Element of surprise can trigger autistic behavior
anticonvulsant - at bay - devoid - embryonic - enriched
exposed extensive - overstimulation - radically - relevant
surroundings - tailored - unconventional - withdrawal - womb
exposed extensive - overstimulation - radically - relevant
surroundings - tailored - unconventional - withdrawal - womb
- She took a radically different approach
彼女は根本的に異なったアプローチを取った - The doctor advised me to avoid physical overstimulation.
医師は物理的な過刺激を避けるように忠告した。 - The experience enriched her understanding
経験は彼女の理解を豊かにした - These will be differentiated and tailored to national circumstances.
これらは,各国の状況に即して差別化される。 - The robber kept his pursuers at bay.
賊が追いつめられて追手を近づけない - The room is exposed to the afternoon sun.
この室は西日が射す - it is a type of anticonvulsant agent.
抗痙攣薬の一種である。 - The room was devoid of furniture.
その部屋には家具が無かった。 - My goal for the consecutive holidays is to not withdrawal in my room.
連休中の目標は、引きこもりにならないことです。 - It was an unconventional selection in Sumitomo.
住友としては異例の抜擢であった。 - The building harmonizes with its surroundings.
その建物は周囲と調和している. - The business is certainly run on a very extensive scale.
その事業はよほど規模が大きいに違いない. - He gave us relevant information.
彼は適切な情報を私たちに与えてくれます。 - Surely he can not enter a second time into his mother's womb to be born!
もう一度、母の胎に入って生れる事が出来ましょうか。 - What are the uses of embryonic stem cells?
ES細胞にはどのような使い道があるのだろうか。
The authors of a new study, recently completed at the Swiss Federal Institute of Technology in Lausanne (EPFL), claim that their work will (radically) change the way that autism is viewed and treated by suggesting that predictability may help prevent or limit symptoms.
In the study, co-author Professor Henry Markram (himself the father of an autistic child) and his colleagues report that social and sensory (overstimulation) can drive autistic behavior, and that by presenting a child that with an (enriched) environment that is structured, safe, and (tailored) to his or her unique sensitivities, parents can help kept these behaviors (at bay).
Professor Markram’s team (exposed) rats to a known autism risk factor, the (anticonvulsant) and mood-stabilizing drug valproate, and raised them in a home environment that is predictable and offers little in the way of surprise, without being (devoid) of sensory or social engagement. They found that these rats did not develop fear, anxiety, or social (withdrawal).
Diagnosing hyper-brain early could open up new treatment options
These observations support the somewhat (unconventional) view that the brains of autistic people are hyperfunctional, and that providing these patients with consistent and non-surprising (surroundings) could prevent such symptoms. They also claim that these results show that autistic brains are not necessarily damaged and in need of (extensive) stimulation.
In a statement, Markram called the valproate model used in the research “highly (relevant) for understanding autism, because children exposed to valproate in the (womb) have an increased chance of presenting autism after birth.” His team found that rodents who were exposed to the chemical compound early on in their (embryonic) development began to demonstrate behavioral, anatomical, and neurochemical abnormalities comparable to the traits of human autism.
In the study, co-author Professor Henry Markram (himself the father of an autistic child) and his colleagues report that social and sensory (overstimulation) can drive autistic behavior, and that by presenting a child that with an (enriched) environment that is structured, safe, and (tailored) to his or her unique sensitivities, parents can help kept these behaviors (at bay).
Professor Markram’s team (exposed) rats to a known autism risk factor, the (anticonvulsant) and mood-stabilizing drug valproate, and raised them in a home environment that is predictable and offers little in the way of surprise, without being (devoid) of sensory or social engagement. They found that these rats did not develop fear, anxiety, or social (withdrawal).
Diagnosing hyper-brain early could open up new treatment options
These observations support the somewhat (unconventional) view that the brains of autistic people are hyperfunctional, and that providing these patients with consistent and non-surprising (surroundings) could prevent such symptoms. They also claim that these results show that autistic brains are not necessarily damaged and in need of (extensive) stimulation.
In a statement, Markram called the valproate model used in the research “highly (relevant) for understanding autism, because children exposed to valproate in the (womb) have an increased chance of presenting autism after birth.” His team found that rodents who were exposed to the chemical compound early on in their (embryonic) development began to demonstrate behavioral, anatomical, and neurochemical abnormalities comparable to the traits of human autism.