Microfluidic multi-well-based cell culture testing device

The invention claimed is: 1. A microfluidic multi-well-based cell culture testing device that has an array structure of a plurality of aligned microfluidic well units, each of the microfluidic well units comprising an inlet comprises a recess, wherein the recess is exposed to air in an upward direction such that a first fluid is injected into the inlet from a top of the recess, an accommodation compartment adapted to accommodate a second fluid therein, a microfluidic channel through which the first fluid flows, and an air outlet adapted to facilitate the entering of the first fluid, wherein the air outlet comprises a second recess and is in direct contact with one end of the microfluidic channel, the inlet is in direct contact with another end of the microfluidic channel, and the air outlet is not in direct contact with the inlet, wherein the accommodation compartment is designed in the form of a well such that the entering second fluid is retained, and a capillary valve is formed where a portion of the lower lateral side of the accommodation compartment is in communication with a portion of the lateral side of the microfluidic channel such that the first fluid and the second fluid meet each other to form an interface, and the inlet and the accommodation compartment are spatially separated from each other and does not directly contact each other. 2. The microfluidic multi-well-based cell culture testing device according to claim 1 , wherein the wells are arranged in a 1×1, 1×2, 1×4, 2×4, 4×6, 12×8, 24×16 or 48×32 matrix. 3. The microfluidic multi-well-based cell culture testing device according to claim 1 , wherein the microfluidic channel is arranged to surround the accommodation compartment such that the microfluidic well unit has a quadrangular structure. 4. The microfluidic multi-well-based cell culture testing device according to claim 1 , wherein the capillary valve has a predetermined thickness and width to prevent the first fluid from entering the accommodation compartment. 5. The microfluidic multi-well-based cell culture testing device according to claim 4 , wherein the thickness of the capillary valve is defined by the thickness of the microfluidic channel. 6. The microfluidic multi-well-based cell culture testing device according to claim 4 , wherein the capillary valve has a thickness of 100 to 500 μm and a width of 500 μm to 2 mm. 7. The microfluidic multi-well-based cell culture testing device according to claim 1 , wherein the air outlet is formed at one end of the microfluidic channel, is in communication with the upper wall of the microfluidic channel, and is exposed to the atmosphere. 8. The microfluidic multi-well-based cell culture testing device according to claim 1 , wherein the first fluid is a mixture solution of a gelling agent-containing liquid medium and a biological agent, wherein the first gelling agent-containing liquid medium is immobilized; and wherein and the second fluid is a solution containing a physiologically active substance. 9. The microfluidic multi-well-based cell culture testing device according to claim 1 , wherein the body of the microfluidic multi-well-based cell culture testing device is made of a transparent material. 10. The microfluidic multi-well-based cell culture testing device according to claim 1 , each of the microfluidic units further comprises a bottom plate, wherein the bottom plate completely seals an entire bottom surface of the microchannel and an entire bottom surface of the accommodation compartment. 11. The microfluidic multi-well-based cell culture testing device according to claim 1 , wherein the inlet is horizontally aligned with and separated from the accommodation compartment. 12. The microfluidic multi-well-based cell culture testing device according to claim 1 , the accommodation compartment is located in a central region of the testing device, and the inlet is located in an outer region of the testing device.