Julien Guerrero
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Explore the profile of Julien Guerrero including associated specialties, affiliations and a list of published articles.
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26
Citations
340
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Recent Articles
1.
Guerrero J, Maevskaia E, Ghayor C, Bhattacharya I, Weber F
J Funct Biomater
. 2024 Jul;
15(7).
PMID: 39057296
Additive manufacturing has emerged as a transformative tool in biomedical engineering, offering precise control over scaffold design for bone tissue engineering and regenerative medicine. While much attention has been focused...
2.
Maevskaia E, Ghayor C, Bhattacharya I, Guerrero J, Weber F
Materials (Basel)
. 2024 Jun;
17(11).
PMID: 38893806
Triply periodic minimal surface microarchitectures (TPMS) were developed by mathematicians and evolved in all kingdoms of living organisms. Renowned for their lightweight yet robust attributes, TPMS structures find application in...
3.
Maevskaia E, Guerrero J, Ghayor C, Bhattacharya I, Weber F
Int J Mol Sci
. 2024 Apr;
25(7).
PMID: 38612634
The functionalization of bone substitutes with exosomes appears to be a promising technique to enhance bone tissue formation. This study investigates the potential of exosomes derived from bone marrow mesenchymal...
4.
Maevskaia E, Khera N, Ghayor C, Bhattacharya I, Guerrero J, Nicholls F, et al.
3D Print Addit Manuf
. 2023 Oct;
10(5):905-916.
PMID: 37886403
Autologous bone remains the gold standard bone substitute in clinical practice. Therefore, the microarchitecture of newly developed synthetic bone substitutes, which reflects the spatial distribution of materials in the scaffold,...
5.
Triply Periodic Minimal Surface-Based Scaffolds for Bone Tissue Engineering: A Mechanical, and Study
Maevskaia E, Guerrero J, Ghayor C, Bhattacharya I, Weber F
Tissue Eng Part A
. 2023 May;
29(19-20):507-517.
PMID: 37212290
Triply periodic minimal surfaces (TPMSs) are found to be promising microarchitectures for bone substitutes owing to their low weight and superior mechanical characteristics. However, existing studies on their application are...
6.
Basatvat S, Bach F, Barcellona M, Binch A, Buckley C, Bueno B, et al.
JOR Spine
. 2023 Mar;
6(1):e1238.
PMID: 36994456
Background: In vitro studies using nucleus pulposus (NP) cells are commonly used to investigate disc cell biology and pathogenesis, or to aid in the development of new therapies. However, lab-to-lab...
7.
Guerrero J, Maevskaia E, Ghayor C, Bhattacharya I, Weber F
Int J Mol Sci
. 2023 Mar;
24(6).
PMID: 36983073
The early phase of bone healing is a complex and poorly understood process. With additive manufacturing, we can generate a specific and customizable library of bone substitutes to explore this...
8.
Guerrero J, Ghayor C, Bhattacharya I, Weber F
Int J Bioprint
. 2023 Feb;
9(1):626.
PMID: 36844242
63Additive manufacturing can be applied to produce personalized bone substitutes. At present, the major three-dimensional (3D) printing methodology relies on filament extrusion. In bioprinting, the extruded filament consists mainly of...
9.
Guerrero J, Dasen B, Frismantiene A, Pigeot S, Ismail T, Schaefer D, et al.
Stem Cells Transl Med
. 2022 Mar;
11(2):213-229.
PMID: 35259280
Cells of the stromal vascular fraction (SVF) of human adipose tissue have the capacity to generate osteogenic grafts with intrinsic vasculogenic properties. However, cultured adipose-derived stromal cells (ASCs), even after...
10.
Ghayor C, Bhattacharya I, Guerrero J, Ozcan M, Weber F
Materials (Basel)
. 2022 Feb;
15(4).
PMID: 35207973
Additive manufacturing enables the realization of the macro- and microarchitecture of bone substitutes. The macroarchitecture is determined by the bone defect and its shape makes the implant patient specific. The...