| 摘要 |
As with many human physiological systems, issues within the central nervous system can arise for individuals leading to a variety of neurological disorders including, but not limited to, Charcot-Marie-Tooth disease, Alzheimer' disease, Parkinson's disease, multiple sclerosis, myasthenia gravis, demyelination, and axonal degeneration. However, culture devices presently provide researchers with limitations in their research. Embodiments of the invention aims to address these various limitations and allow studies, methods and screenings which cannot be performed with prior art culture devices. These include reducing manufacturing complexity, volumes of pharmaceuticals and cells required, allowing use in fields other than neurobiology, improved adhesion within the desired micro-channel regions of the devices, and increasing cell survival in cultures. Accordingly, microfluidic devices comprising a connecting chamber and micro-channel having the same depth which prevents hydrostatic pressure, end walls of the connecting chamber and micro-channel arrays having a high angle relative to the fluid flow direction for supporting culturing and topside of the connecting chamber that has been profiled in order to improve the adhesion of cells is provided. |
