Tissue Engineering Bioreactor
نویسندگان
چکیده
pg. 2) Background (pg. 2-8) Alternative Design Descriptions (pg. 8-11) Final Design (pg. 11-13) References (pg. 13) Appendix A: Product Design Specifications (pg. 13-16)
منابع مشابه
Successful Development of Small Diameter Tissue-Engineering Vascular Vessels by Our Novel Integrally Designed Pulsatile Perfusion-Based Bioreactor
Small-diameter (<4 mm) vascular constructs are urgently needed for patients requiring replacement of their peripheral vessels. However, successful development of constructs remains a significant challenge. In this study, we successfully developed small-diameter vascular constructs with high patency using our integrally designed computer-controlled bioreactor system. This computer-controlled bio...
متن کاملManufacturing a Biomimetic Biorecator in Cardiac Tissue Engineering
Introduction: The direct approach of cardiac tissue engineering is to mimic the natural tissue of heart, considering the significant role of scaffolding and mechanical simulation. Methods: To achieve this purpose, a composite Polycaprolactone (PCL)/Gelatin electrospun scaffold with a ratio of 70:30 and with the most similarities to the cardiac extracellular matrix was fabricated with aligned ...
متن کاملOsteogenic Differentiation and Mineralization on Compact Multilayer nHA-PCL Electrospun Scaffolds in a Perfusion Bioreactor
Background: Monolayer electrospun scaffolds have already been used in bone tissue engineering due to their high surface-to-volume ratio, interconnectivity, similarity to natural bone extracellular matrix (ECM), and simple production. Objectives: The aim of this study was to evaluate the dynamic culture effect on osteogenic differentiation and mineralizationi into a compact cellular multilayer ...
متن کاملSpecial Issue: Design of Bioreactor Systems for Tissue Engineering
Tissue engineering and, more broadly, regenerative medicine is moving into a phase where we are seeing potential therapies moving 'slowly but surely' from the laboratory into the clinic, i.e., from research to the clinic and into manufacturing. The numbers of cells required for cell therapy protocols can vary from tens of millions, to billions [1], and it is widely considered that such cell num...
متن کاملBioreactor Development for Cartilage Tissue Engineering: Computational Modelling and Experimental Results
Tissue engineering is an emerging technology to replace tissues and organs damaged due to trauma of disease with fully functional living tissue equivalents. Tissue development is facilitated by bioreactors, devices engineered to deliver appropriate spatial and temporal nutrient transport and mechanical loading in a welldefined and controlled environment. Bioreactors that provide well-defined an...
متن کاملA novel bioreactor for the dynamic stimulation and mechanical evaluation of multiple tissue-engineered constructs.
Systematic advancements in the field of musculoskeletal tissue engineering require clear communication about the mechanical environments that promote functional tissue growth. To support the rapid discovery of effective mechanostimulation protocols, this study developed and validated a mechanoactive transduction and evaluation bioreactor (MATE). The MATE provides independent and consistent mech...
متن کامل