Mesenchymal stem cells (MSCs), characterised by their self-renewal and multidifferentiation potential, are a favoured cell population for future tissue engineering applications. Differentiation of MSCs towards a specific lineage has been extensively studied, mainly through the use of growth factors or conditioned media. However, growth factor supplementation is a mono-domain approach and considering the number of permutations, it is unlikely to find the optimal cocktail. Although PRPs are used extensively, its use is controversial, and standardization is impossible. Conditions media have various limitations, including how much, when and how effective it is at the time that it would be aspirated. Thus, co-culture systems are at forefront of scientific research and technological innovation. Co-culture system gives access to the complete cell secretome and offers the advantages of autologous therapy. However, several weeks of co-culture are necessary to observe stem cell differentiation. We hypothesize that, by using macromolecular crowding, which has been shown to recapitulate the dense in vivo microenvironment of the extracellular area and enhance matrix deposition in vitro with its excluded volume effect, it will accelerate stem cell differentiation towards tenogenic lineage. Further, we will assess if tendon specific extracellular matrix deposited by tenocytes is sufficient for stem cell differentiation without the necessity of cell contact between tenocytes and stem cells.