Upcoming Events

<< October 2020 >> 
 Mo  Tu  We  Th  Fr  Sa  Su 
     1  2  3  4
  5  6  7  8  91011



Aro E., 2018: Stability of the femoral stem in cementless total hip arthroplasty and PET/CT imaging of adverse reaction to metal debris. Annales Universitatis Turkuensis D - tom http://urn.fi/URN:ISBN:978-951-29-7405-4

Ramakrisnaiah R.K., 2018: Micron and submicron scale parameters affecting the adhesion of resin composites to dental glass ceramics. Annales Universitatis Turkuensis D - tom  http://urn.fi/URN:ISBN:978-951-29-7314-9



Sarin, J., 2017: Bioactive glass S53P4 and tissue adhesives in the surgical treatment of chronic middle ear and mastoidal infections. Annales Universitatis Turkuensis D - tom 1307  http://urn.fi/URN:ISBN:978-951-29-6962-3


Bijelic-Donova, J., 2016: Discontinuous fiber-reinforced composite for dental applications. Studies of the fracture resistance and the mechanical properties of the material used for extensive direct restorations. Annales Universitatis Turkuensis D.  http://www.doria.fi/handle/10024/127240

Seseogullari-Dirihan, R., 2016: Effect of collagen crosslinkers on dentin protease activity. Annales Universitatis Turkuensis D. http://www.doria.fi/handle/10024/125587

Alm. JJ., 2016: Bone quality and mesenchymal stromal cell capacity in total hip replacement. Significance for stem osseointegration measured by radiostereometric analysis. Annales Universitatis Turkuensis D.  http://www.doria.fi/handle/10024/125122


Piitulainen, J., 2015: Reconstrucion of cranial bone defects with fiber-reinforced composite-bioactive glass implants. Annales Universitatis Turkuensis D. http://www.doria.fi/handle/10024/5800/browse?type=dateaccessioned
Sulaiman, T.A.., 2015: Monolithic zirconium dioxide as a full contour restorative material with special emphasis on the optical and mechnaical properties. Annales Universitatis Turkuensis D. http://www.doria.fi/handle/10024/5800/browse?type=dateaccessioned
Perea Mosquera,  L., 2015: Fiber-reinforced composite fixed dental prostheses. Studies of the materials used as pontics. Annales Universitatis Turkuensis D. http://www.doria.fi/handle/10024/5800/browse?type=dateaccessioned
Kullkova, Y., 2015: Experimental Studies on Composite Bone Implants with a Special Reference to Staphylococcal Biofilm Infections. Annales Universitatis Turkuensis D. http://www.doria.fi/handle/10024/103459


Kantola, R., 2014: Use of fiber-reinforced composite framework and thermochromic pigment in facial prosthesis. Annales Universitatis Turkuensis D. http://www.doria.fi/handle/10024/6878


Abdulmajeed, A., 2013: Unidirectional fiber-reinforced composites as an oral implant abutment material: Experimental studies of E-glass fiber/BisGMA-TEGDMA polymer in vitro. Annales Universitatis Turkuensis D. http://www.doria.fi/handle/10024/5800      http://www.doria.fi/URN:ISBN:978-951-29-5608-1

Nganga, S., 2013: Development of porous glass-fiber reinforced composite for bone implants. Evaluation of antimicrobial effect and implant fixation. Annales Universitatis Turkuensis D 1087. http://www.doria.fi/handle/10024/5800


Frantzén, J., 2012: Bioactive glass in lumbar spondylodesis: a pre-clinical and clinical study. Annales Universitatis Turkuensis D 1029. E-pub of the thesis.

Hautamäki, M., 2012: Repair of segmental bone defects with fiber-reinforced composite: a study of material development and an animal model in rabbits. Annales Universitatis Turkuensis D 1046. E-pub of the thesis.

Fagerlund, S., 2012: Understanding the in vitro dissolution rate of glasses with respect to future clinical applications. Åbo Academy University. E-pub of the thesis.


Heikkinen, T., 2011: Bonding of composite resin to alumina and zirconia ceramics with special emphasis on surface conditioning and use of coupling agents. Annales Universitatis Turkuensis D 965. E-pub of the thesis.

Madanat, R., 2011: The Use of Radiostereometric Analysis in Fractures of the Distal Radius: From Phantom Models to Clinical Application. Annales Universitatis Turkuensis D 945. E-pub of the thesis.

Wilson, T., 2011: Effects of Silica Based Biomaterials on Bone Marrow Derived Cells - Material Aspects of Bone Regeneration. Annales Universitatis Turkuensis D 956. E-pub of the thesis.

Rekola, J., 2011: Wood as a model material for medical biomaterials - In vivo and in vitro studies with bone and Betula pubescens Ehrh. Annales Universitatis Turkuensis D 990. E-pub of the thesis.


Hjerppe, J., 2010: The influence of certain processing factors on the durability of yttrium stabilized zirconia used as dental biomaterial. Annales Universitatis Turkuensis D 919, 74, [29]p. E-pub of the thesis.

Vuorinen, A.-M., 2010: Rigid rod polymer fillers in acrylic denture and dental adhesive resin systems. Annales Universitatis Turkuensis D 911, 76, [32]p. E-pub of the thesis.


Mattila, R., 2009: Non-resorbable glass fibre-reinforced composite with porous surface as bone substitute material: Experimental studies in vitro and in vivo focused on bone-implant interface. Annales Universitatis Turkuensis D 874, 62, [28]p. E-pub of the thesis.

Ääritalo, V., 2009: Silicon Releasing Sol-Gel TiO2-SiO2 Thin Films for Implant Coatings. Abo Akademi University.


Arstila, H., 2008: Crystallization characteristics of bioactive glasses. Abo Akademi University.

Ballo, A., 2008: Fiber-reinforced composite as oral implant material. Experimental studies of glass fiber and bioactive glass in vitro and in vivo. Annales Universitatis Turkuensis D 810, 68, [48]p.

Dhang, D., 2008: In vitro characterization of bioactive glass. Abo Akademi University.

Meretoja, V., 2008: Macroporous Scaffolds for Bone Engineering. Studies on Cell Culture and Ectopic Bone Formation. Annales Universitatis Turkuensis D 802, 63, [48]p.

Ranne, T., 2008: Thermoplastic Bioactive Composite - with Special Reference to Dissolution Behaviour and Tissue Response. Annales Universitatis Turkuensis D 822, 64, [46]p.

Rosenholm, J., 2008: Modular design of mesoporous silica materials : towards multifunctional drug delivery systems. Abo Akademi University.

Vedel, E., 2008: Predicting the properties of bioactive glasses. Abo Akademi University.


Tuusa, S., 2007: Development of craniofacial bone defect reconstruction implant based on fibre-reinforced composite with photopolymerisable resin systems. Experimental studies in vitro and in vivo. Annales Universitatis Turkuensis D 771, 80, [44]p.

Le Bell-Rönnlöf, A.-M., 2007: Fibre-reinforced composites as root canal posts. Annales Universitatis Turkuensis D 780, 90, [40]p.


Areva, S., 2006: Sol-Gel derived titania based ceramic thin films for implant coatings. Abo Akademi University. 43 p.

Tezvergil-Mutluay, A., 2006: Dental fibre-reinforced composite resin in direct chair-side applications: studies on thermal expansion and bonding characteristics in relation to the fibre orientation. Annales Universitatis Turkuensis D 734, 68, [46]p.

Garoushi, S., 2006: Bilayered dental composite resin. Load bearing capacity of combinations of fibre-reinforced and particulate-filler composite. Annales Universitatis Turkuensis D 721, 49, [47]p.


Dyer, S., 2005: Fiber-reinforced composite fixed partial denture design: mechanical properties of the composite and load bearing capacity. Annales Universitatis Turkuensis D 651, 67, [43 ]p.

Moritz, N., 2005: Bioactive ceramic coatings on medical implants: with special reference to CO2-laser treatment. Annales Universitatis Turkuensis D 679,71, [43 ]p.

Viitala, R., 2005: Characterisation of films, monoliths and microparticles prepared with sol-gel method and studies on in vitro bioactivity and controlled drug release. Abo Akademi university. 68 p.

Viljanen, E., 2005: Photopolymerized dendritic copolymers. With emphasis on degree of conversion and residual monomer content in dental applications. Annales Universitatis Turkuensis D 684, 68, [ 42]p.

Väkiparta, M., 2005: Partially biodegradable fibre-reinforced composite. In vitro studies on material combinations for bone substitute applications. Annales Universitatis Turkuensis D 688, 68, [34 ]p.

Välimäki, V-V., 2005: Tissue engineering of bone: enhancement of new bone formation by bioactive glass microspheres combined with adenovirus-mediated BMP-2 gene transfer and bisphosphonate therapy. Annales Universitatis Turkuensis D 671, 81, [52] p.

Yli-Urpo, H., 2005: Glass polyalkenoate cements containing bioactive glass with special reference to mechanical, chemical and antimicrobial properties. Annales Universitatis Turkuensis D 653, 56, [46 ]p.


Matinlinna, J., 2004: Silane chemistry aspects in some conventional and novel dental biomaterials. Annales Universitatis Turkuensis D 620, 88, [51] p.

Narva, K., 2004: Fibre-reinforced denture base polymer. Clinical performance and mechanical properties. Annales Universitatis Turkuensis D 630, 62, [36] p.

Puska, M., 2004: Acrylic bone cement. A study on the modification of polymethylmethacrylate-based bone cement by porogen fillers, reinforced glass fibres and semi-interpenetrating network structure. Annales Universitatis Turkuensis D 640, 86, [63] p.


Heikkinen, V., 2003: Studies on polymer matrices of dental fibre-reinforced composites. Release of residual methyl methacrylate, water sorption and solubility. Annales Universitatis Turkuensis D 573, 45 [28] p.

Tanner, J., 2003: Adhesion of oral microbes to dental reinforced composites. With emphasis on Streptococcus mutans and Candidi albicans. Annales Universitatis Turkuensis D 568, 61, [36] p.