Cleaning-up formatting on json mode

[whitead]

old

Daviaud2018Vascularization pages 15-16: The excerpt discusses the transplantation of human cerebral organoids into mouse cortex and compares it with NPC transplants. It highlights that organoid transplants show better survival and organization, providing a protective environment and exposure to intrinsic developmental cues. This results in enhanced multilineage neurodifferentiation, including proliferation of neuronal and glial lineages. Specifically, the organoid grafts show an increase in CTIP2-expressing deep layer cortical neurons and astrocytes over time, indicating significant maturation in these cell types as the organoid ages post-transplantation.. From Nicolas Daviaud, Roland H. Friedel, and Hongyan Zou. Vascularization and engraftment of transplanted human cerebral organoids in mouse cortex. eneuro, 5(6):ENEURO.0219-18.2018, November 2018. URL: http://dx.doi.org/10.1523/eneuro.0219-18.2018, doi:10.1523/eneuro.0219-18.2018. (143 citations) 10.1523/eneuro.0219-18.2018

new

Daviaud2018Vascularization pages 15-16: The excerpt discusses the transplantation of human cerebral organoids into mouse cortex and compares it with NPC transplants. It highlights that organoid transplants show better survival and organization, providing a protective environment and exposure to intrinsic developmental cues. This results in enhanced multilineage neurodifferentiation, including proliferation of neuronal and glial lineages. Specifically, the organoid grafts show an increase in CTIP2-expressing deep layer cortical neurons and astrocytes over time, indicating significant maturation in these cell types as the organoid ages post-transplantation.
From Nicolas Daviaud, Roland H. Friedel, and Hongyan Zou. Vascularization and engraftment of transplanted human cerebral organoids in mouse cortex. eneuro, 5(6):ENEURO.0219-18.2018, November 2018. URL: http://dx.doi.org/10.1523/eneuro.0219-18.2018, doi:10.1523/eneuro.0219-18.2018. (143 citations) 10.1523/eneuro.0219-18.2018