Free to read Migration of cells and molecules in vivo is affected by interactions with obstacles. These interactions can include crowding effects, as well as adhesion/repulsion between the motile cell/molecule and the obstacles. Here we present an analytical framework that can be used to separately quantify the roles of crowding and adhesion/repulsion using a lattice-based random walk model. Our method leads to an exact calculation of the long time Fickian diffusivity, and avoids the need for computationally expensive stochastic simulations
Transport through biological environments that are densely crowded with obstacles is often classifie...
Transport through biological environments that are densely crowded with obstacles is often classifie...
Cell-to-cell adhesion is an important aspect of malignant spreading that is often observed in images...
Free to read Migration of cells and molecules in vivo is affected by interactions with obstacles. Th...
Migration of cells and molecules in vivo is affected by interactions with obstacles. These interacti...
Migration of cells and molecules in vivo is affected by interactions with obstacles. These interacti...
Free to read\ud \ud Migration of cells and molecules in vivo is affected by interactions with obstac...
Random walk models are often used to interpret experimental observations of the motion of biological...
Random walk models are often used to interpret experimental observations of the motion of biological...
The motion of cells and molecules through biological environments is often hindered by the presence ...
The motion of cells and molecules through biological environments is often hindered by the presence ...
The motion of cells and molecules through biological environments is often hindered by the presence ...
The motion of cells and molecules through biological environments is often hindered by the presence ...
Cell-to-cell adhesion is an important aspect of malignant spreading that is often observed in images...
Random walk models are often used to interpret experimental observations of the motion of biological...
Transport through biological environments that are densely crowded with obstacles is often classifie...
Transport through biological environments that are densely crowded with obstacles is often classifie...
Cell-to-cell adhesion is an important aspect of malignant spreading that is often observed in images...
Free to read Migration of cells and molecules in vivo is affected by interactions with obstacles. Th...
Migration of cells and molecules in vivo is affected by interactions with obstacles. These interacti...
Migration of cells and molecules in vivo is affected by interactions with obstacles. These interacti...
Free to read\ud \ud Migration of cells and molecules in vivo is affected by interactions with obstac...
Random walk models are often used to interpret experimental observations of the motion of biological...
Random walk models are often used to interpret experimental observations of the motion of biological...
The motion of cells and molecules through biological environments is often hindered by the presence ...
The motion of cells and molecules through biological environments is often hindered by the presence ...
The motion of cells and molecules through biological environments is often hindered by the presence ...
The motion of cells and molecules through biological environments is often hindered by the presence ...
Cell-to-cell adhesion is an important aspect of malignant spreading that is often observed in images...
Random walk models are often used to interpret experimental observations of the motion of biological...
Transport through biological environments that are densely crowded with obstacles is often classifie...
Transport through biological environments that are densely crowded with obstacles is often classifie...
Cell-to-cell adhesion is an important aspect of malignant spreading that is often observed in images...