Autism May be Linked to Prenatal Ultrasound Exposure
By MedImaging International staff writers Posted on 27 Feb 2018 |
The dramatic increase in autism spectrum disorder (ASD) incidence may be linked to adverse effects of ultrasound exposure on the developing fetus, claims a new study.
Researchers at Boston University School of Medicine (BUMC; MA, USA), the University of California, San Francisco (UCSF; USA), and other institutions conducted a case-control study involving 420 participants (78.1% boys and 21.9% girls; mean age 6.6 years) in order to quantify prenatal ultrasound exposure--frequency, timing, duration, and strength--in children with later ASD, developmental delay, and typical development. Ultrasound exposure was quantified and compared per trimester and for the entire pregnancy, with adjustment for infant sex, gestational age at birth, and maternal characteristics.
The study included 107 patients with ASD, 104 controls with developmental delay, and 209 healthy controls. The researcher found that the ASD group received a mean of 5.9 scans, the developmentally delayed group received a mean of 6.1 scans, and the typical-development group received a mean of 6.3 scans. In terms of maternal features, the mothers of children with ASD were more likely to be obese, compared with the mothers of children with developmental delay. The mothers of children with ASD were also more likely to be 35 years or older, and to have begun prenatal care later.
The researchers clarified that while they found no statistically significant difference in the timing of the initial ultrasound or the total time of ultrasound exposure between groups, the ASD group did have a greater mean depth of ultrasonographic penetration. According to the researchers, this could be related to maternal obesity, because greater depth is required for imaging fetuses in obese mothers. The study was published on February 12, 2018, in JAMA Pediatrics.
“Ultrasound on the fetal skull can convert to thermal energy, conducted to the soft tissue of the brain,” wrote lead author Paul Rosman, MD, of BUMC, and colleagues. “Doppler studies pose the highest risk for thermal effects on the fetus, because the intensity and acoustic power are the highest among all types of ultrasonography, and may cause substantial temperature increase in the fetal skull and surrounding brain tissue."
“As ultrasonographic depth increases, wave frequency and strength decrease, but the volume of fetal tissue exposed to ultrasonic energy increases because the wave energy dissipates in a wedge shape,” concluded the researchers. “Therefore, use of greater-depth ultrasonography may be more likely to alter [certain cell migration in] the developing brain. There could be other factors related to the strength of the ultrasound beam, and more research is needed.”
Related Links:
Boston University School of Medicine
University of California, San Francisco
Researchers at Boston University School of Medicine (BUMC; MA, USA), the University of California, San Francisco (UCSF; USA), and other institutions conducted a case-control study involving 420 participants (78.1% boys and 21.9% girls; mean age 6.6 years) in order to quantify prenatal ultrasound exposure--frequency, timing, duration, and strength--in children with later ASD, developmental delay, and typical development. Ultrasound exposure was quantified and compared per trimester and for the entire pregnancy, with adjustment for infant sex, gestational age at birth, and maternal characteristics.
The study included 107 patients with ASD, 104 controls with developmental delay, and 209 healthy controls. The researcher found that the ASD group received a mean of 5.9 scans, the developmentally delayed group received a mean of 6.1 scans, and the typical-development group received a mean of 6.3 scans. In terms of maternal features, the mothers of children with ASD were more likely to be obese, compared with the mothers of children with developmental delay. The mothers of children with ASD were also more likely to be 35 years or older, and to have begun prenatal care later.
The researchers clarified that while they found no statistically significant difference in the timing of the initial ultrasound or the total time of ultrasound exposure between groups, the ASD group did have a greater mean depth of ultrasonographic penetration. According to the researchers, this could be related to maternal obesity, because greater depth is required for imaging fetuses in obese mothers. The study was published on February 12, 2018, in JAMA Pediatrics.
“Ultrasound on the fetal skull can convert to thermal energy, conducted to the soft tissue of the brain,” wrote lead author Paul Rosman, MD, of BUMC, and colleagues. “Doppler studies pose the highest risk for thermal effects on the fetus, because the intensity and acoustic power are the highest among all types of ultrasonography, and may cause substantial temperature increase in the fetal skull and surrounding brain tissue."
“As ultrasonographic depth increases, wave frequency and strength decrease, but the volume of fetal tissue exposed to ultrasonic energy increases because the wave energy dissipates in a wedge shape,” concluded the researchers. “Therefore, use of greater-depth ultrasonography may be more likely to alter [certain cell migration in] the developing brain. There could be other factors related to the strength of the ultrasound beam, and more research is needed.”
Related Links:
Boston University School of Medicine
University of California, San Francisco
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