The process of locally increasing the permeability of cell membranes or cell layers is referred to as sonoporation or sonopermeation, respectively, and opens up perspectives for drug delivery in cancer treatment by facilitating enhanced local drug accumulation. These effects are mediated by ultrasound-activated microbubbles in close proximity to cells. Here, the selection of ultrasound settings according to the intended effect on the biological tissue remains a challenge, especially for broadly size-distributed microbubbles, which show a heterogeneous response to ultrasound. For this purpose, we have analyzed the general response of narrower size-distributed poly(