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Fulltext Effect of luting cement to push-out bond strength of fibre reinforced post

Yahya, N.A., Lui, J.L., Chong, K.W.A., Abu Kasim, N.H., Radzi, Z., Lim, C.M.

Ann Dent, 2008;15(1):11-19.
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The objective of this study was to investigate the effect of various luting cement systems on bond strength of fibre-reinforced posts to root canal dentine. 40 extracted single rooted sound premolar teeth were root filled, decoronated and randomly divided into four groups. Fibre posts, Aestheti- Plus™ (Bisco,Inc. Schaumburg, IL, USA) were cemented using four luting cements: Group A (control): Elite 100® Zinc phosphate (GC Corp, Japan), Group B: Calibra ™ Esthetic Resin Cement (Dentsply Caulk, USA), Group C: RelyX ARC Adhesive Resin (3M ESPE), Group D: RelyX Unicem Aplicap (3M ESPE). Each root was sliced into 2 discs representing the coronal and middle portions of the root canal giving rise to 20 specimens per group. Bond strength was determined using push-out tests and data was analyzed using SPSS version 14.0. The mean bond strength of Group A to Aestheti-Plus™ post was 7.71 MPa (±2.51) and Group B was 5.69 MPa (±3.23). Group C exhibited the lowest mean bond strength, 4.29 MPa (±3.53) while the highest bond strength was obtained from Group D, 7.98 MPa (±2.61). One way ANOVA showed significant interaction between all groups (p=.OOI). Post-hoc Bonferroni test reve;iled that bond strength of Group C was significantly lower compared to Group A (p=.008) and D (p=.004). In conclusion, the mean bond strength of Aestheti- Plus™ post to root canal dentine was highest when cemented with RelyX Unicem resin cement followed by Elite 100® zinc phosphate cement, Calibra and RelyX ARC resin cements. However, the bond strengths of Cali bra and RelyX Unicem resin cements were not significantly different from Elite 100® zinc phosphate cement.
Fulltext Relationship of the light intensity of selected light curing units with varying distance and angulation of the light curing tip and lightmeter

Radzi, Z., Abu Kasim, N.H., Yahya, N.A., Abu Osman, N.A., Kassim, N.L.

Ann Dent, 2008;15(1):33-39.
MyJurnal

The purpose of this study was to investigate the light intensity of selected light curing units with varying distance and angulation of the light curing tip and lightmeter. Materials and method: Four types of light units; Spectrum 800 (Dentsply), Coltulux 3 (Coltene), Elipar FreeLight 2 (3M Espe) and Starlight Pro (Mectron) were evaluated for light intensity at various distances between the light curing tip and the radiometer Cure Rite Denstply (0,1,3,5,10 and 15 mm). The light curing units were tested at right angles to the aperture of the light meter and at the angles of 45°, 60° to it at a standardized 5 mm distance. Results: The highest light intensity was obtained when the tip of light curing unit was in contact with the lightmeter aperture. The light intensity decreased significantly when the light tip was placed 5mm, 10mm and 15mm away from the lightmeter aperture. However, no significant differences (p> .05) were detected between Omm, Imm and 3mm. There was a decrease in light intensity when light~·tip was angulated at 45° and 60° except for Coltolux 3. Conclusions: The intensity of the curing light was affected by the distance between the light curing tip and the lightmeter. However, the decrease in light intensity of the light curing unit was found not to obey the inverse square law for the distances 0 to 15 mm. The study found that there was no significant difference between 45° and 60° angulation between the light curing tip and the lightmeter. However, the decrease in light intensity was significant when compared to the light tip placed perpendicular (90°) to the aperture of the light meter.
Fulltext Biomechanical characteristics of collagen fibrils of human free gingival tissues- atomic force microscope study

Chang, S.V., Ooi, X.D., Ismail, S.M., Rahman, M.T., Radzi, Z.

Ann Dent, 2017;24(2):9-15.
MyJurnal

The information of biomechanical properties is crucial in the study of biological tissue and its clinical relevance. 3mm x 3mm free gingival human tissues was taken using disposable punch biopsy (Accu sharp blade, India) and stored in 0°C Freezer. The sample was sectioned to a thickness of 10μm using high profile microtome blade (Leica 818, Germany) and cryostat (Leica CM1850UV, United Kingdom). The sample was analysed using Atomic Force Microscope (Nanowizard® 3, JPK Instruments, Germany) at room atmosphere. The collagen fibrils of the free gingival tissues appeared to be stacked in basket weave like structure. The mean value of free gingival collagen fibrils width and the length of D-band were 106.71±11.18nm and 65.82 ± 3.04nm respectively. The Young’s modulus of collagen fibrils for human free gingival tissue at overlap region was 212.88 ± 242.58 MPa, whereas at the gap region was 207.00 ± 230.71 MPa. Within the limitation of the study, the collagen fibrils appeared to be stacked in basket weavelike structure. The length and width of the collagen fibril were similar to the values investigated using other techniques. There was significant linear relationship between Young’s modulus of overlap and gap regions.
Fulltext Mechanical and surface properties of initial and working aesthetic orthodontic archwires

Tang, Y.C., Peh, X.L., Zakaria, N.N., Radzi, Z.

Ann Dent, 2016;23(1):1-12.
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The study aimed to compare mechanical properties and surface characteristics of initial and working
aesthetic archwires with their conventional counterparts. High Aesthetic Sentalloy (full rhodium coating
nickel-titanium; Dentsply GAC) represented the initial aesthetic archwires; and FLI TRU-CHROME
(labial PTFE-coated stainless steel; RMO) as the working aesthetic archwires; together with their
conventional counterparts were analysed. A three point bending test was conducted using a universal
testing machine (AGS-X SERIES, Shimadzu, Japan) to determine the load-deflection characteristics of
archwires. Surface hardness was evaluated by Vickers microhardness test (HMV-FA, Shimadzu, Japan).
A 3D Optical Surface Texture Analyzer (ALICONA, InfiniteFocus Real3D, Belgium) and a Field Emission
Scanning Electron Microscope (FESEM, FEI Quanta 250, USA) were used for surface evaluation.
Results showed that load-deflection characteristics of High Aesthetic Sentalloy archwires did not differ
from its control, whereas FLI TRU-CHROME archwires exhibited higher loading and unloading forces
than its counterpart. No statistically significant difference in surface hardness was found between FLI
TRU-CHROME and its control archwires. The coating surfaces of both aesthetic archwires were rougher
than the non-coated conventional archwires, with similar roughness between non-coated surface of FLI
TRU-CHROME archwires and its counterpart. FLI TRU-CHROME archwires showed a distinct coating
thickness but coating layer is undefined in High Aesthetic Sentalloy archwires. In conclusion, the aesthetic
rhodium coated nickel titanium archwire has similar mechanical properties as control nickel titanium
archwire without being adversely affected by the addition of the coating layer. The aesthetic coated PTFE
stainless steel archwire has higher load response which could be an advantage as rigid wire in working
stage of orthodontic treatment. Based on their performance, their use could be recommended in cases
where aesthetic aspect is crucial and where the friction aspect is not critical as their surface roughness
values increased.
Bone-borne accelerated sutural expansion: A microcomputed tomography study in rabbits

Alyessary AS, Yap AUJ, Othman SA, Ibrahim N, Rahman MT, Radzi Z

Am J Orthod Dentofacial Orthop, 2018 Aug;154(2):260-269.
PMID: 30075928 DOI: 10.1016/j.ajodo.2017.11.031

INTRODUCTION: In this study, we evaluated the effect of bone-borne accelerated expansion protocols on sutural separation and sutural bone modeling using a microcomputed tomography system. We also determined the optimum instant sutural expansion possible without disruption of bone modeling.
METHODS: Sixteen New Zealand white rabbits, 20 to 24 weeks old, were randomly divided into 4 experimental groups. Modified hyrax expanders were placed across their interfrontal sutures and secured with miniscrew implants located bilaterally in the frontal bone. The hyrax appliances were activated as follows: group 1 (control), 0.5-mm per day expansion for 12 days; group 2, 1-mm instant expansion followed by 0.5 mm per day for 10 days; group 3, 2.5-mm instant expansion followed by 0.5 mm per day for 7 days, and group 4, 4-mm instant expansion followed by 0.5 mm per day for 4 days. After 6 weeks of retention, sutural separation and sutural bone modeling were assessed by microcomputed tomography and quantified. Statistical analysis was performed using Kruskal Wallis and Mann-Whitney U tests and the Spearman rho correlation (P <0.05).
RESULTS: Median amounts of sutural separation ranged from 2.84 to 4.41 mm for groups 1 and 4, respectively. Median bone volume fraction ranged from 59.96% to 69.15% for groups 4 and 3, respectively. A significant correlation (r = 0.970; P <0.01) was observed between the amounts of instant expansion and sutural separation.
CONCLUSIONS: Pending histologic verifications, our findings suggest that the protocol involving 2.5 mm of instant expansion followed by 0.5 mm per day for 7 days is optimal for accelerated sutural expansion. When 4 mm of instant expansion was used, the sutural bone volume fraction was decreased.