Add to ORKGTrans-apical aortic valve replacement (AVR) is a new and rapidly growing therapy. However, there are only few training opportunities. The objective of our work is to build an appropriate artificial model of the heart that can replace the use of animals for surgical training in trans-apical AVR procedures. To reduce the necessity for fluoroscopy, we pursued the goal of building a translucent model of the heart that has nature-like dimensions. A simplified 3D model of a human heart with its aortic root was created in silico using the SolidWorks Computer-Aided Design (CAD) program. This heart model was printed using a rapid prototyping system developed by the Fab@Home project and dip-coated two times with dispersion silicone. The translucency ...
Heart valve diseases are among the leading causes of cardiac failure around the globe. Current adva...
Heart valve diseases are among the leading causes of cardiac failure around the globe. Current advan...
OBJECTIVES: A thorough understanding of mitral and aortic valve motion dynamics is essential in mast...
OBJECTIVES: Simulation-based training has shown to be effective in training new surgical skills. The...
Adequate in-vitro training in valved stents deployment as well as testing of the latter devices requ...
Introduction: Three-dimensional (3D) printing has become an affordable tool for assisting heart surg...
Trans-catheter valve implantation; Aortic valve regurgitation, 3D printing; Stereolitography The 3D...
Abstract Introduction: Three-dimensional (3D) printing has become an affordable tool for assisting ...
Abstract Digitalization of health care practices is substantially manifesting itself as an effective...
Mitral regurgitation is a common valvular disorder. Transcatheter edge-to-edge repair (TEER) is a mi...
We developed a new fabrication technique for 3-dimensional scaffolds for tissue engineering of human...
Patient specific surgical simulators can be effective training tools in cardiac surgery. There is cu...
Tissue engineering is currently being actively investigated in order to ascertain if it can offer an...
Includes bibliographical references (pages 71-76).The aortic heart valve is a delicate, complex stru...
Heart valve diseases are among the leading causes of cardiac failure around the globe. Current adva...
Heart valve diseases are among the leading causes of cardiac failure around the globe. Current advan...
OBJECTIVES: A thorough understanding of mitral and aortic valve motion dynamics is essential in mast...
OBJECTIVES: Simulation-based training has shown to be effective in training new surgical skills. The...
Adequate in-vitro training in valved stents deployment as well as testing of the latter devices requ...
Introduction: Three-dimensional (3D) printing has become an affordable tool for assisting heart surg...
Trans-catheter valve implantation; Aortic valve regurgitation, 3D printing; Stereolitography The 3D...
Abstract Introduction: Three-dimensional (3D) printing has become an affordable tool for assisting ...
Abstract Digitalization of health care practices is substantially manifesting itself as an effective...
Mitral regurgitation is a common valvular disorder. Transcatheter edge-to-edge repair (TEER) is a mi...
We developed a new fabrication technique for 3-dimensional scaffolds for tissue engineering of human...
Patient specific surgical simulators can be effective training tools in cardiac surgery. There is cu...
Tissue engineering is currently being actively investigated in order to ascertain if it can offer an...
Includes bibliographical references (pages 71-76).The aortic heart valve is a delicate, complex stru...
Heart valve diseases are among the leading causes of cardiac failure around the globe. Current adva...
Heart valve diseases are among the leading causes of cardiac failure around the globe. Current advan...
OBJECTIVES: A thorough understanding of mitral and aortic valve motion dynamics is essential in mast...