加州大学圣地亚哥分校的科学家发现了 14 条生化途径与自闭症 80% 的代谢影响有关。 Scientists at UC-San Diego discovered 14 biochemical pathways linked to 80% of metabolic impact in autism.
加州大学圣地亚哥分校的科学家发现了与自闭症谱系障碍 (ASD) 相关的早期代谢变化。 Scientists at the University of California-San Diego have discovered early metabolic changes linked to Autism Spectrum Disorder (ASD). 他们对被诊断为自闭症的新生儿和 5 岁儿童进行了研究,发现在所研究的 50 种生化途径中,有 14 种造成了自闭症 80% 的代谢影响,其中受影响最严重的途径与人体的细胞危险反应有关。 Studying newborn children and 5-year-olds diagnosed with autism, they found that 14 out of 50 investigated biochemical pathways were responsible for 80% of the metabolic impact of autism, with the most affected pathways related to the body's cell danger response. 这些发现可能为 ASD 带来新的早期检测和预防策略。 These findings may lead to new early detection and prevention strategies for ASD.