Can Genetic Testing Help Shed Light on the Autism Epidemic?
A little boy standing by a window in contemplation. (© altanaka/Fotolia)
Autism cases are still on the rise, and scientists don't know why. In April, the Centers for Disease Control (CDC) reported that rates of autism had increased once again, now at an estimated 1 in 59 children up from 1 in 68 just two years ago. Rates have been climbing steadily since 2007 when the CDC initially estimated that 1 in 150 children were on the autism spectrum.
Some clinicians are concerned that the creeping expansion of autism is causing the diagnosis to lose its meaning.
The standard explanation for this increase has been the expansion of the definition of autism to include milder forms like Asperger's, as well as a heightened awareness of the condition that has improved screening efforts. For example, the most recent jump is attributed to children in minority communities being diagnosed who might have previously gone under the radar. In addition, more federally funded resources are available to children with autism than other types of developmental disorders, which may prompt families or physicians to push harder for a diagnosis.
Some clinicians are concerned that the creeping expansion of autism is causing the diagnosis to lose its meaning. William Graf, a pediatric neurologist at Connecticut Children's Medical Center, says that when a nurse tells him that a new patient has a history of autism, the term is no longer a useful description. "Even though I know this topic extremely well, I cannot picture the child anymore," he says. "Use the words mild, moderate, or severe. Just give me a couple more clues, because when you say autism today, I have no idea what people are talking about anymore."
Genetic testing has emerged as one potential way to remedy the overly broad label by narrowing down a heterogeneous diagnosis to a specific genetic disorder. According to Suma Shankar, a medical geneticist at the University of California, Davis, up to 60 percent of autism cases could be attributed to underlying genetic causes. Common examples include Fragile X Syndrome or Rett Syndrome—neurodevelopmental disorders that are caused by mutations in individual genes and are behaviorally classified as autism.
With more than 500 different mutations associated with autism, very few additional diagnoses provide meaningful information.
Having a genetic diagnosis in addition to an autism diagnosis can help families in several ways, says Shankar. Knowing the genetic origin can alert families to other potential health problems that are linked to the mutation, such as heart defects or problems with the immune system. It may also help clinicians provide more targeted behavioral therapies and could one day lead to the development of drug treatments for underlying neurochemical abnormalities. "It will pave the way to begin to tease out treatments," Shankar says.
When a doctor diagnoses a child as having a specific genetic condition, the label of autism is still kept because it is more well-known and gives the child access to more state-funded resources. Children can thus be diagnosed with multiple conditions: autism spectrum disorder and their specific gene mutation. However, with more than 500 different mutations associated with autism, very few additional diagnoses provide meaningful information. What's more, the presence or absence of a mutation doesn't necessarily indicate whether the child is on the mild or severe end of the autism spectrum.
Because of this, Graf doubts that genetic classifications are really that useful. He tells the story of a boy with epilepsy and severe intellectual disabilities who was diagnosed with autism as a young child. Years later, Graf ordered genetic testing for the boy and discovered that he had a mutation in the gene SYNGAP1. However, this knowledge didn't change the boy's autism status. "That diagnosis [SYNGAP1] turns out to be very specific for him, but it will never be a household name. Biologically it's good to know, and now it's all over his chart. But on a societal level he still needs this catch-all label [of autism]," Graf says.
"It gives some information, but to what degree does that change treatment or prognosis?"
Jennifer Singh, a sociologist at Georgia Tech who wrote the book Multiple Autisms: Spectrums of Advocacy and Genomic Science, agrees. "I don't know that the knowledge gained from just having a gene that's linked to autism," is that beneficial, she says. "It gives some information, but to what degree does that change treatment or prognosis? Because at the end of the day you have to address the issues that are at hand, whatever they might be."
As more children are diagnosed with autism, knowledge of the underlying genetic mutation causing the condition could help families better understand the diagnosis and anticipate their child's developmental trajectory. However, for the vast majority, an additional label provides little clarity or consolation.
Instead of spending money on genetic screens, Singh thinks the resources would be better used on additional services for people who don't have access to behavioral, speech, or occupational therapy. "Things that are really going to matter for this child in their future," she says.
Scientists and Religious Leaders Need to Be More Transparent
A steeple cross at sunset.
[Editor's Note: This essay is in response to our current Big Question series: "How can the religious and scientific communities work together to foster a culture that is equipped to face humanity's biggest challenges?"]
As a Jesuit Catholic priest, and a molecular geneticist, this question has been a fundamental part of my adult life. But first, let me address an issue that our American culture continues to struggle with: how do science and religion actually relate to each other? Is science about the "real" world, and religion just about individual or group beliefs about how the world should be?
Or are science and religion in direct competition with both trying to construct explanations of reality that are "better" or more real than the other's approach? These questions have generated much discussion among scientists, philosophers, and theologians.
The recent advances in our understanding of genetics show how combining the insights of science and religion can be beneficial.
First, we need to be clear that science and religion are two different ways human beings use to understand reality. Science focuses on observable, quantifiable, physical aspects of our universe, whereas, religion, while taking physical reality into consideration, also includes the immaterial, non-quantifiable, human experiences and concepts which relate to the meaning and purpose of existence. While scientific discoveries also often stimulate such profound reflections, these reflections are not technically a part of scientific methodology.
Second, though different in both method and focus, neither way of understanding reality produces a more "real" or accurate comprehension of our human existence. In fact, most often both science and religion add valuable insights into any particular situation, providing a more complete understanding of it as well as how it might be improved.
The recent advances in our understanding of genetics show how combining the insights of science and religion can be beneficial. For instance, the study of genetic differences among people around the world has shown us that the idea that we could accurately classify people as belonging to different races—e.g. African, Caucasian, Asian, etc.—is actually quite incorrect on a biological level. In fact, in many ways two people who appear to be of different races, perhaps African and Caucasian, could be more similar genetically than two people who appear to be of the same African race.
This scientific finding, then, challenges us to critically review the social categories some use to classify people as different from us, and, therefore, somehow of less worth to society. From this perspective, one could argue that this scientific insight synergizes well with some common fundamental religious beliefs regarding the fundamental equality all people have in their relationship to the Divine.
However, this synergy between science and religion is not what we encounter most often in the mass media or public policy debates. In part, this is due to the fact that science and religion working well together is not normally considered newsworthy. What does get attention is when science appears to conflict with religion, or, perhaps more accurately, when the scientific community conflicts with religious communities regarding how a particular scientific advance should be applied. These disagreements usually are not due to a conflict between scientific findings and religious beliefs, but rather between differing moral, social or political agendas.
One way that the two sides can work together is to prioritize honesty and accuracy in public debates instead of crafting informational campaigns to promote political advantage.
For example, genetically modified foods have been a source of controversy for the past several decades. While the various techniques used to create targeted genetic changes in plants—e.g. drought or pest resistance—are scientifically intricate and complex, explaining these techniques to the public is similar to explaining complex medical treatments to patients. Hence, the science alone is not the issue.
The controversy arises from the differing goals various stakeholders have for this technology. Obviously, companies employing this technology want it to be used around the world both for its significantly improved food production, and for improved revenue. Opponents, which have included religious communities, focus more on the social and cultural disruption this technology can create. Since a public debate between a complex technology on one side, and a complex social situation on the other side, is difficult to undertake well, the controversy has too often been reduced to sound bites such as "Frankenfoods." While such phrases may be an effective way to influence public opinion, ultimately, they work against sensible decision-making.
One way that the two sides can work together is to prioritize honesty and accuracy in public debates instead of crafting informational campaigns to promote political advantage. I recognize that presenting a thorough and honest explanation of an organization's position does not fit easily into our 24-hour-a-day-sound-bite system, but this is necessary to make the best decisions we can if we want to foster a healthier and happier world.
Climate change and human genome editing are good examples of this problem. These are both complex issues with impacts that extend well beyond just science and religious beliefs—including economics, societal disruption, and an exacerbation of social inequalities. To achieve solutions that result in significant benefits for the vast majority of people, we must work to create a knowledgeable public that is encouraged to consider the good of both one's own community as well as that of all others. This goal is actually one that both scientific and religious organizations claim to value and pursue.
The experts often fail to understand sufficiently what the public hopes, wants, and fears.
Unfortunately, both types of organizations often fall short because they focus only on informing and instructing instead of truly engaging the public in deliberation. Often both scientists and religious leaders believe that the public is not capable of sufficiently understanding the complexities of the issues, so they resort to assuming that the public should just do what the experts tell them.
However, there is significant research that demonstrates the ability of the general public to grasp complex issues in order to make sound decisions. Hence, it is the experts who often fail to understand how their messages are being received and what the public hopes, wants, and fears.
Overall, I remain sanguine about the likelihood of both religious and scientific organizations learning how to work better with each other, and together with the public. Working together for the good of all, we can integrate the insights and the desires of all stakeholders in order to face our challenges with well-informed reason and compassion for all, particularly those most in need.
[Ed. Note: Don't miss the other perspectives in this Big Question series, from a science scholar and a Rabbi/M.D.]
Scientists: Don’t Leave Religious Communities Out in the Cold
A star of David reflects the perspective of a Rabbi/M.D. on an important question about the future of society.
[Editor's Note: This essay is in response to our current Big Question series: "How can the religious and scientific communities work together to foster a culture that is equipped to face humanity's biggest challenges?"]
I humbly submit that the question should be rephrased: How can the religious and scientific communities NOT work together to face humanity's biggest challenges? The stakes are higher than ever before, and we simply cannot afford to go it alone.
I believe in evolution -- the evolution of the relationship of science and religion.
The future of the world depends on our collaboration. I believe in evolution -- the evolution of the relationship of science and religion. Science and religion have lived in alternately varying relationships ranging from peaceful coexistence to outright warfare. Today we have evolved and have begun to embrace the biological relationship of mutualism. This is in part due to the advances in medicine and science.
Previous scientific discoveries and paradigm shifts precipitated varying theological responses. With Copernicus, we grappled with the relationship of the earth to the universe. With Darwin, we re-evaluated the relationship of man to the other creatures on earth. However, as theologically complex as these debates were, they had no practical relevance to the common man. Indeed, it was possible for people to live their entire lives happily without pondering these issues.
In the 21st century, the microscope is honing in further, with discoveries relating to the understanding of the very nature and composition of the human being, both body and mind/soul. Thus, as opposed to the past, the implications of the latest scientific advances directly affect the common man. The religious implications are not left to the ivory tower theologians. Regular people are now confronted with practical religious questions previously unimagined.
For example, in the field of infertility, if a married woman undergoes donor insemination, is she considered an adulteress? If a woman of one faith gestates the child of another faith, to whose faith does the child belong? If your heart is failing, can you avail yourself of stem cells derived from human embryos, or would you be considered an accomplice to murder? Would it be preferable to use artificially derived stem cells if they are available?
The implications of our current debates are profound, and profoundly personal. Science is the great equalizer. Every living being can potentially benefit from medical advances. We are all consumers of the scientific advances, irrespective of race or religion. As such, we all deserve a say in their development.
If the development of the science is collaborative, surely the contemplation of its ethical/religious applications should likewise be.
With gene editing, uterus transplants, head transplants, artificial reproductive seed, and animal-human genetic combinations as daily headlines, we have myriad ethical dilemmas to ponder. What limits should we set for the uses of different technologies? How should they be financed? We must even confront the very definition of what it means to be human. A human could receive multiple artificial transplants, 3D printed organs, genetic derivatives, or organs grown in animals. When does a person become another person or lose his identity? Will a being produced entirely from synthetic DNA be human?
In the Middle Ages, it was possible for one person to master all of the known science, and even sometimes religion as well, such as the great Maimonides. In the pre-modern era, discoveries were almost always attributed to one individual: Jenner, Lister, Koch, Pasteur, and so on. Today, it is impossible for any one human being to master medicine, let alone ethics, religion, etc. Advances are made not usually by one person but by collaboration, often involving hundreds, if not thousands of people across the globe. We cite journal articles, not individuals. Furthermore, the magnitude and speed of development is staggering. Add artificial intelligence and it will continue to expand exponentially.
If the development of the science is collaborative, surely the contemplation of its ethical/religious applications should likewise be. The issues are so profound that we need all genes on deck. The religious community should have a prominent seat at the table. There is great wisdom in the religious traditions that can inform contemporary discussions. In addition, the religious communities are significant consumers of, not to mention contributors to, the medical technology.
An ongoing dialogue between the scientific and religious communities should be an institutionalized endeavor, not a sporadic event, reactive to a particular discovery. The National Institutes of Health or other national organizations could provide an online newsletter designed for the clergy with a summary of the latest developments and their potential applications. An annual meeting of scientists and religious leaders could provide a forum for the scientists to appreciate the religious ramifications of their research (which may be none as well) and for the clergy to appreciate the rapidly developing fields of science and the implications for their congregants. Theological seminaries must include basic scientific literacy as part of their curricula.
We need the proper medium of mutual respect and admiration, despite healthy disagreement.
How do we create a "culture"? Microbiological cultures take time and require the proper medium for maximal growth. If one of the variables is altered, the culture can be affected. To foster a culture of continued successful collaboration between scientists and religious communities, we likewise need the proper medium of mutual respect and admiration, despite healthy disagreement.
The only way we can navigate these unchartered waters is through constant, deep and meaningful collaboration every single step of the way. By cultivating a mutualistic relationship we can inform, caution and safeguard each other to maximize the benefits of emerging technologies.
[Ed. Note: Don't miss the other perspectives in this Big Question series, from a science scholar and a Reverend/molecular geneticist.]