To expand the application of perfusion decellularization beyond isolated single organs, we used the native vasculature of adult and neonatal rats to systemically decellularize the organs of a whole animal in situ. Acellular scaffolds were generated from kidney, liver, lower limb, heart-lung system, and a whole animal body, demonstrating that perfusion decellularization technology is applicable to any perfusable tissue, independent of age. Biochemical and histological analyses demonstrated that organs and organ systems (heart-lung pair and lower limb) were successfully decellularized, retaining their extracellular matrix (ECM) structure and organ-specific composition, as evidenced by differences in organ-specific scaffold stiffness. Altogether, we demonstrated that organs, organ systems and whole animal bodies can be perfusion decellularized while retaining ECM components and biomechanics.
Decellularized Extracellular Matrix , Perfusion/methods , Tissue Engineering/methods , Animals , Extracellular Matrix , Female , Kidney/ultrastructure , Liver/ultrastructure , Lung/ultrastructure , Microscopy, Electron, Scanning , Myocardium/ultrastructure , Proteomics , Rats , Rats, Sprague-Dawley , Tissue Scaffolds
