Peng Zhenlei, Jia Qiyu, Mao Junxiong, Luo Xiao, Huang Anqi, Zheng Hao, Jiang Shijie, Ma Qi, Ma Chuang, Yi Qizhong
Xinjiang Clinical Medical Research Center of Mental Health, The Psychological Medicine Center, The First Affiliated Hospital of Xinjiang Medical University, Urumqi, Xinjiang, China.
Department of Trauma Orthopedics, The First Affiliated Hospital of Xinjiang Medical University, Urumqi, Xinjiang, China.
Front Psychiatry. 2025 Jan 14;15:1439727. doi: 10.3389/fpsyt.2024.1439727. eCollection 2024.
Behavioral addictive disorders (BADs) have become a significant societal challenge over time. The central feature of BADs is the loss of control over engaging in and continuing behaviors, even when facing negative consequences. The neurobiological underpinnings of BADs primarily involve impairments in the reward circuitry, encompassing the ventral tegmental area, nucleus accumbens in the ventral striatum, and prefrontal cortex. These brain regions form networks that communicate through neurotransmitter signaling, leading to neurobiological changes in individuals with behavioral addictions. While dopamine has long been associated with the reward process, recent research highlights the role of other key neurotransmitters like serotonin, glutamate, and endorphins in BADs' development. These neurotransmitters interact within the reward circuitry, creating potential targets for therapeutic intervention. This improved understanding of neurotransmitter systems provides a foundation for developing targeted treatments and helps clinicians select personalized therapeutic approaches.
随着时间的推移,行为成瘾性障碍(BADs)已成为一项重大的社会挑战。BADs的核心特征是即使面对负面后果,仍无法控制参与和持续某些行为。BADs的神经生物学基础主要涉及奖赏回路的损伤,包括腹侧被盖区、腹侧纹状体中的伏隔核和前额叶皮质。这些脑区形成通过神经递质信号进行通信的网络,导致行为成瘾个体出现神经生物学变化。虽然多巴胺长期以来一直与奖赏过程相关联,但最近的研究强调了血清素、谷氨酸和内啡肽等其他关键神经递质在BADs发展中的作用。这些神经递质在奖赏回路中相互作用,为治疗干预创造了潜在靶点。对神经递质系统的这种更深入理解为开发针对性治疗提供了基础,并有助于临床医生选择个性化的治疗方法。
