Methods for evaluation of early bone healing at titanium implants
Sammanfattning
Titanium has for a long time been the implant material of choice when in need for abilities as
strength, biocompatibility and stability. Although numbers of studies have been made, little is
known about the early events in implant healing.
The primary aim in this thesis was to develop methods for evaluating bone healing around
implants. We used common histological methods but also time-of-flight secondary mass
spectrometry (TOF-SIMS) to evaluate the implant healing. This method has previously been
used for inorganic materials but can, thanks to new ion sources, be efficiently utilized for
analysis of biological compounds. With the Bi3+ cluster ion source used, it is possible to detect
high mass fragments of hydroxyapatite (HA) which was applied in the last paper. HA within
an area of 40μm from the implant was measured and a correlation between histology and
TOF-SIMS was found. We think that TOF-SIMS as a method may be suitable for studying
high mass HA fragments. The interface zone was another area we wanted to elucidate using
TOF-SIMS technique.
Bone formation and resorption and the relationship between those two during the first weeks
have been of interest in this thesis. Our hypothesis is that understanding of the bone resorption
phase could be a crucial step in influencing the bone healing around implants. After 7 days
bone was in close contact with the implant but from this day and evident after 14 days
resorption was seen. The initially formed bone was then resorbed and replaced by mature
lamellar bone. Our findings indicate that healing around implants starts primarily in the periphery growing toward the implant. Early callus formation and resorption are crucial steps
in these early phases and possibly the net bone production is influenced by these factors.
Findings in the fourth paper indicate that magnesium coatings decrease resorption and
increase net bone production.
Porosity together with Magnesium coating seems to positively influence bone growth. We
detected formation of adhering bone around all the implants after 7 days through measuring
HA. After 4 days there was a zone at the interface without mineralization despite light
microscopy (LM) detected bone formation. This has not been reported before. Decalcification
and sectioning were used in one paper which gave an opportunity to study the relation
between bone and the titanium implant in thin sections giving a good LM resolution. The
most porous surface only had the third highest HA coating which indicated that other factors
influences implant healing except porosity. TOF-SIMS was used pre implantation to
characterize the surfaces. It was then possible to see that during the oxidation process
different compounds, like sulphur, phosphor and fluoride, are built into the oxide.
Delarbeten
I. C. Eriksson, H. Nygren and K. Ohlson. Implantation of hydrophilic and hydrophobic titanium discs in rat tibia: cellular reactions on the surfaces during the first 3 weeks in bone. Biomaterials 25(2004) 4759-4766 ::pmid::15120522 II. C. Eriksson, K. Börner, H. Nygren, K. Ohlson, U. Bexell, N. Billerdahl, M. Johansson. Studies by imaging TOF-SIMS of bone mineralization on porous titanium implants after 1 week in bone. Applied Surface Sciences 252(2006) 6757-6760 ::doi::10.1016/j.apsusc.2006.02.194 III. C. Eriksson, K. Ohlson, K. Richter, N. Billerdahl, M. Johansson, H. Nygren. Callus formation and remodelling at titanium implants. Journal of Biomedical Materials Research Part A, 2007 Dec 15;83(4):1062-9. ::doi::10.1002/jbm.a.31433 IV: H. Nygren, C Eriksson, K. Hederstierna, P. Malmberg. TOF-SIMS analysis of the interface between bone and titanium implants - effect of porosity and magnesium coating. Applied Surface Sciences, in press ::doi::10.1016/j.apsusc.2008.05.143
Examinationsnivå
Doctor of Philosophy (Medicine)
Universitet
University of Gothenburg. Sahlgrenska Academy
Institution
Institute of Biomedicine. Department of Medical Biochemistry and Cell Biology
Disputation
Torsdagen den 9 oktober 2008, kl. 9.00, i hörsal Arvid Carlsson, Academicum, Medicinargatan 3, Göteborg
Datum för disputation
2008-10-09
E-post
karin.hederstierna@vgregion.se
Datum
2008-10-03Författare
Hederstierna, Karin
Nyckelord
TOF-SIMS
titanium
porosity
Magnesium
hydroxyapatite
implant surface
bone resorption
bone formation
Publikationstyp
Doctoral thesis
ISBN
978-91-628-7376-9
Språk
eng