Current microfluidic methods for cell-laden microfiber fabrication generally require larger than 100 μl of cell-suspensions. Since some 'rare' cells can be only acquired in small amounts, the preparation of >100 μl cell-suspensions with high-cell density can be both expensive and time consuming. Here, we present a facile method capable of fabricating cell-laden microfibers using small-volume cell-suspensions. The method utilizes a 3D-printed coaxial microfluidic device featured with a 'luer-lock inlet' to effectively load cell-suspensions in a deterministic volume (down to 5 μl) with a low sample-loss. In experiments, we demonstrate the formation of fibrous tissues consisting of various kinds of cells. Investigations on the morphology and function of the encapsulated cells show the viability of the cells is not significantly affected by the fabrication process, and also indicate the potential of using our method to perform quantitative assays on fiber-shaped tissues, while reducing the overall material and time consumption.