Affordable Access

Laser-assisted bioprinting of targeted cartilaginous spheroids for high density bottom-up tissue engineering

Authors
  • Hall, Gabriella Nilsson;
  • Fan, Yuchao; 155130;
  • Viellerobe, Bertrand;
  • Iazzolino, Antonio;
  • Dimopoulos, Andreas; 156363;
  • Poiron, Claire;
  • Clapies, Aude;
  • Luyten, Frank P.; 6469;
  • Guillemot, Fabien;
  • Papantoniou, Ioannis; 78064;
Publication Date
Oct 01, 2024
Source
Lirias
Keywords
License
Green
External links

Abstract

Multicellular spheroids such as microtissues and organoids have demonstrated great potential for tissue engineering applications in recent years as these 3D cellular units enable improved cell-cell and cell-matrix interactions. Current bioprinting processes that use multicellular spheroids as building blocks have demonstrated limited control on post printing distribution of cell spheroids or moderate throughput and printing efficiency. In this work, we presented a laser-assisted bioprinting approach able to transfer multicellular spheroids as building blocks for larger tissue structures. Cartilaginous multicellular spheroids formed by human periosteum derived cells (hPDCs) were successfully bioprinted possessing high viability and the capacity to undergo chondrogenic differentiation post printing. Smaller hPDC spheroids with diameters ranging from ∼100 to 150µm were successfully bioprinted through the use of laser-induced forward transfer method (LIFT) however larger spheroids constituted a challenge. For this reason a novel alternative approach was developed termed as laser induced propulsion of mesoscopic objects (LIPMO) whereby we were able to bioprint spheroids of up to 300µm. Moreover, we combined the bioprinting process with computer aided image analysis demonstrating the capacity to 'target and shoot', through automated selection, multiple large spheroids in a single sequence. By taking advantage of target and shoot system, multilayered constructs containing high density cell spheroids were fabricated. / status: accepted

Report this publication

Statistics

Seen <100 times