Child’s Death Shows How Measles in the Brain Can Kill Years after an Infection
A child in Los Angeles County has died from a rare but always fatal brain disorder that develops years after a measles infection. Experts underscore the need for vaccination to protect the most vulnerable
An MRI scan showing subacute sclerosing panencephalitis, a complication of measles infection.
A school-aged child in Los Angeles County has died from a rare but always fatal complication from a measles infection they acquired when they were an infant who was too young to be vaccinated. The first dose of the vaccine is typically not administered until one year of age. Experts say the death underscores the need for high levels of vaccination in a population to protect the most vulnerable against the disease, as well as from side effects that can occur long after the initial illness has passed.
“This case is a painful reminder of how dangerous measles can be, especially for our most vulnerable community members,” said Los Angeles County Health Officer Muntu Davis in a recent statement.
The child who died suffered from subacute sclerosing panencephalitis (SSPE), a progressive brain disorder that usually develops two to 10 years after a measles infection. The measles virus appears to mutate into a form that avoids detection by the immune system, allowing it to hide in the brain and eventually destroy neurons.
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“There is no treatment for this. Children who suffer from this will always die,” said Paul Offit, director of the Vaccine Education Center and an attending physician in the Division of Infectious Diseases at Children’s Hospital of Philadelphia, in a previous interview with Scientific American. Offit, who had measles himself in the 1950s, has seen five or 10 cases of SSPE in his career.
SSPE is one of several side effects of measles that go beyond the coughing, runny nose and characteristic rash of the original infection. Measles can also cause encephalitis, a faster-occurring brain inflammation, in one in every 1,000 people who are infected because the virus causes the immune system to attack a protein produced by certain brain cells. This inflammation kills about one in five people who develop it.
Measles also causes “immune amnesia”: the virus seems to attack the immune system’s B cells, which remember previous pathogens the body has been exposed to, resulting in reduced immunity. There is some evidence this effect can last for a couple of years, making those who get measles more susceptible to other infectious diseases.
These side effects are of particular concern because the measles virus is highly contagious—an order of magnitude more than seasonal influenza. With measles, viral particles emitted by coughing or sneezing can linger in a room for hours after the infected person has left. One infected person infects 15 more people on average.
This year the U.S. saw its largest single measles outbreak since the disease was declared eliminated in 2000;the recent outbreak occurred mainly in Texas, New Mexico, Kansas and Oklahoma. Most of those infected were unvaccinated or had an unknown vaccination status. Of those infected, 12 percent were hospitalized, and three died of complications from the infection. The fatal cases included the first death of a child from measles in the U.S. in 22 years.
Measles used to infect three million to four million people in the nation every year until vaccines became available in 1963.
The measles vaccine is administered in two doses: typically, the first is given between 12 and 15 months of age and the second is given at four to six years. One dose is 93 percent effective at protection against infection, and two doses are 97 percent effective.
Contrary to claims by Secretary of Health and Human Services Robert F. Kennedy, Jr., measles cannot be treated by vitamin A or cod liver oil. There is no cure or treatment for the disease beyond treatment of symptoms. The only effective means of combatting measles is widespread vaccination. At least 95 percent of a population must be vaccinated to prevent the spread of the disease and to protect either those who are too young to receive it or those who cannot be vaccinated because of other health conditions.
“Infants too young to be vaccinated rely on all of us to help protect them through community immunity,” Davis said in his recent statement. “Vaccination is not just about protecting yourself—it’s about protecting your family, your neighbors, and especially children who are too young to be vaccinated.”
Andrea Thompson is a senior editor covering the environment, energy and earth sciences. She has been covering these issues for 16 years. Prior to joining Scientific American, she was a senior writer covering climate science at Climate Central and a reporter and editor at Live Science, where she primarily covered earth science and the environment. She has moderated panels, including as part of the United Nations Sustainable Development Media Zone, and appeared in radio and television interviews on major networks. She holds a graduate degree in science, health and environmental reporting from New York University, as well as a B.S. and an M.S. in atmospheric chemistry from the Georgia Institute of Technology. Follow Thompson on Bluesky @andreatweather.bsky.social
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