The combination of additive manufacturing (AM) technologies with a component integrating technology forming a hybrid integrating additive manufacturing technology (hiAM) enables a variety of extended potentials like the free placement of wires within additive manufactured parts. The technically usable description of the technology's potentials enables the use of design options through manufacturing induced properties. This contribution addresses the integration of wires, fibers and tubes by manufacturing induced properties of hiAM using the example of a plain bearing housing. The identified properties form the basis for the methodical development of innovative partial solutions, which enable the development of novel products in the context of Design with X approaches. The functional performance of the redesign is evaluated in an experimental investigation and compared with its conventionally manufactured counterpart. Based on the comparison functional improvements are analyzed regarding the realization of the identified manufacturing induced properties. The partial solutions enable outstanding functionality, less mounting effort and less use of material within the context of the redesigned plain bearing housing.