Search Results - "Kronemberger, Gabriela S."

3D organ-on-a-chip: The convergence of microphysiological systems and organoids by Baptista, Leandra S, Porrini, Constance, Kronemberger, Gabriela S, Kelly, Daniel J, Perrault, Cecile M

“…Medicine today faces the combined challenge of an increasing number of untreatable diseases and fewer drugs reaching the clinic. While pharmaceutical companies…”
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Corrigendum: 3D organ-on-a-chip: the convergence of microphysiological systems and organoids by Baptista, Leandra S, Porrini, Constance, S Kronemberger, Gabriela, Kelly, Daniel J, Perrault, Cecile M

“…[This corrects the article DOI: 10.3389/fcell.2022.1043117.]…”
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Scaffold‐ and serum‐free hypertrophic cartilage tissue engineering as an alternative approach for bone repair by Kronemberger, Gabriela S., Dalmônico, Gisele M. L., Rossi, André L., Leite, Paulo Emílio Correa, Saraiva, Antonio M., Beatrici, Anderson, Silva, Karina Ribeiro, Granjeiro, José Mauro, Baptista, Leandra Santos

“…Human adipose stem/stromal cell (ASC) spheroids were used as a serum‐free in vitro model to recapitulate the molecular events and extracellular matrix…”
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Recapitulating Tumorigenesis in vitro: Opportunities and Challenges of 3D Bioprinting by Kronemberger, Gabriela S., Miranda, Guilherme A. S. C., Tavares, Renata S. N., Montenegro, Bianca, Kopke, Úrsula de A., Baptista, Leandra S.

“…Cancer is considered one of the most predominant diseases in the world and one of the principal causes of mortality per year. The cellular and molecular…”
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A Synergic Strategy: Adipose-Derived Stem Cell Spheroids Seeded on 3D-Printed PLA/CHA Scaffolds Implanted in a Bone Critical-Size Defect Model by Kronemberger, Gabriela S, Palhares, Thiago Nunes, Rossi, Alexandre Malta, Verçosa, Brunno R F, Sartoretto, Suelen C, Resende, Rodrigo, Uzeda, Marcelo J, Alves, Adriana T N N, Alves, Gutemberg G, Calasans-Maia, Mônica D, Granjeiro, José Mauro, Baptista, Leandra Santos

“…Bone critical-size defects and non-union fractures have no intrinsic capacity for self-healing. In this context, the emergence of bone engineering has allowed…”
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Engineering High-Quality Cartilage Microtissues Using Hydrocortisone Functionalized Microwells by Burdis, Ross, Kronemberger, Gabriela S, Kelly, Daniel J

“…Engineering clinically relevant musculoskeletal tissues at a human scale is a considerable challenge. Developmentally inspired scaffold-free approaches for…”
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Spheroids and organoids as humanized 3D scaffold‐free engineered tissues for SARS‐CoV‐2 viral infection and drug screening by Kronemberger, Gabriela S., Carneiro, Fabiana A., Rezende, Danielle F., Baptista, Leandra S.

“…The new coronavirus (2019‐nCoV) or the severe acute respiratory syndrome coronavirus 2 (SARS‐CoV‐2) was officially declared by the World Health Organization…”
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Bioprinting of scaled-up meniscal grafts by spatially patterning phenotypically distinct meniscus progenitor cells within melt electrowritten scaffolds by Barceló, Xavier, Eichholz, Kian, Gonçalves, Inês, Kronemberger, Gabriela S, Dufour, Alexandre, Garcia, Orquidea, Kelly, Daniel J

“…Meniscus injuries are a common problem in orthopedic medicine and are associated with a significantly increased risk of developing osteoarthritis. While…”
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Cartilage and bone tissue engineering using adipose stromal/stem cells spheroids as building blocks by Kronemberger, Gabriela S, Matsui, Renata Akemi Morais, Miranda, Guilherme de Almeida Santos de Castro E, Granjeiro, José Mauro, Baptista, Leandra Santos

“…Scaffold-free techniques in the developmental tissue engineering area are designed to mimic embryonic processes with the aim of biofabricating, , tissues with…”
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Rapidly Degrading Hydrogels to Support Biofabrication and 3D Bioprinting Using Cartilage Microtissues by Kronemberger, Gabriela S., Spagnuolo, Francesca D., Karam, Aliaa S., Chattahy, Kaoutar, Storey, Kyle J., Kelly, Daniel J.

“…In recent years, there has been increased interest in the use of cellular spheroids, microtissues, and organoids as biological building blocks to engineer…”
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The hypertrophic cartilage induction influences the building‐block capacity of human adipose stem/stromal cell spheroids for biofabrication by Kronemberger, Gabriela S., Beatrici, Anderson, Dalmônico, Gisele M. L., Rossi, André L., Miranda, Guilherme A. S. C., Boldrini, Leonardo C., Mauro Granjeiro, José, Baptista, Leandra Santos

“…As an alternative to the classical tissue engineering approach, bottom‐up tissue engineering emerges using building blocks in bioassembly technologies…”
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Large-scale, Automated Production of Adipose-derived Stem Cell Spheroids for 3D Bioprinting by Kronemberger, Gabriela S, Miranda, Guilherme A S C, Silva, Taisnara I G, Gonçalves, Rosângela M, Granjeiro, José M, Baptista, Leandra S

“…Adipose-derived stromal/stem cells (ASCs) are a subpopulation of cells found in the stromal vascular fraction of human subcutaneous adipose tissue recognized…”
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Spheroids of stem cells as endochondral templates for improved bone engineering by Baptista, Leandra Santos, Kronemberger, Gabriela Soares, Silva, Karina Ribeiro, Granjeiro, Jose Mauro

“…Osteodegenerative disease and bone fractures lead to bone damage or loss, requiring new bone formation to replace the damaged tissues. Classical 'top-down'…”
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