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.
Pregnant and Breastfeeding Women Might Have a New Reason to Ditch Artificial Sweeteners
A mom cradles her newborn baby.
Women considering pregnancy might have another reason to drop artificial sweeteners from their diet, if a new study of mice proves to apply to humans as well. It highlights "yet another potential health impact of zero-calorie sweeteners," according to lead author Stephanie Olivier-Van Stichelen.
The discovery was serendipitous, not part of the original study.
It found that commonly used artificial sweeteners consumed by female mice transfer to pups in the womb and later through milk, harming their development. The sweeteners affected the composition of bacteria in the gut of the pups, making them more vulnerable to developing diabetes, and greatly reduced the liver's capacity to neutralize toxins.
The discovery was serendipitous, not part of the original study, says John Hanover, the senior author and a cell biologist at the NIH National Institute of Diabetes and Digestive and Kidney Diseases. The main study looked at how a high sugar diet in the mother turns genes on and off in the developing offspring.
It compared them with mothers fed a low sugar diet, replacing sugar with a mix of sucralose and acesulfame-K (AK), two non-nutrient artificial sugars that are already used extensively in our food products and thought to be safe.
While the artificial sweeteners had little effect on the mothers, the trace amounts that were transferred through the placenta and milk had a profound effect on the pups. Hanover believes the molecules are changing gene expression during a crucial, short period of development.
"Somewhat to our surprise, we saw in the pups a really dramatic change in the microbiome" of those whose mothers were fed the artificial sweeteners, Hanover told leapsmag. "It looked like the neonates were much, much more sensitive than their mothers to the sucralose and AK." The unexpected discovery led them to publish a separate paper.
"The protective microbe Akkermansia was largely missing, and we saw a pretty dramatic shift in the ratio of two bacteria that are normally associated with metabolic disease," a precursor to diabetes, he explains. Akkermansia is a bacteria that feeds on mucus in the gut and helps remodel the tissue to an adult state over the first several months of life in a mouse. A similar process takes several years in humans, as the infant is weaned off of breast milk as the primary food source.
The good news is the body seems to remove these artificial sweeteners fairly quickly, probably within a week.
Another problem the researchers saw in the animals was "a particularly striking change in the metabolism of the detoxification systems" in the liver, says Hanover. A healthy liver is dark red, but a high dose of the artificial sweeteners turned it white, "which is a sign of massive problems."
The study was conducted in mice and Hanover cautions the findings may not apply to humans. "But in general, the microbiome changes that one sees in the rodent model mimics what we see in humans...[and] the genes that are turned on in the mouse and the human are very similar."
Hanover acknowledges the quantity of artificial sweeteners used in the study is on the high end of human consumption, roughly the equivalent of 20 cans of diet soda a day. But the sweeteners are so ubiquitous in consumer products, from foods to lipstick, and often not even mentioned on the label, that it is difficult to measure just how much a person consumes every day.
The good news is the body seems to remove these artificial sweeteners fairly quickly, probably within a week. Until further studies provide a clearer picture, women who want to err on the side of caution can choose to reduce if not eliminate their exposure to artificial sweeteners during pregnancy and breastfeeding.
NASA Has the Technology to Save Us From an Asteroid Strike, But Congress Won’t Fund It
If a massive asteroid were to strike the Earth, it could be more destructive than a thousand atomic bombs.
At the biannual Planetary Defense Conference earlier this year, NASA ran a simulation of an asteroid slamming into the center of Manhattan.
For several millennia now, we've been lucky, but our luck won't hold out forever.
The gathering of astronomers, planetary scientists, and FEMA disaster-response experts attempted a number of interventions that might be possible within a time window of eight years, the given warning period before impact.
Catastrophic asteroid crashes are not without precedent, and scientists say it's only a matter of time before another one occurs—that is, if we do nothing to prevent it. It's believed that a huge asteroid crash off the coast of Mexico's Yucatan Peninsula created a worldwide disaster that helped to speed the extinction of the dinosaurs 65 million years ago.
In 1908, a meteoroid less than 300 feet in diameter exploded in the air over the Tunguska region of Siberia, creating a shockwave that leveled trees for hundreds of square miles. It's a matter of sheer luck it didn't hit a major population center, where human casualties could have been enormous.
For several millennia now, we've been lucky, but our luck won't hold out forever. There are millions of asteroids circulating about in our solar system, some of them hundreds of miles across, and although the odds of a massive one crashing to Earth in the near future is statistically low, the devastation could be apocalyptic.
Back at the conference, the experts tried sending several spacecrafts to knock the asteroid off-course by slamming into it. They considered blasting it with nuclear weapons. They even considered painting it white so it absorbed less of the sun's energy, hoping that would shift the asteroid's trajectory. In the simulations, all of the interventions failed and the giant space rock crashed into Manhattan, killing 1.3 million people in a massive explosion that was 1,000 times more powerful than the Hiroshima bomb.
NEOCam is designed, tested, and ready to build, but the project is currently frozen because of a $40 million gap in NASA funding.
Given more time, the scientists said, they might have succeeded in preventing the disaster. However, with today's asteroid-hunting telescopes, it's not likely we would have more warning. Our current telescopes are not powerful enough to detect all the near-earth asteroids, nor are they positioned well enough for sufficient detection. As recently as last week, for example, an asteroid traveling 15 miles a second narrowly missed crashing into the Earth, and it was only noticed several days in advance.
Now for the good news: There is a new technology that could buy us the time we need, says MIT planetary sciences professor Richard P. Binzel and colleagues who attended the conference. The Near-Earth Object Camera, or NEOCam, designed by NASA's Jet Propulsion Laboratory, would detect more than 90 percent of nearby objects that are 420 feet across or larger, according to Binzel.
The powerful infrared telescope is designed to sit within the L1 Lagrange point, a stable location in space where the gravitational pulls of the Earth and the sun cancel each other out. From there, large space bodies could be detected early enough to give scientists decades of warning when an asteroid is heading for Earth. NEOCam is designed, tested, and ready to build, but the project is currently frozen because of a $40 million gap in NASA funding.
The status of NEOCam, according to Binzel, is a case-study in short-sightedness and a lack of leadership. Congress needs to raise NASA's Planetary Defense budget from its current $160 million to $200 million to get the telescope built and launched into space, a goal that would seem eminently doable within the strictures of 2020's $4.75 trillion government budget. But Binzel describes a current deadlock between NASA, Congress, and the Office of Management and Budget as a "cosmic game of chicken."
If we don't use our technology to defend the planet, "it would be the most epic failure in the history of science."
In an excruciatingly budget-conscious atmosphere, "No one wants to stick their neck out and take adult responsibility" for getting the funding allocated that would unfreeze the project, says Binzel. But, he adds, "We have a moral obligation to act."
NEOCam would not only spot the overwhelming majority of asteroids in Earth's vicinity, it would determine their size and pinpoint exactly where they are likely to strike the Earth. And it would allow us decades to act, according to Binzel. Repeated ramming by an international armada of specialized spacecraft could slightly change the trajectory of an asteroid, he says. Changing the trajectory only a tiny bit, given the scale of millions of miles and several decades for the course change to take effect, could cause an asteroid to miss the Earth altogether.
"So far we've been relying on luck," says Binzel, "but luck is not a plan." Now that we have the technology to discover what's careening through our space neighborhood, it's our ethical duty to deploy it. If we don't use our technology to gain the knowledge we need to defend the planet, Binzel concludes, "it would be the most epic failure in the history of science."
Should Congress green light the $40 million budget for the new asteroid-hunting telescope? @NASA #NASA #astroid— leapsmag (@leapsmag) 1564681293.0