Static or dynamic weight of body upper structure is supported by acetabulofemoral joint. It is joint between head of femur and acetabulum of pelvis. Displacement or dislocation of this joint is known as hip dysplasia. In this condition, hip socket does not cover the ball portion of the upper thighbone. For reinstating the displaced joint, hip implants of pure titanium or titanium-based alloy are used. Titanium is a good option as it is having favorable properties like high strength, corrosion resistant and biocompatibility. Solid hip implants are mostly stiffer than bone and may not match properly with bone causing loosening of implant. Lattice structures are being developed as they mimic bone structure and may provide good results. These structures may be fabricated with precision by additive manufacturing (AM). In this paper, lattice structures have been integrated in standard hip implant and comparative finite element study is conducted to see the effectiveness of lattice-based implants over solid implants. Three strut-based lattice unit cell, namely, octet, diamond and kelvin and bio-compatible titanium alloy (Ti6Al4V) have been considered for analysis.