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  1. Article ; Online: The Potential of FGF-2 in Craniofacial Bone Tissue Engineering

    Anita Novais / Eirini Chatzopoulou / Catherine Chaussain / Caroline Gorin

    Cells, Vol 10, Iss 932, p

    A Review

    2021  Volume 932

    Abstract: Bone is a hard-vascularized tissue, which renews itself continuously to adapt to the mechanical and metabolic demands of the body. The craniofacial area is prone to trauma and pathologies that often result in large bone damage, these leading to both ... ...

    Abstract Bone is a hard-vascularized tissue, which renews itself continuously to adapt to the mechanical and metabolic demands of the body. The craniofacial area is prone to trauma and pathologies that often result in large bone damage, these leading to both aesthetic and functional complications for patients. The “gold standard” for treating these large defects is autologous bone grafting, which has some drawbacks including the requirement for a second surgical site with quantity of bone limitations, pain and other surgical complications. Indeed, tissue engineering combining a biomaterial with the appropriate cells and molecules of interest would allow a new therapeutic approach to treat large bone defects while avoiding complications associated with a second surgical site. This review first outlines the current knowledge of bone remodeling and the different signaling pathways involved seeking to improve our understanding of the roles of each to be able to stimulate or inhibit them. Secondly, it highlights the interesting characteristics of one growth factor in particular, FGF-2, and its role in bone homeostasis, before then analyzing its potential usefulness in craniofacial bone tissue engineering because of its proliferative, pro-angiogenic and pro-osteogenic effects depending on its spatial-temporal use, dose and mode of administration.
    Keywords FGF-2 ; bone tissue engineering ; angiogenesis ; mineralization ; signaling pathways ; Biology (General) ; QH301-705.5
    Subject code 616
    Language English
    Publishing date 2021-04-01T00:00:00Z
    Publisher MDPI AG
    Document type Article ; Online
    Database BASE - Bielefeld Academic Search Engine (life sciences selection)

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  2. Article ; Online: Implantation of engineered human microvasculature to study human infectious diseases in mouse models

    Sophia Schönherr-Hellec / Eirini Chatzopoulou / Jean-Philippe Barnier / Yoann Atlas / Sébastien Dupichaud / Thomas Guilbert / Yves Dupraz / Julie Meyer / Catherine Chaussain / Caroline Gorin / Xavier Nassif / Stephane Germain / Laurent Muller / Mathieu Coureuil

    iScience, Vol 26, Iss 4, Pp 106286- (2023)

    2023  

    Abstract: Summary: Animal models for studying human pathogens are crucially lacking. We describe the implantation in mice of engineered human mature microvasculature consisting of endothelial and perivascular cells embedded in collagen hydrogel that allows ... ...

    Abstract Summary: Animal models for studying human pathogens are crucially lacking. We describe the implantation in mice of engineered human mature microvasculature consisting of endothelial and perivascular cells embedded in collagen hydrogel that allows investigation of pathogen interactions with the endothelium, including in vivo functional studies. Using Neisseria meningitidis as a paradigm of human-restricted infection, we demonstrated the strength and opportunities associated with the use of this approach.
    Keywords Biological sciences ; Microbiology ; Bioengineering ; Cell biology ; Science ; Q
    Language English
    Publishing date 2023-04-01T00:00:00Z
    Publisher Elsevier
    Document type Article ; Online
    Database BASE - Bielefeld Academic Search Engine (life sciences selection)

    Full text online

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    Inter-library loan at ZB MED

    Your chosen title can be delivered directly to ZB MED Cologne location if you are registered as a user at ZB MED Cologne.

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