Skin drug delivery is an emerging route in the drug development, due to its great advantages, thus leading to an urgent need to understand the behaviour of active pharmaceutical ingredients into/through the skin. This knowledge is crucial in the early stages of product design and development. Yet, given the skin barrier properties as one of the first body’s natural defence systems, it can act as an obstacle to the successful outcome of a skin drug therapy. To unravel the mechanisms underlying this barrier, reductionist strategies have designed several models with different levels of complexity and integrity, using non-biological and biological components. Besides the detail of information and resemblance to the in vivo Human skin that each in vitro model offers, the technical and economic efforts required should be considered when selecting the most adequate model for the intended research. This review provides an outline of the most commonly applied skin models, including healthy and diseased conditions, lab developed systems and commercialized models, their advantages and limitations and, also an overview of the new trends in skin engineered models.