Add to ORKGAbstract: A novel technique is presented in this paper for the fabrication of tissue engineering scaffolds using the High Intensity Focused Ultrasound (HIFU). This acoustic method is a solvent-free, highly efficient and low cost process that has the potential in scaffold-based tissue engineering. HIFU fabrication technique is capable of creating hierarchically-structured porous polymeric materials, which have various topographical features at different length scales. This will in turn affect the cellular response and behavior of certain type of cells, such as the integration and growth of smooth muscle cells (SMCs). In this study, the effect of HIFU porous polymer fabrication was investigated. Scanning-mode HIFU insonation was performed in ...
This paper presents a novel manufacturing method for cellular materials with a graded porosity distr...
Thesis (Ph. D.)--University of Rochester. Dept. of Biomedical Engineering, 2013.Technological advanc...
Manufacturing of three-dimensional scaffolds with multiple levels of porosity are an advantage in ti...
The aimof this work is to demonstrate that the structural and fluidic properties of polymer foamtiss...
The design of multifunctional materials offers great potential for numerous applications in areas ra...
This article promotes the use of High Intensity Focused Ultrasound (HIFU) as a tool for affecting th...
The design of multifunctional materials offers great potential for numerous applications in areas ra...
A variety of materials require functionally graded cellular microstructures whose porosity is engine...
Functionally graded cellular microstructures whose porosity (i.e.volume fraction of void to solid) i...
The design and manufacture of optimised structural components is desired by many areas of engineerin...
Post-processing of polymer foam tissue scaffolds with high power ultrasound: a route to increase
Functionally graded materials engineered to meet specific requirements are being increasingly sought...
This paper presents a novel manufacturing method for cellular materials with a graded porosity distr...
Thesis (Ph. D.)--University of Rochester. Dept. of Biomedical Engineering, 2013.Technological advanc...
Manufacturing of three-dimensional scaffolds with multiple levels of porosity are an advantage in ti...
The aimof this work is to demonstrate that the structural and fluidic properties of polymer foamtiss...
The design of multifunctional materials offers great potential for numerous applications in areas ra...
This article promotes the use of High Intensity Focused Ultrasound (HIFU) as a tool for affecting th...
The design of multifunctional materials offers great potential for numerous applications in areas ra...
A variety of materials require functionally graded cellular microstructures whose porosity is engine...
Functionally graded cellular microstructures whose porosity (i.e.volume fraction of void to solid) i...
The design and manufacture of optimised structural components is desired by many areas of engineerin...
Post-processing of polymer foam tissue scaffolds with high power ultrasound: a route to increase
Functionally graded materials engineered to meet specific requirements are being increasingly sought...
This paper presents a novel manufacturing method for cellular materials with a graded porosity distr...
Thesis (Ph. D.)--University of Rochester. Dept. of Biomedical Engineering, 2013.Technological advanc...
Manufacturing of three-dimensional scaffolds with multiple levels of porosity are an advantage in ti...