Eficácia do uso de plasma em pressão atmosférica na adesão de cerâmicas zircônia / Efficacy of the use of plasma at atmospheric pressure in zirconia adhesion

Um dos maiores desafios atuais da ciência dos materiais dentários é a obtenção de união efetiva e durável às cerâmicas de alto conteúdo cristalino. O objetivo do presente estudo foi avaliar a resistência de união, energia de superfície e tipos de fratura de dois sistemas cerâmicos após diferentes formas de tratamento de superfície associada à aplicação do plasma em pressão atmosférica. Para o estudo foram obtidas quarenta placas de zircônia (12 mm x 5 mm x 1,5 mm) de dois tipos de cerâmicas zircônia (E.max ZirCad e Calypso), polidas e limpas por ultrassom durante 5 minutos. Divididas aleatoriamente em 2 grupos de acordo com o sistema cerâmico e 4 subgrupos (n=5) de acordo com o tratamento de superfície, (I) controle (primer), (II) jateamento com partículas micrométricas de alumina (Al2O3) + primer, (III) jateamento com partículas micrométricas de alumina (Al2O3) + plasma + primer, (IV) plasma + primer. Foram confeccionados cento e vinte cilindros de resina composta (Z100), utilizando matrizes cilíndricas (1,0 mm x 3,0 mm) cimentadas com cimento resinoso, Multilink N, sobre as placas de zircônia. Os espécimes foram armazenados em água destilada durante 24 horas a 37° C, depois testados para microcisalhamento em máquina de teste Shimadzu EZ a 1,0 mm/min. Os dados obtidos foram submetidos à análise estatística para comparação entre os grupos E.max e Calypso em relação à resistência à união (força/área ­ MPa), ângulo de contato e os tipos de fratura. Os dados foram analisados pelos testes ANOVA One-Way e Kruskal-Wallis para resistência de união (p=0,003) e (p=0,005) e ângulo de contato (p<0,001) e (p<0,001). Não houve diferença significativa para os dados de fratura (p=0,145), pelo teste quiquadrado, com predomínio de fraturas mistas. Os valores de resistência de união das cerâmicas Y-TZP apresentaram maiores valores quando o plasma foi associado ao jateamento com óxido de alumínio e/ou primer e a aplicação somente do plasma não superou os valores alcançados pelas outras formas de tratamento da superfície. Essa associação resultou em menores valores dos ângulos de contato. Houve maior frequência de fraturas mistas quando realizado somente o tratamento com óxido de alumínio e quando em associação com o plasma.(AU)

One of the major challenges today in the science of dental materials is the achievement of effective and durable bonding to ceramics with high crystalline content. The objective of the present study was to evaluate the efficacy of plasma at atmospheric pressure in the adhesion of ceramic zirconia through the bond strength, surface energy and type of fracture of two ceramic systems after different forms of surface treatment associated with the application of plasma at atmospheric pressure. For the study forty zirconia plates (12 mm x 5 mm x 1.5 mm) were obtained from two zirconia ceramics (E.max ZirCad and Calypso), polished and cleaned by ultrasound for 5 minutes. Randomly divided into 2 groups according to the ceramic system and 4 subgroups (n = 5) according to the surface treatment, control (primer), primer + blasting with micrometric alumina (Al2O3) particles, primer + blasting with micrometric particles of alumina (Al2O3) + plasma, primer + plasma. One hundred and twenty cylinders of composite resin (Z-100) were made using cylindrical matrices (1.0 mm x 3.0 mm) cemented on the zirconia plates. The specimens were stored in distilled water for 24 hours at 37°C, then tested for microshear on a Shimadzu EZ test machine at 0.5 mm / min. The obtained data were submitted to statistical analysis for comparison between the E.max and Calypso groups in relation to the bond strength (strength / area - Mpa), contact angle and fracture types. The data were analyzed by ANOVA One-Way and Kruskal-Wallis tests for bond strength (p=0.003) and (p=0.005) and contact angle (p<0.001) and (p<0.001). There was no significant difference for the fracture data (p = 0.145), by the chi-square test, with a predominance of mixed fractures. The bond strength values of the Y-TZP ceramics showed higher values when the plasma was associated with blasting with aluminum oxide and / or primer and the application of only the plasma did not exceed the values reached by the other forms of surface treatment. This association resulted in lower values of contact angles. It is a higher frequency of mixed fractures when only aluminum oxide treatment is performed and when it is associated with plasma.(AU)

Detection of Lead Ions in Water Based on Surface Energy Transfer between Gold Nanoparticles and Fluorescenct Dyes / 分析化学

We established a sensitive method for the detection of lead ions in aqueous solution based on the surface energy transfer between gold nanoparticles and fluorescent dyes. The fluorescein-modified thrombin aptamer (5′-FAM-GGT TGG TGT GGT TGG-3′) can be selectively transformed to G-quadruplex induced by lead ions. The conformation changes of the aptamer can alter the distance between the energy donor of fluorescent dyes and the energy receptor of gold nanoparticles, and further enhance the fluorescence intensity. The fluorescence recovery efficiency ( F/F0 ) is proportional to the concentration of lead ions in the range of 12. 5-100 nmol/L following the linear regression equation of y=0. 910﹢0. 007c(R2=0. 997)and the limit of determination is about 10 nmol/L. The proposed method has been applied to the determination of lead ions in tap water with satisfied results.

04-12 Introduction to “TVS mud index” as an evaluation marker of silt-clayey matrices for bioadhesive thermal and cosmetic applications / 日本温泉気候物理医学会雑誌

Introduction: Brenta’s silt-clay consist of silt with clay containing Italian Dolomites minerals extracted from the catchment area of Brenta river. Sediments were investigated by SEM, XRD, XRF and particle size granulometer. The presence of SiO2 (34.16%), CaO (17.12%), and Al2O3 (11.15%) as principal elements is comparable with the typical composition of Euganean Thermal Muds (ETM) of Euganean Thermal Area (ETA) which average level of SiO2, CaO, and Al2O3 are respectively 38.75%, 17.74%, and 7.70%1). Tensiometric investigation of Brenta’s silt-clay were performed hypothesizing its employ in mudtherapy. Objectives: Surface energy of natural ETM and its maturation process were monitored by TVS mud index, a tensiometric marker for the determination of the quality of a thermal mud2). The aim of this work was to determine the quality of Brenta’s silt-clay by tensiometric approach introducing it in the field of thermalism. Materials and Methods: Brenta’s silt-clayey (ie Brenta Ker) samples were collected from EGAP’s gravel pit, undergone at maturation process for 6 weeks employing thermal water, investigated using DSA10-Kruss tensiometer with diiodomethane, PFPE, glycerine as liquid tests.   Tensiometric characterizations were performed by measurement of contact angles (deg) of different liquid tests and their conversion in surface energy (mN/m) by Owens mathematical model 3). TVS mud index levels were determined trough the measurements of contact angles of PFPE 4) by Perfluoropolyether Contact Angle Measurement Method (PCAM) for maturation process (mN/m eq./weeks) and speed (m*Nm-1/h) evaluations. Results: The correlation degree between ETM XRF elements data (ppm) and those of Brenta’s silt-clay (ppm) was satisfactory (R2=0.82) confirming the common origin of two kind of matrices. Considering 6 weeks of maturation, surface energy profile of Brenta’s silt-clay, expressed as dispersed component (DC) and polar component (PC), showed respectively 17.84 mN/m and 32.04 mN/m with coefficients of variations (CV%) around 22.43% and 14.29%. TVS mud index levels monitored during maturation process showed a clear decrease in the time (t0=84.02.5 mN/m eq, t1=71.01.9 mN/m eq., t2=79.80.7 mN/m eq., t3=72.63.1 mN/m eq., t4=61.22.6 mN/m eq., t5=65.12.1 mN/m eq., t6=58.81.6 mN/m eq.) underlined by the decrease of maturation speed monitored for 60 days and expressed as DC per hour (t48=0.08 m*Nm-1/h, t120=0.03 m*Nm-1/h, t144=0.04 m*Nm-1/h, t384= 0.02 m*Nm-1/h, t1416=0.005 m*Nm-1/h). Conclusions: Tensiometric investigations by TVS modelling and maturation speed evaluations confirmed the suitability of Brenta’s silt-clay to be employed in thermal field opening new perspectives in mudtherapy.

04-10 Quality assessment of maturation process of Japanese Biofango by TVS mud index / 日本温泉気候物理医学会雑誌

Introduction: TVS mud index1) is a tensiometric marker for quality and maturation process control of Italian Euganean Thermal Muds (ETM) which sensitivity defined on objective basis their quality and maturation degree. Objectives: The goal was to assess the maturation process of Biofango by TVS mud index (Sanraku-en spas centre, Japan and Osservatorio Termale Permanente-OTP, Italy), and its organic compounds by TOC analyses (University of Padova, Italy). Materials and Methods: Biofango was prepared using KomatsuClay, MotoyamaClay, WakuraDiatomite and KasaokaBentonite giving K02 (Bentonite 1.25, Kaolinite 1.5, Diatomite 0.25) and A01 (KasaokaBentonite 1.25, Kaolinite 0.5, Diatomite 0.25). Final Biofango BFM+0%Dolomite, MAT1+10%Dolomite, MAT2+18%Dolomite, and MAT3+35%Dolomite were analyzed by TOC (Perkin-Elmer-2400) and DSA10-Krüss employing (a) PFPE, Fomblin HC/OH-1000, diiodomethane, glycerine as liquid tests and (b) Owens-Wendt mathematical model for conversion of contact angles in surface energy parameters2). Results: The behaviour of C(%) in MAT1, MAT2, and MAT3 during maturation process (20°C) showed respectively (a) MAT1t0h=1.26%, MAT1t216h=0.91%, MAT1t360=1.08%, MAT1t576h=1.23%, MAT1t720h=0.98%, (b) MAT2t0h=2.36%, MAT2t216h=1.80%, MAT2t360=1.49%, MAT2t576h=1.86%, MAT2t720h=1.68%, (c) MAT3t0h=3.29%, MAT3t216h=2.71%, MAT3t360=2.57%, MAT3t576h=2.6%, MAT3t720h=2.7%. C% decrease demonstrating the influence of Dolomite in Biofango mixtures. Dispersed energy components (DC) of MAT1, MAT2, and MAT3 showed respectively (a) MAT1t0h=3.0mN/m, MAT1t216h=3.1mN/m, MAT1t360=2.9mN/m, MAT1t576h=3.8mN/m, MAT1t720h=2.5mN/m, (b) MAT2t0h=2.1mN/m, MAT2t216h=2.2mN/m, MAT2t360=3.1mN/m, MAT2t576h=3.7mN/m, MAT2t720h=2.6mN/m, (c)MAT3t0h=2.0mN/m, MAT3t216h=2.6mN/m, MAT3t360=2.6mN/m, MAT3t576h=2.9mN/m, MAT2t720h=3.0mN/m. On the other side TVS mud index showed respectively (a) MAT1t0h=68.7mN/m, MAT1t216h=70.26mN/m, MAT1t360=71.78mN/m, MAT1t576h=64.69mN/m, MAT1t720h=71.84mN/m, (b) MAT2t0h=74.06mN/m, MAT2t216h=71.69mN/m, MAT2t360= 70.36mN/m, MAT2t576h=65.83mN/m, MAT2t720h=71.23mN/m, (c) MAT3t0h=75.9mN/m, MAT3t216h=73.05mN/m, MAT3t360=73.34mN/m, MAT3t576h=68.52mN/m, MAT3t720h=68.66mN/m proportionally inverse with DC behaviour. MAT3 with highest content in Dolomite demonstrated great capability to uptake DC during maturation process with consequently decrease of TVS mud index levels accordingly with TOC result. Conclusions: Tensiometric investigations of Biofango underlined the links between chemical and surface energy data. The high sensitivity of TVS mud index consented to follow directly in a non invasive way the structural-surface changes in Biofango mixtures occurred during maturation process opening at new perspective for their control.

04-10Quality assessment of maturation process of Japanese Biofango by TVS mud index / 日本温泉気候物理医学会雑誌

<b>Introduction: </b>TVS mud index¹⁾ is a tensiometric marker for quality and maturation process control of Italian Euganean Thermal Muds (ETM) which sensitivity defined on objective basis their quality and maturation degree. <BR><b>Objectives: </b>The goal was to assess the maturation process of Biofango by TVS mud index (Sanraku-en spas centre, Japan and Osservatorio Termale Permanente-OTP, Italy), and its organic compounds by TOC analyses (University of Padova, Italy).<BR><b>Materials and Methods:</b> Biofango was prepared using KomatsuClay, MotoyamaClay, WakuraDiatomite and KasaokaBentonite giving K02 (Bentonite 1.25, Kaolinite 1.5, Diatomite 0.25) and A01 (KasaokaBentonite 1.25, Kaolinite 0.5, Diatomite 0.25). Final Biofango BFM+0%Dolomite, MAT1+10%Dolomite, MAT2+18%Dolomite, and MAT3+35%Dolomite were analyzed by TOC (Perkin-Elmer-2400) and DSA10-Krüss employing (a) PFPE, Fomblin HC/OH-1000, diiodomethane, glycerine as liquid tests and (b) Owens-Wendt mathematical model for conversion of contact angles in surface energy parameters²⁾.<BR><b>Results:</b> The behaviour of C(%) in MAT1, MAT2, and MAT3 during maturation process (20°C) showed respectively (a) MAT1t0h=1.26%, MAT1t216h=0.91%, MAT1t360=1.08%, MAT1t576h=1.23%, MAT1t720h=0.98%, (b) MAT2t0h=2.36%, MAT2t216h=1.80%, MAT2t360=1.49%, MAT2t576h=1.86%, MAT2t720h=1.68%, (c) MAT3t0h=3.29%, MAT3t216h=2.71%, MAT3t360=2.57%, MAT3t576h=2.6%, MAT3t720h=2.7%. C% decrease demonstrating the influence of Dolomite in Biofango mixtures. Dispersed energy components (DC) of MAT1, MAT2, and MAT3 showed respectively (a) MAT1t0h=3.0mN/m, MAT1t216h=3.1mN/m, MAT1t360=2.9mN/m, MAT1t576h=3.8mN/m, MAT1t720h=2.5mN/m, (b) MAT2t0h=2.1mN/m, MAT2t216h=2.2mN/m, MAT2t360=3.1mN/m, MAT2t576h=3.7mN/m, MAT2t720h=2.6mN/m, (c)MAT3t0h=2.0mN/m, MAT3t216h=2.6mN/m, MAT3t360=2.6mN/m, MAT3t576h=2.9mN/m, MAT2t720h=3.0mN/m. On the other side TVS mud index showed respectively (a) MAT1t0h=68.7mN/m, MAT1t216h=70.26mN/m, MAT1t360=71.78mN/m, MAT1t576h=64.69mN/m, MAT1t720h=71.84mN/m, (b) MAT2t0h=74.06mN/m, MAT2t216h=71.69mN/m, MAT2t360= 70.36mN/m, MAT2t576h=65.83mN/m, MAT2t720h=71.23mN/m, (c) MAT3t0h=75.9mN/m, MAT3t216h=73.05mN/m, MAT3t360=73.34mN/m, MAT3t576h=68.52mN/m, MAT3t720h=68.66mN/m proportionally inverse with DC behaviour. MAT3 with highest content in Dolomite demonstrated great capability to uptake DC during maturation process with consequently decrease of TVS mud index levels accordingly with TOC result.<BR><b>Conclusions: </b>Tensiometric investigations of Biofango underlined the links between chemical and surface energy data. The high sensitivity of TVS mud index consented to follow directly in a non invasive way the structural-surface changes in Biofango mixtures occurred during maturation process opening at new perspective for their control.

04-12Introduction to “TVS mud index” as an evaluation marker of silt-clayey matrices for bioadhesive thermal and cosmetic applications / 日本温泉気候物理医学会雑誌

<b>Introduction: </b>Brenta’s silt-clay consist of silt with clay containing Italian Dolomites minerals extracted from the catchment area of Brenta river. Sediments were investigated by SEM, XRD, XRF and particle size granulometer. The presence of SiO₂ (34.16%), CaO (17.12%), and Al2O3 (11.15%) as principal elements is comparable with the typical composition of Euganean Thermal Muds (ETM) of Euganean Thermal Area (ETA) which average level of SiO₂, CaO, and Al₂O₃ are respectively 38.75%, 17.74%, and 7.70%¹⁾. Tensiometric investigation of Brenta’s silt-clay were performed hypothesizing its employ in mudtherapy. <BR><b>Objectives:</b> Surface energy of natural ETM and its maturation process were monitored by TVS mud index, a tensiometric marker for the determination of the quality of a thermal mud²⁾. The aim of this work was to determine the quality of Brenta’s silt-clay by tensiometric approach introducing it in the field of thermalism.<BR><b>Materials and Methods: </b>Brenta’s silt-clayey (ie Brenta Ker) samples were collected from EGAP’s gravel pit, undergone at maturation process for 6 weeks employing thermal water, investigated using DSA10-Kruss tensiometer with diiodomethane, PFPE, glycerine as liquid tests. <BR>  Tensiometric characterizations were performed by measurement of contact angles (deg) of different liquid tests and their conversion in surface energy (mN/m) by Owens mathematical model ³⁾. TVS mud index levels were determined trough the measurements of contact angles of PFPE ⁴⁾ by Perfluoropolyether Contact Angle Measurement Method (PCAM) for maturation process (mN/m eq./weeks) and speed (m*Nm^-1/h) evaluations. <BR><b>Results: </b>The correlation degree between ETM XRF elements data (ppm) and those of Brenta’s silt-clay (ppm) was satisfactory (R2=0.82) confirming the common origin of two kind of matrices. Considering 6 weeks of maturation, surface energy profile of Brenta’s silt-clay, expressed as dispersed component (DC) and polar component (PC), showed respectively 17.84 mN/m and 32.04 mN/m with coefficients of variations (CV%) around 22.43% and 14.29%. TVS mud index levels monitored during maturation process showed a clear decrease in the time (t0=84.02.5 mN/m eq, t1=71.01.9 mN/m eq., t2=79.80.7 mN/m eq., t3=72.63.1 mN/m eq., t4=61.22.6 mN/m eq., t5=65.12.1 mN/m eq., t6=58.81.6 mN/m eq.) underlined by the decrease of maturation speed monitored for 60 days and expressed as DC per hour (t48=0.08 m*Nm^-1/h, t120=0.03 m*Nm^-1/h, t144=0.04 m*Nm^-1/h, t384= 0.02 m*Nm^-1/h, t1416=0.005 m*Nm^-1/h).<BR><b>Conclusions: </b>Tensiometric investigations by TVS modelling and maturation speed evaluations confirmed the suitability of Brenta’s silt-clay to be employed in thermal field opening new perspectives in mudtherapy.

Relative Efficiency of Surface Energy Partitioning Over Different Land Covers.

Aims: In this paper, we aim to assess different parameterization schemes for quantifying the surface energy portioning process, in particular, the latent and sensible heat fluxes, and their applicability to various surface cover types. Study Design: This study intercompares theoretical models that predict the relative efficiency of the latent heat (evapotranspiration) with respect to the sensible heat flux. Model predictions are compared with field measurements over surface covers with different physical characteristics and soil water availability. Place and Duration of Study: This study was carried out at the Arizona State University, Tempe, AZ, between August 2012 and December 2012. Methodology: Three theoretical models for prediction of the relative efficiency of the latent heat were investigated, based on the lumped heat transfer (Priestley), the linear stability analysis (LSA) and the maximum entropy principle (MEP), respectively. Model predictions were compared against field measurements over three different land cover types, viz. water, grassland and suburban surfaces. An explicit moisture availability parameter β is incorporated in the MEP model, to facilitate direct comparison against the LSA and field measurements. Standard post-processing and quality control were applied to field measured turbulent fluxes using the eddy-covariance (EC) technique. To be consistent with the premise of all theoretical models, diurnal series of sensible and latent heat fluxes were filtered such that only data points under convective conditions were selected. Results: Among all three models, the application of Priestley model is restricted to saturated land surfaces, and generally overestimates the relative efficiency of the latent heat for water-limited surfaces. The LSA and MEP models predict similar β ranges, i.e., 0.05-0.3 in summer and 0.1-0.7 in winter over suburban area, and 0.1 to 0.5 over lake surface. Over vegetated surfaces, the MEP model predicts a reasonable β range around unity by taking transpiration into consideration, while the LSA model consistently underestimated the relative efficiency. Conclusion: Moisture availability plays an essential role in regulating the surface energy partitioning process. The introduction of the moisture availability parameter enables versatile theoretical models for latent heat (and evapotranspiration) predictions over a wide range of land cover types. This study provides a physical insight into the thermodynamics mechanism governing the surface energy balance, and the potential to develop novel surface energy parameterization schemes based on the concept of relative efficiency. The MEP model is found to have the greatest potential in terms of future theoretical model development.

O efeito do tratamento da superfície na molhabilidade do Ti cp / Effect of surface treatments on cp Ti wettability

O aumento da energia da superfície dos implantes osseointegráveis aumenta a capacidade de adsorção de íons pela superfície e, consequentemente, eleva a absorção celular e maximiza a osseointegração. O objetivo do presente trabalho foi analisar a influência da morfologia da superfície do titânio comercialmente puro (Ti cp) na molhabilidade quantificada pelo ângulo de contato entre a superfície do titânio e a água. No presente estudo, 82 discos de Ti cp foram tratados por seis fabricantes de implantes dentários. As amostras foram tratadas com ácido, jateadas com e sem tratamento com ácido e anodizadas. Amostras de Ti cp puro usinadas foram usadas como grupo controle. Todas as superfícies foram caracterizadas por microscopia eletrônica de varredura (MEV). Para as análises estatísticas empregou-se Anova e o teste Tukey hoc com significância p < 0,05. Todos os grupos experimentais apresentaram ângulo de contato superior a 45 graus, exceto as amostras anodizadas. Pôde-se concluir que o tratamento da superfície influencia na molhabilidade do titânio, justificando a ocorrência da diferença na osseointegração dos implantes com diferentes tipos de superfície...

Increased implant surface wettability generates increased ion adsorption capacity, which consequently enhances cell absorption and maximizes osseointegration. The aim of this study was to determine, in vitro, the influence of different implant surface topography on wettability by the contact angle between Ti surface and water. Materials and Methods: In this study, 82 commercially pure titanium (cp Ti) disks, 5-mm in diameter and 3-mm thick, were provided by 6 titanium dental implants manufacturers. Samples were assigned to one of the following experimental groups according to surface treatment process: Group 1 – acid-etched implant surfaces; Grupo 2 – sandblasted/acid-etched implant surfaces; Group 3 - acid-etched implant surfaces; Group 4 - sandblasted/acid-etched implant surfaces; Grupo 5 - sandblasted/acid-etched/ gamma irradiated implant surfaces; Group 6 – acidetched implant surfaces; Group 7 - acid-etched implant surfaces; Group 8 – anodized implant surface. Machined cp Ti samples were used as control group (Group 9). All surfaces were characterized by scanning electron microscopy (SEM). The contact angle of a drop of distilled water on each of the prepared surfaces was used as the measure of wettability with a goniometer microscope. One-way Anova and Turkey’s post hoc test were used to assess statistical signifi cance (p < 0.05). Results: all experimental groups showed contact angles higher than 45 degrees, except anodized samples. The contact angle of water on the anodized surface (Group 8) was lower than 45 degrees, thus indicating a significant difference in wettability when compared to the other surfaces studied. Conclusion: within the limits of this investigation, the anodized surface produced the greatest increase in the wettability by decreasing the contact angle to less than 45 degrees...

Surface energy and wettability of polymers light-cured by two different systems

OBJECTIVE: This study evaluated the surface energy and wettability of composite resins polymerized by different light-curing units to ascertain the good wetting of tooth surfaces to achieve adhesion. MATERIAL AND METHOD: Filtek Z350 (3M ESPE), Admira (VOCO) and Grandio (VOCO) resins were selected for the testing procedures. The resins were light cured using LED and Halogen devices. Contact angles were measured goniometrically (Ramé-Hart F100) using water and glycerol as test liquids. Surface energy values were calculated with a software program (DROPimage Standard) that uses the harmonic mean method applied to the acid-base theory. The data were analyzed statistically by ANOVA and Tukey's test with a significance of 0.05. RESULTS AND CONCLUSIONS: No statistically significant differences were found between the values of surface energy. The measured wettability differed statistically in most combinations as a function of the type of composite resin, type of light-curing unit, and the test liquid.

In vitro evaluation of Ti-24Nb-4Zr-7.9Sn coated with microarc-oxidation film in cultured osteoblast cells / 实用口腔医学杂志

Objective: To study the attachment, proliferation and ALP activity of osteoblasts on Ti-24Nb-4Zr-7.9Sn(TNZS) alloy surface treated by microarc oxidation (MAO). Methods: The surface roughness and energy of TNZS before and after MAO treated was examined by physicochemical methods, and pure titanium used as control. The primary cultured osteoblasts separated from calvarium of fetal rats were cultured and the third passage osteoblasts were seeded on 3 different surfaces of Ti, TNZS, MAO-TNZS discs. Biological assays were performed by MTT method. All data were statistically analyzed. Results: The surface energy and roughness of MAO-TNZS was higher than that of other groups; during the initial period of the cell adhesion on the materials, there were no differences among the three teams. But after 2 h, the cells adhesions on the surface of Mao-TNZS were higher than that on smooth surface and Ti (P