Loredana Moimas is the Chief Operating Officer of Sulapac. She has 20 years of experience in the medical device industry. Before joining Sulapac in 2020, she held several leadership positions at CONMED Corporation over 10 years. She has a PhD in Material Science and Engineering from Università degli Studi di Trieste and Master’s degree in Engineering from Tampere University of Technology and Università degli Studi di Trieste.
Moimas has recognized team leader excellence, with the ability to initiate/manage cross-functional teams and multi-disciplinary projects, and to deliver cost, time and resource reduction. She is a natural critical thinker, open minded, with proven ability to “see the whole picture”, summarize it, identify the risks and the improvement to be first implemented and estimate the short term and long-term impact of the decisions made.
Patents:
Bioactive glass compositions
Patent date: Issued Jan 10, 2012
Patent issuer and numberus US 8093166
Patent description: The present invention relates to a bioactive glass composition comprising SiO2, Na2O, K2O, CaO, and P2O5.
Other inventor
Eija Pirhonen
Bioactive glass compositions
Patent date: Issued Dec 23, 2009
Patent issuer and numbereu EP 1903012
Patent descriptionThe present invention relates to a bioactive glass composition comprising SiO2, Na2O, K2O, CaO, and P2O5.
Other inventor
Eija Pirhonen
Bioactive glass compositions
Bone grafting material, method and implant
Patent issuer and numberus US7189409
Other inventors
Eija Pirhonen
Franz Weber
Publications:
Healing of fresh extraction sockets filled with bioactive glass particles: histological findings in humans.
Three-dimensional evaluation of bone changes following ridge preservation procedures. Calcium phosphate surface treatment of bioactive glass causes a delay in early osteogenic differentiation of adipose stem cells.
Characterization of zinc-releasing three-dimensional bioactive glass scaffolds and their effect on human adipose stem cell proliferation and osteogenic differentiation.
Bioactive porous scaffolds for tissue engineering applications: investigation on the degradation process by Raman spectroscopy and scanning electron microscopy
Rabbit pilot study on the resorbability of three-dimensional bioactive glass fibre scaffolds. Mechanical properties of bioactive glass 9-93 fibres
Geometry Modifications of a New Three-dimensional Bioactive Glass Fibre Matrix with a Feasible Structure for Tissue Engineering Applications.
Porous Bioactive 3-D Glass Fiber Scaffolds for Tissue Engineering Applications Manufactured by Sintering Technique