Hollow microfiber

1 . A hollow microfiber, comprising: (1) one or more cell-adhesive layers containing a cell-adhesive hydrogel, (2) an outer shell layer containing a high-strength hydrogel that covers the outer periphery of the cell-adhesive layer located farthest from the central axis among the one or more cell-adhesive layers, and (3) a cell layer that covers the inner periphery of the cell-adhesive layer located closest to the central axis among the one or more cell-adhesive layers. 2 . The hollow microfiber according to claim 1 , wherein the cell-adhesive hydrogel is selected from the group consisting of chitosan gel, collagen gel, gelatin, peptide gel, laminin gel, fibrin gel and mixtures thereof. 3 . The hollow microfiber according to claim 1 or 2 , wherein the high-strength hydrogel is an alginate gel or agarose gel. 4 . The hollow microfiber according to any of claims 1 to 3 , wherein the outer diameter of the outer shell layer is 20 μm to 500 μm. 5 . The hollow microfiber according to any of claims 1 to 4 , wherein the cells that compose the cell layer are selected from the group consisting of vascular endothelial cells, lymphatic endothelial cells and renal tubular cells. 6 . The hollow microfiber according to any of claims 1 to 5 , wherein at least one of the one or more cell-adhesive layers contains cells differing from the cells of the cell layer. 7 . The hollow microfiber according to any of claims 1 to 6 , wherein the number of the one or more cell-adhesive layers is one layer. 8 . A microfiber in which the hollow portion of the hollow microfiber according to any of claims 1 to 7 is filled with a suspension of the cells that compose the cell layer. 9 . The microfiber according to claim 8 , wherein the cell suspension is prepared by suspending the cells in a liquid selected from the group consisting of polyethylene glycol, glycerol, alginate ester, dextran and mixtures thereof. 10 . A hollow microfiber obtainable by removing the outer shell layer from the hollow microfiber according to any of claims 1 to 7 . 11 . A microfiber obtainable by removing the outer shell layer from the microfiber according to claim 8 or 9 . 12 . A method for producing a microfiber comprising: (1) one or more cell-adhesive layers containing a cell-adhesive hydrogel, (2) an outer shell layer containing a high-strength hydrogel that covers the outer periphery of the cell-adhesive layer located farthest from the central axis among the one or more cell-adhesive layers, (3) a cell layer that covers the inner periphery of the cell-adhesive layer located closest to the central axis among the one or more cell-adhesive layers, and (4) a cell suspension that fills a hollow portion; wherein, the method comprises the following steps: (i) forming a laminar flow of the cell suspension, (ii) forming one or more laminar flows of solutions for preparing the cell-adhesive hydrogel that cover the outer periphery of the laminar flow of the cell suspension, (iii) forming a laminar flow of a solution for preparing a high-strength hydrogel that covers the outer periphery of the laminar flow of the solution for preparing the cell-adhesive hydrogel located farthest from the central axis among the laminar flows of the solutions for preparing the cell-adhesive hydrogel, (iv) gelling the solution for preparing the high-strength hydrogel to form an outer shell layer that contains the high-strength hydrogel, (v) gelling the solutions for preparing the cell-adhesive hydrogel to form the one or more cell-adhesive layers containing the cell-adhesive hydrogel, and (vi) culturing the cells in the cell suspension to form the cell layer. 13 . A method for producing a microfiber comprising: (1) one or more cell-adhesive layers containing a cell-adhesive hydrogel, (2) an outer shell layer containing a high-strength hydrogel that covers the outer periphery of the cell-adhesive layer located farthest from the central axis among the one or more cell-adhesive layers, (3) a cell layer that covers the inner periphery of the cell-adhesive layer located closest to the central axis among the one or more cell-adhesive layers, and (4) a cell suspension that fills a hollow portion; wherein, the method uses a coaxial microfluidic device provided with: a line for introducing the cell suspension, one or more lines for introducing solutions for preparing the cell-adhesive hydrogel that are coaxial to the line for introducing the cell suspension, a line for introducing a solution for preparing the high-strength hydrogel that is coaxial to the line for introducing the cell suspension and the one or more lines for introducing the solutions for preparing the cell-adhesive hydrogel, a region for gelling the solution for preparing the high-strength hydrogel, and a region for gelling the solutions for preparing the cell-adhesive hydrogel; and, the method comprises the following steps: (i) forming a laminar flow of the cell suspension by injecting the cell suspension from the line for introducing the cell suspension, (ii) forming one or more laminar flows of the solutions for preparing the cell-adhesive hydrogel that cover the outer periphery of the laminar flow of the cell suspension by injecting the solutions for preparing the cell-adhesive hydrogel from the one or more lines for introducing the solution for preparing the cell-adhesive hydrogel, (iii) forming a laminar flow of the solution for preparing the high-strength hydrogel that covers the outer periphery of the laminar flow of the solution for preparing the cell-adhesive hydrogel located farthest from the central axis among the one or more laminar flows of the solutions for preparing the cell-adhesive hydrogel by injecting the solution for preparing the high-strength hydrogel from the line for introducing the solution for preparing the high-strength hydrogel, (iv) gelling the solution for preparing the high-strength hydrogel by passing an aggregate of the laminar flows formed in steps (i) to (iii) through the region for gelling the solution for preparing the high-strength hydrogel to form the outer shell layer containing the high-strength hydrogel, (v) gelling the solutions for preparing the cell-adhesive hydrogel by passing an aggregate of the laminar flows formed in steps (i) to (iii) through the region for gelling the solutions for preparing the cell-adhesive hydrogel to form cell adhesive layers containing the cell-adhesive hydrogel, wherein this step is carried out before or after step (iv) or simultaneous to step (iv), and (vi) culturing the cells in the cell suspension to form the cell layer. 14 . The method for producing the microfiber according to claim 12 or 13 , wherein the cell suspension is prepared by suspending cells in a liquid selected from the group consisting of polyethylene glycol, glycerol, alginate ester, dextran and mixtures thereof. 15 . The method for producing the microfiber according to any of claims 12 to 14 , wherein the cell density in the cell suspension is 1.0×10 6 cells/ml to 1.0×10 8 cells/mL. 16 . The method for producing the microfiber according to any of claims 12 to 15 , wherein the solution for preparing the cell-adhesive hydrogel and the solution for preparing the high-strength hydrogel are gelled under different conditions. 17 . The method for producing the microfiber according to any of claims 12 to 16 , wherein the cell-adhesive hydrogel is selected from the group consisting of chitosan gel, collagen gel, gelatin, peptide gel, laminin gel, fibrin gel and mixtures thereof.