Challenges and pitfalls in the development of liposomal delivery systems for cancer therapy.

Despite considerable advances in the application of liposomal drug delivery systems in cancer treatment, the clinical application of liposomal formulations has been limited by many factors. It seems that there is a wide gap between results of experimental studies and clinical application of liposomes. In this review, we discuss barriers which limit the translation of liposomal delivery systems in cancer therapy. The main focus of this review will be on differences between preclinical and clinical studies and potential approaches to overcome the main pitfalls in the clinical application of liposomal delivery systems.

Novel approaches toward the generation of bioscaffolds as a potential therapy in cardiovascular tissue engineering.

Cardiovascular disease associated with myocardial infarction (MI) is among the leading causes of mortality worldwide, in part, due to the limited regenerative capacity of tissues. Although various approaches have been employed to generate bioartificial myocardial tissues, including surgical reconstruction and the use of biosynthetic or biological cell-free grafts, many challenges still remain. Natural biomaterials based on decellularization have made significant inroads into the development of favorable biomatrices for myocardial tissue regeneration. This process occurs with the concept of removing whole cellular contents, while preserving the extracellular matrix components and all the necessary features of native tissues. Furthermore, acellular-derived matrices serve to stimulate proliferation and recruitment of endothelial cells by providing proliferation signals to cells. This review highlights a novel approach to generate natural three dimensional myocardial scaffolds for clinical applications.