dorsal striatum
背側紋狀體
ventral striatum
腹側紋狀體
the dorsal striatum plays a key role in habit formation.
背側紋狀體在習慣形成中起關鍵作用。
damage to the ventral striatum can affect reward processing.
腹側紋狀體受損可能影響獎勵處理。
striatal neurons transmit signals related to motor control.
紋狀體神經元傳遞與運動控制相關的信號。
researchers study the striatum to understand addiction mechanisms.
研究人員研究紋狀體以了解成癮機制。
the caudate nucleus is a major component of the striatum.
尾狀核是紋狀體的主要組成部分。
abnormal activity in the striatum is linked to parkinson's disease.
紋狀體異常活動與帕金森氏病有關。
the putamen, part of the striatum, helps regulate movement.
豆狀核是紋狀體的一部分,有助於調節運動。
neuroimaging reveals striatum activation during decision-making tasks.
神經影像學顯示在決策任務中紋狀體被激活。
striatal dysfunction may contribute to obsessive-compulsive disorder.
紋狀體功能障礙可能導致強迫症。
the striatum receives input from both cortical and limbic regions.
紋狀體接收來自皮質和邊緣系統區域的輸入。
studies show the striatum is involved in procedural learning.
研究顯示紋狀體參與程序性學習。
drug abuse can cause long-lasting changes in striatum circuitry.
藥物濫用可能導致紋狀體神經迴路的長期變化。
dorsal striatum
背側紋狀體
ventral striatum
腹側紋狀體
the dorsal striatum plays a key role in habit formation.
背側紋狀體在習慣形成中起關鍵作用。
damage to the ventral striatum can affect reward processing.
腹側紋狀體受損可能影響獎勵處理。
striatal neurons transmit signals related to motor control.
紋狀體神經元傳遞與運動控制相關的信號。
researchers study the striatum to understand addiction mechanisms.
研究人員研究紋狀體以了解成癮機制。
the caudate nucleus is a major component of the striatum.
尾狀核是紋狀體的主要組成部分。
abnormal activity in the striatum is linked to parkinson's disease.
紋狀體異常活動與帕金森氏病有關。
the putamen, part of the striatum, helps regulate movement.
豆狀核是紋狀體的一部分,有助於調節運動。
neuroimaging reveals striatum activation during decision-making tasks.
神經影像學顯示在決策任務中紋狀體被激活。
striatal dysfunction may contribute to obsessive-compulsive disorder.
紋狀體功能障礙可能導致強迫症。
the striatum receives input from both cortical and limbic regions.
紋狀體接收來自皮質和邊緣系統區域的輸入。
studies show the striatum is involved in procedural learning.
研究顯示紋狀體參與程序性學習。
drug abuse can cause long-lasting changes in striatum circuitry.
藥物濫用可能導致紋狀體神經迴路的長期變化。
探索常見搜尋詞彙