SAXS imaging reveals optimized osseointegration properties of bioengineered oriented 3D-PLGA/aCaP scaffolds in a critical size bone defect model

Elisa A. Casanova; Adrian Rodriguez Palomo; Lisa Stähli; Kevin Arnke; Olivier Gröninger; Melanie Generali; Yvonne Neldner; Simon Tiziani; Ana Perez Dominguez; Manuel Guizar-Sicairos; Zirui Gao; Christian Appel; Leonard Nielsen; Marios Georgiadis; Franz E. Weber; Wendelin Stark; Hans Christoph Pape; Paolo Cinelli; Marianne Liebi

doi:10.1016/j.biomaterials.2022.121989

SAXS imaging reveals optimized osseointegration properties of bioengineered oriented 3D-PLGA/aCaP scaffolds in a critical size bone defect model
Journal article, 2023

Healing large bone defects remains challenging in orthopedic surgery and is often associated with poor outcomes and complications. A major issue with bioengineered constructs is achieving a continuous interface between host bone and graft to enhance biological processes and mechanical stability. In this study, we have developed a new bioengineering strategy to produce oriented biocompatible 3D PLGA/aCaP nanocomposites with enhanced osseointegration. Decellularized scaffolds -containing only extracellular matrix- or scaffolds seeded with adipose-derived mesenchymal stromal cells were tested in a mouse model for critical size bone defects. In parallel to micro-CT analysis, SAXS tensor tomography and 2D scanning SAXS were employed to determine the 3D arrangement and nanostructure within the critical-sized bone. Both newly developed scaffold types, seeded with cells or decellularized, showed high osseointegration, higher bone quality, increased alignment of collagen fibers and optimal alignment and size of hydroxyapatite minerals.

SAXS tomography

PLGA/aCaP

Extracellular matrix

Critical size bone defect

Scaffold

Mesenchymal stromal cells

Author

Elisa A. Casanova

University Hospital of Zürich

Adrian Rodriguez Palomo

Chalmers, Physics, Materials Physics

Other publications Research

Lisa Stähli

University Hospital of Zürich

Kevin Arnke

University Hospital of Zürich

Olivier Gröninger

Swiss Federal Institute of Technology in Zürich (ETH)

Melanie Generali

University of Zürich

Yvonne Neldner

University Hospital of Zürich

Simon Tiziani

University Hospital of Zürich

Ana Perez Dominguez

University of Zürich

Manuel Guizar-Sicairos

Paul Scherrer Institut

Zirui Gao

Paul Scherrer Institut

Christian Appel

Paul Scherrer Institut

Leonard Nielsen

Chalmers, Physics, Materials Physics

Other publications Research

Marios Georgiadis

Stanford University

Franz E. Weber

University of Zürich

Wendelin Stark

Swiss Federal Institute of Technology in Zürich (ETH)

Hans Christoph Pape

University Hospital of Zürich

Paolo Cinelli

University of Zürich

University Hospital of Zürich

Marianne Liebi

Chalmers, Physics, Materials Physics

Swiss Federal Laboratories for Materials Science and Technology (Empa)

Other publications Research

Biomaterials

0142-9612 (ISSN) 18785905 (eISSN)

Vol. 294 121989

Subject Categories

Bio Materials

Biomaterials Science

Medical Materials

DOI

10.1016/j.biomaterials.2022.121989

Publication data connected to DOI

PubMed

36628888

More information

Latest update

1/16/2023

SAXS imaging reveals optimized osseointegration properties of bioengineered oriented 3D-PLGA/aCaP scaffolds in a critical size bone defect model Journal article, 2023

Author

Elisa A. Casanova

Adrian Rodriguez Palomo

Lisa Stähli

Kevin Arnke

Olivier Gröninger

Melanie Generali

Yvonne Neldner

Simon Tiziani

Ana Perez Dominguez

Manuel Guizar-Sicairos

Zirui Gao

Christian Appel

Leonard Nielsen

Marios Georgiadis

Franz E. Weber

Wendelin Stark

Hans Christoph Pape

Paolo Cinelli

Marianne Liebi

Biomaterials

Subject Categories

DOI

PubMed

More information

Latest update

SAXS imaging reveals optimized osseointegration properties of bioengineered oriented 3D-PLGA/aCaP scaffolds in a critical size bone defect model
Journal article, 2023