Years of research show that the Trans-dermal drug delivery (TDD) route showed promising results due to good immunogenic responses. In this paper, we have proposed a bio-inspired micro-needle suggested by a snake belonging to the family of Elapids, since they inject venom with high pressures during the bite. The proposed micro-needle is strong enough to puncture the skin and withstand different kinds of loads during the insertion. The proposed micro-needle is of [Formula: see text] length, and the maximum compressive, buckling, bending, load it can handle are 0.27N, 0.16N, 0.024N respectively. The proposed micro-needle (MN) has an inner channel diameter of 44 [Formula: see text] and it gives a flow rate of [Formula: see text]/s. In our work, we have modeled a substrate of epidermis and dermis as a porous medium with porosity and permeability as 0.74, [Formula: see text] respectively. The porosity and permeability are calculated using an SEM image of the human dermis consisting of only collagen fibers and empty pores. We have applied Darcy's law to the modeled substrate and obtained the velocity field of the drug administrated. The diffusion study of Doxorubicin ( 87 μ mol/l) is carried out using Darcy velocity field and concentration gradient.