Add to ORKGBoth endogenous and externally applied electrical stimulation can affect a wide range of cellular functions, including growth, migration, differentiation and division. Among those effects, the electrical field (EF)-directed cell migration, also known as electrotaxis, has received broad attention because it holds great potential in facilitating clinical wound healing. Electrotaxis experiment is conventionally conducted in centimetre-sized flow chambers built in Petri dishes. Despite the recent efforts to adapt microfluidics for electrotaxis studies, the current electrotaxis experimental setup is still cumbersome due to the needs of an external power supply and EF controlling/monitoring systems. There is also a lack of parallel experimental s...
Endogenous electrical fields play an important role in various physiological and pathological events...
In this project we designed four different level of electrotaxis experiment from in vitro and in viv...
The emergence of microfluidic techniques provide an unprecedented opportunity for peering into molec...
Both endogenous and externally applied electrical stimulation can affect a wide range of cellular fu...
Collective cell migration is important in various physiological processes such as morphogenesis, can...
Electric fields are generated in vivo in a variety of physiologic and pathologic settings, including...
Bioelectric communication plays a significant role in several cellular processes and biological mech...
Endogenous electric fields (EFs) play an important role in many biological processes. In order to ga...
Many types of cells respond to applied direct current electric fields (dcEFs) by directional cell mi...
Upon cutaneous injury, the human body naturally forms an electric field (EF) that acts as a guidance...
Direct current (DC) electrical stimulation has been shown to have remarkable effects on regulating c...
Here, we present a protocol for electrotaxis of large epithelial cell sheets without compromising th...
International audienceAesthetic wound healing is often experienced by patients after electrochemothe...
Electric fields have been studied extensively in biomedical engineering (BME) for numerous regenerat...
Understanding the mechanism of cell migration and interaction with the microenvironment is not only ...
Endogenous electrical fields play an important role in various physiological and pathological events...
In this project we designed four different level of electrotaxis experiment from in vitro and in viv...
The emergence of microfluidic techniques provide an unprecedented opportunity for peering into molec...
Both endogenous and externally applied electrical stimulation can affect a wide range of cellular fu...
Collective cell migration is important in various physiological processes such as morphogenesis, can...
Electric fields are generated in vivo in a variety of physiologic and pathologic settings, including...
Bioelectric communication plays a significant role in several cellular processes and biological mech...
Endogenous electric fields (EFs) play an important role in many biological processes. In order to ga...
Many types of cells respond to applied direct current electric fields (dcEFs) by directional cell mi...
Upon cutaneous injury, the human body naturally forms an electric field (EF) that acts as a guidance...
Direct current (DC) electrical stimulation has been shown to have remarkable effects on regulating c...
Here, we present a protocol for electrotaxis of large epithelial cell sheets without compromising th...
International audienceAesthetic wound healing is often experienced by patients after electrochemothe...
Electric fields have been studied extensively in biomedical engineering (BME) for numerous regenerat...
Understanding the mechanism of cell migration and interaction with the microenvironment is not only ...
Endogenous electrical fields play an important role in various physiological and pathological events...
In this project we designed four different level of electrotaxis experiment from in vitro and in viv...
The emergence of microfluidic techniques provide an unprecedented opportunity for peering into molec...