With high demand for concrete material in the building market, the goal of Portland Cement Association has be-en to increase the market share of concrete usage by promoting lateral force resisting (LFR) framing systems (moment-resisting and shearwall) in concrete structures. The selection criteria of LFR framing should be based on the importance factors and cost estimation, as cost-effectiveness has become a benchmark in the design indu-stry. In the review, the parameters (column dimensions, slab thickness, floor systems, live loads, bay sizes and aspect ratio) for developing cost-effective LFR framing model are discussed. In addition, the variables, constra-ints, properties of structural members, designs and cost estimations of the framing systems associated with apar-tment buildings are also analyzed. The preferred LFR framing system should meet drift requirements at lower cost. Moment resisting frames are commonly used for low-to mid- rise buildings, while shearwalls are best suit-ed for high-rise structures.