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Screw-shaped Titanium Implants (screw-shaped + titanium_implant)

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Medical Sciences	100%

Selected Abstracts

Influence of preimplant surgical intervention and implant placement on bone wound healing

CLINICAL ORAL IMPLANTS RESEARCH, Issue 5 2003
Christer Slotte
Abstract: The aims of the present investigation were to study (1) the influence of preimplant (4 weeks) surgical intervention and (2) the influence of the implant placement per se on bone density and mineralized bone,implant contact (BIC) at implant sites in the rabbit jawbone. The experiment was performed in the edentulous area of the maxillas of 16 adult rabbits. In eight rabbits, the alveolar bone on the left side (test) was surgically exposed and a groove was prepared in the bone crest. Trabecular bone and marrow tissue were removed, and a bioabsorbable barrier membrane was placed to cover the groove. The right side underwent no treatment and served as the control. Four weeks later, a screw-shaped titanium implant was placed transversally through the maxilla, penetrating both the test and the control areas. After another 4 weeks of healing, the animals were killed to obtain ground sections for histomorphometry. Untreated jaws from eight rabbits served as reference specimens. In the rabbits subjected to surgery, the areas (mm2) of both mineralized bone and marrow tissue were similar for test and control (4.9 ± 1.7 vs. 5.1 ± 2.2 and 6.3 ± 5.7 vs. 6.8 ± 5.7 for bone and marrow, respectively). The BIC (%) for all threads was significantly lower on the test side than on the control side (32.1 ± 27.7 vs. 47.7 ± 20.3). The bone density (%) of the total experimental area was similar for test and control (48.5 ± 12.1 vs. 46.5 ± 9.3), as was the bone density in the area within the implant thread valleys and their mirror areas (43.0 ± 13.9 vs. 41.3 ± 13.5, and 40.2 ± 11.0 vs. 40.3 ± 7.2 for thread area and mirror area, respectively). The bone density of the total experimental area in the untreated rabbits was 35.9 ± 5.2%. This value was significantly lower than the values in the total experimental areas (test and control) of the surgically treated rabbits. Similarly, the density of the reference area in the untreated rabbits was 25.4 ± 5.3%, which was also significantly lower than the bone density of the periimplant area of the surgically treated rabbits. We conclude that the surgical trauma caused by the placement of implants in the maxilla of rabbits significantly enhanced the bone density of the implant sites. Surgical intervention in the implant sites 4 weeks prior to the implant placements, however, did not further enhance bone density or BIC. Résumé Les buts de cette étude ont été d'étudier 1) l'influence d'une intervention chirurgicale préimplantaire (4 semaines) et 2) l'influence du placement de l'implant per se sur la densité osseuse et le contact implant-os minéralisé (BIC). Cette expérience a été effectuée dans la région édentée du maxillaire de seize lapins adultes. Chez huit lapins, l'os alvéolaire du côté gauche (test) était chirurgicalement exposé et une marque a été faite dans la crête osseuse. L'os trabéculaire et le tissu spongieux ont été enlevés et une membrane biorésorbable a été placée pour couvrir ce trou. Le côté droit ne subissait aucun traitement et a servi de contrôle. Quatre semaines après, un implant en titane vis a été placé transversalement à travers le maxillaire pénétrant tant la zone test que contrôle. Après quatre semaines de guérison les animaux ont été tués pour obtenir des coupes pour l'histomorphométrie. Les mâchoires non-traitées de huit lapins ont servi de spécimens de référence. Chez les lapins soumis à la chirugie les zones d'os minéralisé et de tissu spongieux étaient semblables pour le test et le contrôle (respectivement 4,9±1,7 mm2 vs 5,1±2,2 mm2 et 6,3±5,7 mm2 vs 6,8±5,7mm2). Les BIC pour tous les filetages étaient significativement moins importants au niveau des tests que des contrôles (32,1±27,7% vs 47,7±20,3%). La densité osseuse du total de l'aire expérimentale était semblable pour les tests et les contrôles (48,5±12,1%vs 46,3±9,3%) comme l'était la densité osseuse dans la zone à l'intérieur du filetage de l'implant et de leurs aires mineures (43,0±13,9%vs 41,3±13,5% pour les filetages et 40,2±11,0% vs40,3±7,2% pour les aires mineures). La densité osseuse de l'aire expérimentale totale chez les lapins nont-traités était de 35,9 ±5,2%. Cette valeur était significativement inférieure à celles dans les aires expérimentales totales (tests et contrôles) des lapins traités chirurgicalement. Parallèlement, la densité de l'aire de référence des lapins non-traités était de 25,4±5,3% c.-à-d. inférieure à la densité osseuse de la zone paroïmplantaire des lapins traités chirurgicalement. Le trauma chirurgical causé par le placement d'implants dans le maxillaire de lapins augmente significativement la densité osseuse au niveau des sites implantaires. L'intervention chirurgicale des sites à implanter quatre semaines avant le placement des implants n'avait cependant augmenté ni la densité osseuse ni le BIC. Zussammenfassung Der Einfluss eines praeimplantären chirurgischen Eingriffes und der Implantation per se auf die Heilung der Knochenwunde. Eine Studie am Kieferknochen des Kaninchens. Ziel: Das Ziel dieser Studie war es 1) den Einfluss eines praeimplantären chirurgischen Eingriffes (4 Wochen vorher) und 2) den Einfluss der Implantation per se auf die Knochendichte und den mineralisierten Knochen-Implantatkontakt (BIC) an einer Implantationsstelle im Kieferknochen des Kaninchens zu untersuchen. Material und Methode: Die Testregion war der zahnlose Oberkieferabschnitt von 16 ausgewachsenen Kaninchen. Bei 8 Kaninchen wurde der Alveolarknochen der linken Seite (Test) chirurgisch freigelegt und eine Vertiefungen in den Knochenkortex präpariert. Dann entfernte man den trabekulären Knochen und das Knochenmark und deckte die Vertiefung mit einer bioresorbierbaren Membran ab. Die rechte Seite wurde unbehandelt belassen und diente als Kontrolle. Vier Wochen später implantierte man ein schraubenförmiges Titanimplantat transversal durch die Maxilla, so dass es Test- oder Kontrollregion durchdrang. Nach einer Heilphase von weiteren vier Wochen wurden die Tiere geopfert und von der zu untersuchenden Region Grundschnitte für die Histologie hergestellt. Als Referenz dienten unbehandelte (jungfräuliche) Kiefer von weiteren 8 Kaninchen. Resultate: Bei den Kaninchen, welche die oben beschriebenen chirurgischen Schritte durchlaufen haben, waren sowohl bei der Test- wie auch bei der Kontrollgruppe die Fläche von mineralisiertem Knochen und Knochenmark (in mm2) ähnlich gross (4.9+1.7 gegenüber 5.1+2.2 beim Knochen und 6.3+5.7 gegenüber 6.8+5.7 beim Knochenmark). Der BIC (%) war in allen Schraubenwindungen auf der Testseite signifikant tiefer als auf der Kontrollseite (32.1+27.7 gegenüber 47.7+20.3). Die Knochendichte (%) war in der untersuchten Region bei der Test- und Kontrollseite etwa gleich gross (48.5+12.1 gegenüber 46.5+9.3) wie die Knochendichte in den Vertiefungen der Schraubenwindungen und ihrer spiegelbildlichen Regionen (43.0+13.9 gegenüber 41.3+13.5 in den Schraubenwindungen und 40.2+11.0 gegenüber 40.3+7.2 in den spiegelbildlichen Regionen). Die Knochendichte in der gesamten Region der unbehandelten (jungfräulichen) Kaninchen betrug 35.9+5.2%. Dieser Wert war signifikant tiefer als die Werte der gesamten untersuchten Region der chirurgisch behandelten Kaninchen (Test- und Kontrollseite). Ganz ähnlich war die Dichte in der Referenzregion der unbehandelten Kaninchen 25.4+5.3%, ein Wert der auch signifikant tiefer war als die Knochendichte in der periimplantären Region von chirurgisch behandelten Kaninchen. Zusammenfassung: Das chirurgische Trauma, das beim Setzen eines Implantates im Oberkiefer von Kaninchen entsteht, begünstigt die Knochendichte an den Stellen der Implantate signifikant. Der chirurgischen Eingriff vier Wochen vor der Implantation jedoch, förderte an den zur Implantation vorgesehenen Stellen weder Knochendichte noch BIC. Resumen Objetivos: La intención de la presente investigación fue estudiar 1) la influencia de la intervención quirúrgica (4 semanas) periimplantaria y 2) la influencia de la colocación de implantes per se en la densidad ósea y el contacto del hueso mineralizado al implante (BIC) en los lugares de implante en el hueso mandibular del conejo. Material y métodos: El experimento se realizó en el área edéntula del maxilar de 16 conejos adultos. Se expuso quirúrgicamente el hueso alveolar en el lado izquierdo (test) de 8 conejos y se preparó un hueco en la cresta ósea. Se retiró el hueso trabecular y el tejido de médula ósea, colocándose una membrana de barrera biorreabsorbible para cubrir el hueco. El lado derecho no sufrió ningún tratamiento y sirvió de control. Cuatro semanas mas tarde, se colocó un implante de forma roscada transversalmente a través del maxilar, penetrando las áreas de prueba y de control. Tras otras 4 semanas de cicatrización, los animales se sacrificaron para obtener cortes histológicos para histomorfometría. Las mandíbulas sin tratar de los 8 conejos sirvieron como especímenes de referencia. Resultados: En los conejos sometidos a cirugía las áreas (mm2) del hueso mineralizado y del tejido medular fueron similares para la prueba y el control (4.9 ± 1.7 vs. 5.1 ± 2.2 y 6.3 ± 5.7 vs. 6.8 ± 5.7, hueso y médula respectivamente). El BIC (%) para todas las roscas fue significativamente mas bajo en el lado de prueba que en el de control (32.1 ± 27.7 vs. 47.7 ± 20.3). La densidad de ósea (%) de toda el área experimental fue similar para la prueba y el control (48.5 ± 12.1 vs. 46.5 ± 9.3) así como la densidad ósea en el área en los valles entre las roscas y en su área espejo (43.0 ± 13.9 vs. 41.3 ± 13.5, y 40.2 ± 11.0 vs. 40.3 ± 7.2, área de roscas y área espejo respectivamente). La densidad ósea en el área total experimental en los conejos no tratados (vírgenes) fue del 35.9 ± 5.2%. Este valor fue significativamente mas bajo que los valores en el total de las áreas experimentales (test y control) de los conejos tratados quirúrgicamente. Del mismo modo, la densidad del área de referencia de los conejos no tratados fue de 25.4 ± 5.3%, que también fue significativamente mas baja que la densidad ósea del área periimplantaria de los conejos tratados quirúrgicamente. Conclusión: El trauma quirúrgico causado por la colocación de implantes en el maxilar de conejos estimuló significativamente la densidad ósea de los lugares de implantes. Sin embargo, la intervención quirúrgica de los lugares de implantes 4 semanas antes de la colocación de los implantes no estimuló mas la densidad ósea o el BIC. [source]

Effects of a Mechanical Barrier on the Integration of Cortical Onlay Bone Grafts Placed Simultaneously with Endosseous Implant

CLINICAL IMPLANT DENTISTRY AND RELATED RESEARCH, Issue 2 2002
Luiz Z. Salata DDS
ABSTRACT Background: Previous experimental studies on onlay bone graft integration have shown either advantages or disadvantages to the use of mechanical barriers. This indicates that the role played by the biologic properties of transplanted bone and membrane in graft revascularization and bone remodeling has not yet been established. The outcomes regarding osseointegration of titanium dental implants applied in such a condition are still contradictory. Purpose: The rabbit's radius model that is grafted onto the mandibular lower border and covered by membrane can reproduce a challenging experimental situation to preliminarily study the factors involved in osseointegration under deprived blood vessels source. Materials and Methods: Fourteen New Zealand White rabbits had a 2.5-cm segment of the right radius osteoectomized and fixed onto the right mandibular lower border using titanium screws. Two screw-shaped titanium implants (2.5 mm wide 2.5 mm long) were installed 7 mm apart in the mid length of the grafted bone. In experimental sites, the graft with the implants and graft-host bone junction were covered by expanded polytetrafluoroethylene (e-PTFE) membrane; control sites were left uncovered. Eight animals from the experimental group and six animals from the control group were sacrificed at 6 and 24 weeks after surgery. Ground sections obtained from en bloc tissues containing graft, implants, and recipient bone were subjected to histologic evaluation and histomorphometric analysis (area occupied by the graft and bone-to-implant contact). Results: The graft showed significantly more resorption after 24 weeks than at 6 weeks (p .05) irrespective of the treatment (with or without membrane), although the amount of new bone was greater at 24 weeks in sites where a membrane was covering the graft. Compared with 6 weeks postoperatively, the bone-to-implant contact was considerably improved at 24 weeks (p .05), and the membrane seemed beneficial for implant osseointegration when compared with unprotected sites (p .05). As a result of graft resorption, the amount of soft tissue was considerably expanded in sites beneath membrane, accompanied by a sustained process of trabecular bone deposition close to the barrier. Conclusions: Cortical onlay grafts covered by membrane demonstrated delayed remodeling, probably as a consequence of a hindered process of graft revascularization. Grafts covered by membrane might rely on previous host bone resorption both to become revascularized and to remodel. The findings that the membrane-protected grafts were most resorbed at 24 weeks might be attributable to better implant osseointegration, because the fixtures were exposed to greater mechanical stimulation in these sites. [source]

Resonance frequency measurements in vivo and related surface properties of magnesium-incorporated, micropatterned and magnesium-incorporated TiUnite®, Osseotite®, SLA® and TiOblast® implants

CLINICAL ORAL IMPLANTS RESEARCH, Issue 10 2009
Young-Taeg Sul
Abstract Objective: To investigate implant stability using resonance frequency measurements of topographically changed and/or surface chemistry-modified implants in rabbit bone. Material and methods: Six groups of microstructured, screw-shaped titanium implants: two oxidized, cation-incorporated experimental implants [Mg implants and MgMp implants with micropatterned thread flanges (80,150 ,m wide and 60,70 ,m deep)] and four commercially available clinical implants (TiUnite®, Osseotite®, SLA®, and TiOblast®) were installed in 10 rabbit tibia for 6 weeks. The surface properties of the implants were characterized in detail using several analytical techniques. Implant stability was measured using a resonance frequency analyzer (OsstellÔ). Results: Surface characterization of the implants revealed microstructured, moderately rough implant surfaces varying 0.7,1.4 ,m in Sa (mean height deviation), but with clear differences in surface chemistry. After 6 weeks, all implants showed statistically significantly higher increases in implant stability. When compared with one another, MgMp implants showed the most significant mean implant stability quotient (ISQ) value relative to the others (P,0.016). In terms of increment (,ISQ) in implant stability, MgMp implants showed a significantly greater value as compared with Osseotite® (P,0.005), TiOblast® (P,0.005), TiUnite® (P,0.005), SLA® (P,0.007), and Mg implants (P,0.012). In addition, transducer direction dependence of resonance frequency analysis (RFA) measurements was observed such that the differences in the mean ISQ values between longitudinal and perpendicular measurements were significant at implant placement (P,0.004) and after 6 weeks (P,0). Conclusion: The present study found that implant surface properties influence RFA measurements of implant stability. Surface chemistry-modified titanium implants showed higher mean ISQ values than did topographically changed implants. In particular, cation (magnesium)-incorporated micropatterns in MgMp implants may play a primary role in ,ISQ. [source]

In vivo evaluation of the trabecular bone behavior to porous electrostatic spray deposition-derived calcium phosphate coatings

CLINICAL ORAL IMPLANTS RESEARCH, Issue 3 2007
Marijke C. Siebers
Abstract Objectives: Electrostatic spray deposition (ESD) is a new technique to deposit calcium phosphate (CaP) coatings. The aim of the present study was to evaluate the bone behavior of ESD CaP-coated implants with various degrees of crystallinities in the trabecular bone of the femoral condyle of goats. Material and methods: Using the ESD technique, thin porous CaP coatings were deposited on tapered, conical, screw-shaped titanium implants. Three different heat-treatments were applied, resulting in amorphous CaP (400°C, ESD1), crystalline carbonate apatite (500°C, ESD2), and crystalline carbonated hydroxyapatite (700°C, ESD3). Implants were inserted into the trabecular bone of the femoral condyles of goats for 12 weeks, and titanium (Ti) implants served as controls. Results: The results showed that ESD-derived coatings are osteocompatible. Histomorphometrical analysis showed that the application of a CaP coating resulted in more bone contact along the press-fit area of the implant compared with the Ti implants. Moreover, the percentage bone contact of the ESD3-coated implants was increased, compared with the Ti control group. Regarding the other coatings, no differences were found compared with the control group. Conclusion: Crystalline carbonated hydroxyapatite ESD-coated implants positively influenced the biological performance compared with Ti control implants. [source]