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In situ printing of mesenchymal stromal cells, by laser-assisted bioprinting, for in vivo bone regeneration applications
(Scientific Reports. vol. 7, n° 1, pp. 1778, 2017-05)Article de revue -
Layer-by-layer bioassembly of cellularized polylactic acid porous membranes for bone tissue engineering
(Journal of Materials Science: Materials in Medicine. vol. 28, n° 5, pp. 78, 2017-05)Article de revue -
A Role for CD154, the CD40 Ligand, in Granulomatous Inflammation
(Mediators of Inflammation. vol. 2017, pp. 2982879, 2017)Article de revue -
Similarities between induced membrane and amniotic membrane: Novelty for bone repair
(Placenta. vol. 59, pp. 116-123, 2017-11)Article de revue -
Bone sialoprotein, but not osteopontin, deficiency impairs the mineralization of regenerating bone during cortical defect healing
(BONE. vol. 46, n° 2, pp. 447-452, 2010-02)Article de revue -
Cartography of the mechanical properties of the human amniotic membrane
(Journal of the mechanical behavior of biomedical materials. vol. 99, pp. 18-26, 2019-11)Article de revue -
In situ prevascularization designed by laser-assisted bioprinting: effect on bone regeneration
(Biofabrication. vol. 11, n° 4, pp. 045002, 2019-07-03)Article de revue -
Laser-assisted 3D bioprinting of exocrine pancreas spheroid models for cancer initiation study
(Biofabrication. vol. 12, n° 3, pp. 035001, 2020-07-01)Article de revue -
Comparison of the impact of preservation methods on amniotic membrane properties for tissue engineering applications
(Materials Science and Engineering: C. vol. 104, pp. 109903, 2019-11)Article de revue -
Towards an in vitro model of glomerular barrier unit with an innovative bioassembly method
(Nephrology Dialysis Transplantation. vol. 35, n° 2, pp. 240-250, 2020-02-01)Article de revue