PED241/2016 Project
English (Engleză)
Project title: 3D laser additive manufacturing of cranial metallic prostheses functionalized with bioactive ceramic coatings/ BIOMIMA
Periode: 2016 - 2018
Contact Person:
Project Director: Dr. Andrei Popescu
Coordinator:
National Institute for Laser, Plasma and Radiation Physics - I.N.F.L.P.R.
Atomiștilor 409, Măgurele, Romania
Abstract:
This Project starts from an existing technology for synthesis of personalized cranial prostheses developed in collaboration between the Laser-Surface-Plasma Interactions Laboratory in INFLPR and Dr. Oblu Hospital in Iasi and it aims towards a radical modification of the method for easier implementation, an increase in prostheses shape and dimensions flexibility and a drastic reduction of production costs. The initial procedure started with acquisition of commercial metallic prostheses shaped in form of a mesh (1), their coating with a thin film of bioactive ceramic by pulsed laser deposition (2), identification of fractures dimensions by computer tomography (3), manual cutting of the meshes function of the wound dimensions (4). The new method involves a single step direct synthesis by laser additive manufacturing of a prosthesis with required dimensions covered by a bioactive layer, starting from metallic and ceramic powders. The aim is to eliminate the steps that involve acquisition of expensive commercial devices and the deposition techniques that require high vacuum and heating of the prostheses at high temperatures. We aim at the end of the Project to delineate the technology that will allow a single user to scan a patient by computer tomography, the fracture’s dimensions to be introduced in a pre-established CAD-CAM software and with the push of a single button to be able to generate in real time a prosthesis with required dimensions and functionality.
Objectives:
The main objective of the Project is the synthesis by Direct Laser Deposition (DLD) of a metallic cranial prosthesis starting from powders/wires.
O1. Synthesis of a metallic frame by DLD
O2. Fabrication by DLD of metallic mesh prostheses with complex 3D shapes
O3. Optimization of DLD parameters for the synthesis of bioactive ceramic coatings
O4. Case study of DLD bioactive ceramic coatings on actual DLD metallic prostheses
O5. Fabrication by DLD of the end products (metallic prostheses coated with bioactive ceramic layers)
O1. Synthesis of a metallic frame by DLD
O2. Fabrication by DLD of metallic mesh prostheses with complex 3D shapes
O3. Optimization of DLD parameters for the synthesis of bioactive ceramic coatings
O4. Case study of DLD bioactive ceramic coatings on actual DLD metallic prostheses
O5. Fabrication by DLD of the end products (metallic prostheses coated with bioactive ceramic layers)
Research Team:
• Dr. Andrei Popescu
• Dr. Doina Craciun
• Dr. Camelia Popescu
• Dr. Liviu Duta
• Dr. Rodica Cristescu
• Dr. Ion N. Mihailescu
• Dr. Irina Paun
• Dr. Catalin Luculescu
• Dr. Gabriela Dorcioman
• Drd. Valentina Grumezescu
• Drd. Diana Chioibasu
• Dr. George Stan
• Dr. Monica Enculescu
• Dr. Cristina Besleaga
• Dr. Iuliana Pasuk
• Drd. Liliana Trinca
• Tehn. Catalin Radulescu
• Dr. Doina Craciun
• Dr. Camelia Popescu
• Dr. Liviu Duta
• Dr. Rodica Cristescu
• Dr. Ion N. Mihailescu
• Dr. Irina Paun
• Dr. Catalin Luculescu
• Dr. Gabriela Dorcioman
• Drd. Valentina Grumezescu
• Drd. Diana Chioibasu
• Dr. George Stan
• Dr. Monica Enculescu
• Dr. Cristina Besleaga
• Dr. Iuliana Pasuk
• Drd. Liliana Trinca
• Tehn. Catalin Radulescu
Română (Romanian)
Titlul proiectului: Fabricarea prin imprimare laser 3D de proteze metalice craniene functionalizate cu straturi subtiri ceramice bioactive/ BIOMIMA
Perioada: 2016 - 2018
Persoana de contact:
Director Proiect: Dr. Andrei Popescu
Coordonator:
Institutul Național pentru Fizica Laserilor, Plasmei și Radiației - I.N.F.L.P.R.
Atomiștilor 409, Măgurele, ROMÂNIA
Abstract:
This Project starts from an existing technology for synthesis of personalized cranial prostheses developed in collaboration between the Laser-Surface-Plasma Interactions Laboratory in INFLPR and Dr. Oblu Hospital in Iasi and it aims towards a radical modification of the method for easier implementation, an increase in prostheses shape and dimensions flexibility and a drastic reduction of production costs. The initial procedure started with acquisition of commercial metallic prostheses shaped in form of a mesh (1), their coating with a thin film of bioactive ceramic by pulsed laser deposition (2), identification of fractures dimensions by computer tomography (3), manual cutting of the meshes function of the wound dimensions (4). The new method involves a single step direct synthesis by laser additive manufacturing of a prosthesis with required dimensions covered by a bioactive layer, starting from metallic and ceramic powders. The aim is to eliminate the steps that involve acquisition of expensive commercial devices and the deposition techniques that require high vacuum and heating of the prostheses at high temperatures. We aim at the end of the Project to delineate the technology that will allow a single user to scan a patient by computer tomography, the fracture’s dimensions to be introduced in a pre-established CAD-CAM software and with the push of a single button to be able to generate in real time a prosthesis with required dimensions and functionality.
Obiective:
The main objective of the Project is the synthesis by Direct Laser Deposition (DLD) of a metallic cranial prosthesis starting from powders/wires.
O1. Synthesis of a metallic frame by DLD
O2. Fabrication by DLD of metallic mesh prostheses with complex 3D shapes
O3. Optimization of DLD parameters for the synthesis of bioactive ceramic coatings
O4. Case study of DLD bioactive ceramic coatings on actual DLD metallic prostheses
O5. Fabrication by DLD of the end products (metallic prostheses coated with bioactive ceramic layers)
O1. Synthesis of a metallic frame by DLD
O2. Fabrication by DLD of metallic mesh prostheses with complex 3D shapes
O3. Optimization of DLD parameters for the synthesis of bioactive ceramic coatings
O4. Case study of DLD bioactive ceramic coatings on actual DLD metallic prostheses
O5. Fabrication by DLD of the end products (metallic prostheses coated with bioactive ceramic layers)
Echipa de cercetare:
• Dr. Andrei Popescu
• Dr. Doina Craciun
• Dr. Camelia Popescu
• Dr. Liviu Duta
• Dr. Rodica Cristescu
• Dr. Ion N. Mihailescu
• Dr. Irina Paun
• Dr. Catalin Luculescu
• Dr. Gabriela Dorcioman
• Drd. Valentina Grumezescu
• Drd. Diana Chioibasu
• Dr. George Stan
• Dr. Monica Enculescu
• Dr. Cristina Besleaga
• Dr. Iuliana Pasuk
• Drd. Liliana Trinca
• Tehn. Catalin Radulescu
• Dr. Doina Craciun
• Dr. Camelia Popescu
• Dr. Liviu Duta
• Dr. Rodica Cristescu
• Dr. Ion N. Mihailescu
• Dr. Irina Paun
• Dr. Catalin Luculescu
• Dr. Gabriela Dorcioman
• Drd. Valentina Grumezescu
• Drd. Diana Chioibasu
• Dr. George Stan
• Dr. Monica Enculescu
• Dr. Cristina Besleaga
• Dr. Iuliana Pasuk
• Drd. Liliana Trinca
• Tehn. Catalin Radulescu
RESULTS:
Publications:
[1] A. C. Popescu, C. Delval, M. Leparoux, Metals 2017, 7(11), 452; doi:10.3390/met7110452;
[2] C. Popescu D. Cristea, B. Bita, R. Cristescu, D. Craciun, G. D. Chioibasu, C. Luculescu, I. Paun, L. Duta, A. Popescu, Coatings-235694 in press, ec 2017
Publications:
[1] A. C. Popescu, C. Delval, M. Leparoux, Metals 2017, 7(11), 452; doi:10.3390/met7110452;
[2] C. Popescu D. Cristea, B. Bita, R. Cristescu, D. Craciun, G. D. Chioibasu, C. Luculescu, I. Paun, L. Duta, A. Popescu, Coatings-235694 in press, ec 2017
Conference presentations:
[1] Romanian Research Event - Romanian Concept- 25-27 October 2017
[2] Bucharest Science Festival - 29 September 2017