Your search keyword '"Shan, Didi"' showing total 2 results

1. Advances in the Differentiation of hiPSCs into Cerebellar Neuronal Cells.

Author

Wang, Yingxin, Liu, Wenzhu, Jiao, Yichang, Yang, Yitong, Shan, Didi, Ji, Xinbo, Zhang, Rui, Zhan, Zexin, Tang, Yao, Guo, Dandan, Yan, Chuanzhu, and Liu, Fuchen

Subjects

INDUCED pluripotent stem cells, PURKINJE cells, PATHOLOGICAL physiology, EMOTION regulation, CEREBELLUM

Abstract

The cerebellum has historically been primarily associated with the regulation of precise motor functions. However, recent findings suggest that it also plays a pivotal role in the development of advanced cognitive functions, including learning, memory, and emotion regulation. Pathological changes in the cerebellum, whether congenital hereditary or acquired degenerative, can result in a diverse spectrum of disorders, ranging from genetic spinocerebellar ataxias to psychiatric conditions such as autism, and schizophrenia. While studies in animal models have significantly contributed to our understanding of the genetic networks governing cerebellar development, it is important to note that the human cerebellum follows a protracted developmental timeline compared to the neocortex. Consequently, employing animal models to uncover human-specific molecular events in cerebellar development presents significant challenges. The emergence of human induced pluripotent stem cells (hiPSCs) has provided an invaluable tool for creating human-based culture systems, enabling the modeling and analysis of cerebellar physiology and pathology. hiPSCs and their differentiated progenies can be derived from patients with specific disorders or carrying distinct genetic variants. Importantly, they preserve the unique genetic signatures of the individuals from whom they originate, allowing for the elucidation of human-specific molecular and cellular processes involved in cerebellar development and related disorders. This review focuses on the technical advancements in the utilization of hiPSCs for the generation of both 2D cerebellar neuronal cells and 3D cerebellar organoids. [ABSTRACT FROM AUTHOR]

Published

2024

2. Levels, Distribution and Ecological Risk Assessment of PBDEs in Soils and Plants Around the Engineering Plastics Factory.

Author

Xu, Jing, Ge, Feng, Yu, Jia, Li, Juying, Dou, Yezhi, Shan, Didi, Cai, Xiaoyu, and Kong, Deyang

Abstract

This study systematically investigated the pollution levels and migration trends of PBDEs in soils and plants around engineering plastics factory, and identified the ecological risks of PBDEs in the environment around typical pollution sources.The results showed that 13 kinds of PBDEs were widely detected in the surrounding areas, and the concentration level was higher than the general environmental pollution level. The total PBDE concentrations (∑13PBDEs) in soils ranged from 14.6 to 278.4 ng/g dry weight (dw), and in plants ranged from 11.5 to 176 ng/g dw. Both soil and plant samples showed that BDE-209 was the most important congener, the pollution level in soil and plant was similar, and the composition of PBDEs congener was similar. In the soil column (50 cm), the radial migration of PBDEs was mainly concentrated in the 0–30 cm section. Except for BDE-66, which was mainly located in the 20–30 cm soil layer, the concentration of PBDEs was the highest in the 0–10 cm region. Furthermore, the environmental risks of PBDEs in soil and plants were evaluated by hazard quotient method, and the HQ values were all < 1, which did not exhibit any ecological risk. The evaluation results also showed that the ecological risk of PBDEs in soil was higher than that of plants, especially penta-BDE, which should be paid more attention. [ABSTRACT FROM AUTHOR]

Published

2024