Fiber Thickness and Porosity Control in a Biopolymer Scaffold 3D Printed through a Converted Commercial FDM Device.

Lovecchio, Joseph; Cortesi, Marilisa; Zani, Marco; Govoni, Marco; Dallari, Dante; Giordano, Emanuele

Lovecchio, Joseph; Cortesi, Marilisa; Zani, Marco; Govoni, Marco; Dallari, Dante; Giordano, Emanuele.

Afiliación

Lovecchio J; Laboratory of Cellular and Molecular Engineering "Silvio Cavalcanti", Department of Electrical, Electronic and Information Engineering "Guglielmo Marconi" (DEI), University of Bologna, 47521 Cesena, FC, Italy.
Cortesi M; Laboratory of Cellular and Molecular Engineering "Silvio Cavalcanti", Department of Electrical, Electronic and Information Engineering "Guglielmo Marconi" (DEI), University of Bologna, 47521 Cesena, FC, Italy.
Zani M; Gynaecological Cancer Research Group, Lowy Cancer Research Centre, Faculty of Medicine and Health, School of Women's and Children's Health, University of New South Wales, Sydney 2031, Australia.
Govoni M; Mark One S.r.l., 47521 Cesena, FC, Italy.
Dallari D; Reconstructive Orthopaedic Surgery and Innovative Techniques-Musculoskeletal Tissue Bank, IRCCS Istituto Ortopedico Rizzoli, 40136 Bologna, RE, Italy.
Giordano E; Reconstructive Orthopaedic Surgery and Innovative Techniques-Musculoskeletal Tissue Bank, IRCCS Istituto Ortopedico Rizzoli, 40136 Bologna, RE, Italy.

Materials (Basel) ; 15(7)2022 Mar 24.

Article en En | MEDLINE | ID: mdl-35407727

Palabras clave

3D bioprinting; FDM; alginate; bone grafting; bone tissue engineering; fiber thickness; gelatin; porosity; scaffolds

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Texto completo: 1 Colección: 01-internacional Base de datos: MEDLINE Idioma: En Revista: Materials (Basel) Año: 2022 Tipo del documento: Article País de afiliación: Italia Pais de publicación: Suiza

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