A
A. Kivelio
Researcher at University of Zurich
Publications - 5
Citations - 194
A. Kivelio is an academic researcher from University of Zurich. The author has contributed to research in topics: Fibrin glue & Bone regeneration. The author has an hindex of 5, co-authored 5 publications receiving 141 citations. Previous affiliations of A. Kivelio include École Polytechnique Fédérale de Lausanne.
Papers
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Journal ArticleDOI
Mussel-mimetic tissue adhesive for fetal membrane repair: an ex vivo evaluation
Claudia Haller,W. Buerzle,A. Kivelio,Michela Perrini,Carrie E. Brubaker,Raphael J. Gübeli,Ajit S. Mallik,Wilfried Weber,Phillip B. Messersmith,Edoardo Mazza,Edoardo Mazza,N. Ochsenbein-Koelble,Roland Zimmermann,Martin Ehrbar +13 more
TL;DR: Ex-vivo-tested mussel glue sealed fetal membranes and resisted pressures achieved during uterine contractions together with good stability in proteolytic environments, this makes mussels glue a promising sealing material for future applications.
Journal ArticleDOI
Mussel mimetic tissue adhesive for fetal membrane repair: initial in vivo investigation in rabbits
A. Kivelio,Philip DeKoninck,Michela Perrini,Carrie E. Brubaker,Phillip B. Messersmith,Edoardo Mazza,Edoardo Mazza,Jan Deprest,Roland Zimmermann,Martin Ehrbar,N. Ochsenbein-Koelble +10 more
TL;DR: Mussel glues performance in sealing fetal membranes in the rabbit model was comparable to that of fibrin glue, making it a noteworthy candidate for a clinically applicable fetal membrane sealant.
Journal ArticleDOI
Smart Hydrogels for the Augmentation of Bone Regeneration by Endogenous Mesenchymal Progenitor Cell Recruitment.
Philipp S. Lienemann,Philipp S. Lienemann,Queralt Vallmajo-Martin,Queralt Vallmajo-Martin,Panagiota Papageorgiou,Ulrich Blache,Stéphanie Metzger,Stéphanie Metzger,A. Kivelio,A. Kivelio,Vincent Milleret,Ana Sala,Sylke Hoehnel,Aline Roch,Raphael Reuten,Manuel Koch,Olaia Naveiras,Franz E. Weber,Wilfried Weber,Matthias P. Lutolf,Martin Ehrbar +20 more
TL;DR: It is shown that modulating the dynamics of endogenous progenitor cells in vivo by smart synthetic hydrogels significantly improves bone healing and holds great potential for other advanced applications in regenerative medicine.
Journal ArticleDOI
Longitudinal in vivo evaluation of bone regeneration by combined measurement of multi-pinhole SPECT and micro-CT for tissue engineering
Philipp S. Lienemann,Stéphanie Metzger,A. Kivelio,Alain Blanc,Panagiota Papageorgiou,Alberto Astolfo,Bernd R. Pinzer,Paolo Cinelli,Franz E. Weber,Roger Schibli,Martin Béhé,Martin Ehrbar +11 more
TL;DR: Modular designed poly(ethylene glycol)-based hydrogels that release bone morphogenetic protein to guide the healing of critical sized calvarial bone defects are employed to follow and optimize bone-inducing biomaterials.
Book ChapterDOI
Recent Advances in 3D Tissue Models
TL;DR: This work reviews recent advances in the design of materials building blocks which allow the formation of 3D structured microenvironments and discusses needs to generate models which would allow the investigator to controllably manipulate cells in their 3D context with the aim to generate complex but yet scalable tissue models.