bioelectric phenomena; biomedical optical imaging; cell motility; diseases; medical disorders; mesh generation; reaction-diffusion systems; Cajal networks; Delaunay triangulation; ICC activity; ICC network; ICC slow wave activity; confocal imaging; continuum modeling frameworks; degradation degree; diseased states; electrical activity; finite-element based reaction-diffusion equations; functional motility disorders; gastrointestinal electrophysiology; gastrointestinal motility; gastrointestinal motility disorders; gastrointestinal tract; interstitial cells; normal motility; pixel-based mesh; specialized pacemaker cells; tissue specific simulation; unstructured meshes; virtual mean; Analytical models; Biological system modeling; Computational modeling; Degradation; Gastrointestinal tract; Mathematical model; Physiology;
机译:组织特异性数学模型的慢波夹带在野生型和5-HT(2B)基因敲除小鼠与Cajal网络间质细胞的改变。
机译:卡哈尔间质细胞的生理学和病理生理学:从长凳到床边。 I. Cajal网络间隙细胞的功能发展和可塑性。
机译:用光学清洁深组织成像揭示了人类结肠中CAJAL亚组间质细胞的网络取向的3-D插图
机译:使用非结构化网格的CAJAL网络间质细胞的组织特异性模拟
机译:广泛表达的HLH基因的新型转录网络:调节组织特异性细胞命运。
机译:使用非结构化网格的Cajal网络间质细胞的组织特异性模拟
机译:野生型和5-HT2B基因敲除小鼠与Cajal网络的间质细胞的慢波夹带的组织特定数学模型。