMe’s] Carrier Status Tests
[23andMe’s tests] can be used to determine carrier status in adults from saliva collected using an FDA-cleared collection device (Oragene DX model OGD.500.001), but cannot determine if you have two copies of the genetic variant. Each test is most relevant for people of certain ethnicities. The tests are not intended to diagnose a disease, or tell you anything about your risk for developing a disease in the future. On their own, carrier status tests are not intended to tell you anything about the health of your fetus, or your newborn child’s risk of developing a particular disease later in life.

Clearly, working with regulators such as the FDA, and others, such as thoughtful genetic counselors, there is a future potential for the right service to be able to report on people’s risk for developing specific diseases. Informed, health-conscious consumers are very likely to demand access to this information—and millions of individuals have already paid significant sums out of their own pockets to have their genomes sequenced and analyzed. Indeed, from news reports covering 23andMe, we know that when ordered by the FDA to stop providing health information such as the disease risk, their rate of new customer sign-ups dropped by more than half.

I am very optimistic that DTC genetic testing will expand its impact over time, overcoming skepticism and ultimately having a tremendous impact on human health globally. I am proud that our team at WuXi NextCODE will be a part of making this exciting future happen, and today I am especially proud that WuXi Ventures recently invested in 23andMe, making us active supporters of its current and noteworthy success.

Genomics in Cancer: Continuing to Push the Leading Edge

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Genomics is helping to prevent and treat cancer at an accelerating rate, supporting the goal of oncologists to dramatically improve cancer patient outcomes.

The progress in the use of genomics to help prevent and treat cancer continues to grow at a pace that is impressive. Indeed, there is expanded use of genomics to drive patient care and improve outcomes across an ever-expanding number of cancers by a growing number of oncologists.

Genomic Knowledge Can Clearly Drive Better Care

Applying genomics to cancer treatment is a powerful clinical application, as genomics can provide a window into how to best treat a patient’s particular cancer as it:

  1. may help better understand the genetics of the tumor itself, and
  2. can provide insight into how cancerous tumors may grow and spread over time.

With a genomic-based approach to cancer care, oncologists can more personally tailor anti-cancer treatments to an individual tumor’s mutations, thus molecularly targeting the specific cancer’s Achilles heel. Already, there are well-documented successes of molecularly targeted anti-cancer agents, such as cancer drugs that target certain genes—HER2, EFGR, ALK, and others.

In 2015, the pace of adoption of genomics in clinical oncology has advanced significantly. Recent evidence of the accelerating use of genomics to help fight cancer includes:

  • Evolving from ‘why’ to ‘how’ to use genomics at leading cancer centers. At the top cancer care facilities, genomics has become part of the programmatic approach to provide certain cancer patients with optimal care—care that is fundamentally designed to lead to the best outcomes. The question for leading medical centers globally has evolved over the last few years from “do we need genomics?” to “for which cancer types and at what stages of cancer treatment and diagnosis can we best use genomic sequencing and analysis?”—an evolution from “why?” to “how?” at a very fundamental level. The accelerating use and deployment of genomics by leading medical facilities validates that they are deriving significant value from genomics, and that value is resulting ultimately in meaningfully advancing better care for cancer patients.
  • Expanding potential applications of genomics within different types of cancers, broadening the types of cancers and tumors that can potentially benefit from genomics. Researchers and clinicians continue to publish a wealth of information validating the potential of genomics to improve outcomes in certain types of cancer patients. In 2015 alone, highlights of these advancements include certain prostate cancers, brain cancers, rare types of pediatric kidney cancers, and even potential targets in certain non-small cell lung cancers.
  • Broadening acceptance in cancer prevention. Driven in part by the education of oncologists and physicians generally and in part by the empowerment of knowledgeable patients, people are seeking and benefiting from genetic tests that reveal their personal risk for certain tumors (such as BRCA for breast or ovarian cancers). The idea of using genomic analysis to predict an individual’s cancer risk by comparing their genome with databases of confirmed genetic mutations linked to disease is—for certain individuals with specific family histories and genetics—driving appropriate medical decisions for patients who may be at high risk for certain cancers.
  • Powering clinical trials with genomics. The use of genomics in cancer clinical trials – whether for inclusion in data-gathering or even screening of patients—has gone from rare to commonplace over recent years, and is improving knowledge around the safety and efficacy of drugs in cancer and beyond. Two large-scale cancer trials have been initiated in 2015 with the bold goal of substantially advancing the understanding and use of genomics in cancer care. The anti-cancer treatments being tested in both trials were selected for their activity on a specific molecular target, independent of tumor location and histology. The two trials are actively enrolling and are (1) an American Society of Clinical Oncology (ASCO)-sponsored study, called TAPUR (Targeted Agent and Profiling Utilization Registry) and National Cancer Institute (NCI) and is called NCI-MATCH (Molecular Analysis for Therapy Choice). These trials and any subsequent follow-on trials will doubtless provide insightful information to drive the growing use of genomics in improving cancer care.

In summary, genomics is helping to prevent and treat cancer at an accelerating rate, supporting the goal of oncologists to dramatically improve cancer patient outcomes. There are at least four frontiers where we can see substantial progress in the use of genomics in cancer care, including expanded use in leading medical centers, increased potential applications within cancer, widespread acceptance in cancer prevention, and an increase in the use of genomics within clinical trials. I am personally committed to continue to drive and accelerate this genomic revolution to continue to bring true progress in improving cancer care to patients in need globally.

2015: An Inflection Point for Genomics Adoption Around the Globe

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2015 genomics hannes smarason

2015 is shaping up to be a significant year in the advancement and adoption of genome sequencing and personalized medicine around the globe.

The year 2015 is shaping up to be an inflection point in the advancement and adoption of genome sequencing and personalized medicine.  While private initiatives are often the centerpiece of media coverage, leading governments clearly have advanced a number of important initiatives this year.  Indeed, many governments around the globe are actively promoting widespread utilization of genomics, supporting academic research, establishing industry guidelines, and raising public awareness.

Governments Serving as Catalysts for Genomics Progress

The efforts of officials worldwide to engage with and support the private sector’s tremendous potential have helped to make 2015 a significant year for expanding the use of genomics in clinical care.  A few highlights of 2015 include:

— In the U.S., President Obama made precision health one of the centerpieces of his State of the Union address in January. Obama’s administration kicked this effort off by requesting a $215M investment in a Precision Medicine Initiative with the following key attributes:

  • The cornerstone of Obama’s proposal is the plan to collect and analyze genomic data from a million or more volunteers;
  • The initiative further supports genomics through expanded research into the genetic mutations that drive cancer;
  • Additional funding is earmarked to maintain databases and develop industry standards.

— Germany and the U.K. expanded eligibility for government-funded genetic testing for breast cancer patients.

— Israel announced its intent to establish a government-sponsored genetic database.

— Through the National Institutes of Health and the National Cancer Institute, the U.S. federal government proposed dozens of new funding opportunities to support research in genetic sequencing and analysis.

— Japan launched an Initiative on Rare and Undiagnosed Diseases to provide genomic analysis and expert consultation for up to 1,000 individuals with childhood onset of undiagnosed conditions.

— Through Genomics England (which I described in further detail here), the U.K. Department of Health tapped WuXi NextCODE and others to begin interpretation in its groundbreaking 100,000 Genomes Project.

In news today, the trend toward globalization of genomics continues, as private sector leaders aligned to meet the needs of the forward-looking government health initiatives of Qatar:

— WuXi NextCODE and the Sidra Medical and Research Center partner to power population genomics and precision medicine in Qatar. Our partnership will:

  • Facilitate clinical diagnostics;
  •  Accelerate research; and
  • Support the Qatar Genome Project.

As I have discussed in an earlier post, large-scale population studies are an essential step in harnessing the power of genomics to improve health worldwide.  Since WuXi NextCODE’s foundational heritage as part of deCODE Genetics’ landmark analysis of Icelanders, we have always developed the tools to help translate sequence data into precision medicine on a large scale.  In our work with Genomics England, our collaboration with Fudan Children’s Hospital to diagnose rare diseases in China, and now our partnership with Sidra, the team at WuXi NextCODE is leading the effort to realize the potential of genomics on a truly global scale. The increasing interest in supporting those efforts shown by leading governments across the globe is helping to drive the successful use and application of genomics worldwide.

Genomics for Rare Diseases: Going Global and Shifting the Care Paradigm

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The use of genomics in rare disease diagnosis and treatment is going global

The benefits of genomics in rare diseases are increasingly making a difference to patients, their families, and their physicians, and they are being scaled globally.

The trend of accelerating the use of genomics in rare disease diagnosis and treatment is going global, driven by the important goal of reaching all people around the world, no matter where they live.

Active programs have now been deployed and exist in many populous countries around the world.

For instance, WuXi NextCODE has established active collaborative efforts in three continents, most recently adding Fudan Children’s Hospital as a partner in its efforts to lead whole genome diagnostics for rare diseases in China.

Over the coming weeks, I expect WuXi NextCODE to continue have news of its dedicated efforts to spread the application of genomics for rare diseases to all geographies.

Diagnosing Rare Diseases: Genomics Shifts the Paradigm

Rare diseases are an area of significant advancement for genomics, as the opportunity for improved diagnosis and treatment through the use of genomics is truly remarkable.

According to the National Institutes of Health (NIH), there are over 7,000 rare diseases affecting between 25 and 30 million Americans, which is nearly 1 in 10 people, making the overall prevalence of rare diseases significant. Since NIH believes that approximately 80 percent of rare diseases have genetic origins, the potential for genomic sequencing, interpretation, and analysis to offer a solution here is truly game-changing.

Every day there are new cases of children with “unknown” diseases, many of which are likely related to a hereditary genetic disorder. Sadly, these children and their families often spend years undergoing testing and experimental treatments for a wide range of diseases in an attempt to properly diagnose and treat them; usually, this so-called “diagnostic odyssey” is accompanied by a very high financial and emotional burden.

Genomics offers the potential to deliver a correct and precise diagnosis for rare diseases that have identifiable genetic causes. Indeed, case studies are rapidly accumulating that show that, by offering genomic sequencing and analysis services to patients with a suspected rare genetic disease, mutations that might be causing the disease may be identified, and thus correct treatment can be employed much earlier to eliminate the burden of a long-term diagnostic and treatment odyssey.  A recent article in Bloomberg BusinessWeek highlighted medical histories of two patients who recently received a diagnosis informed by genomics. In both these representative examples, genomic analyses provided an end to the burden, cost, and stress of their multidecade-long diagnostic odyssey:

  • Jackie Smith, 35, spent the 32 years from age 3 unable to receive a correct diagnosis that could account for her weak limbs and turned-in ankles, despite seeing many doctors on numerous occasions. Indeed, Jackie’s parents were told to “take the 3-year-old girl home and enjoy her while they could” …”[her disease] would probably kill her before she was old enough to drive.”  This past February, using genomic interpretation and analyses from Wuxi NextCODE, Claritas Genomics definitively identified her condition as centronuclear myopathy in less than three weeks.
  • Dustin Bennett, 24, would tremble and violently jerk for hours or days at a time and had been developmentally delayed since childhood. After dozens of doctor visits and incorrect diagnoses—seizures, muscle disorders, mental health problems—a Mayo Clinic genomic-based analysis showed he has episodic ataxia type I, a neurological disease characterized by hours-long attacks with no clear trigger. Dustin, a 24-year-old who functions at a first-grade level, is now on the second round of a medication doctors say should help reduce the frequency and severity of his episodes.

The benefits of genomics in rare diseases – to individuals, their families, and their physicians – are increasingly making a difference to patients.  These benefits are being seen in case after case – and they are being scaled globally, as leading medical centers in many countries around the world are using genomics to support their efforts in diagnosing and treating rare diseases.  I believe passionately in the game-changing potential of genomics to help rare disease patients and I am dedicated to advancing world-leading genomics globally to uncover new solutions for patients.