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Full-Text Articles in Dentistry
Comparative Evaluation Of Apical Extrusion Debris And Irrigant During Calcium Hydroxide Removal And Endodontic Instrumentation Using Three Types Of Instrumentation Systems, Selen İnce Yusufoğlu, Esma Saricam
Comparative Evaluation Of Apical Extrusion Debris And Irrigant During Calcium Hydroxide Removal And Endodontic Instrumentation Using Three Types Of Instrumentation Systems, Selen İnce Yusufoğlu, Esma Saricam
Journal of Dentistry Indonesia
Many root canal preparation techniques and instruments produce apically extruded materials to a certain extent depending on the preparation system adopted. The extrusion of debris from the apical foramen during chemomechanical preparation may cause postoperative pain and failure of endodontic treatment. Objective: This study evaluates the differences in the apical extrusion of debris and calcium hydroxide (CH) during endodontic instrumentation by using Reciproc Blue (RB), WaveOne Gold (WOG), and F6 Skytaper (F6). Methods: Six experimental study groups (n = 13) were established. The root canal procedures for all groups were prepared with different methods: Group I: One Shape (OS) instrumentation, …
Sustained Release Of Calcium Hydroxide From Poly(Dl-Lactide-Co-Glycolide) Acid Microspheres For Apexification, Bernardino Isaac Cerda-Cristerna, Alejandro Breceda-Leija, Verónica Méndez-González, Daniel Chavarría-Bolaños, Héctor Flores-Reyes, Arturo Garrocho-Rangel, Takashi Komabayashi, Aniket S. Wadajkar, Amaury J. Pozos-Guillén
Sustained Release Of Calcium Hydroxide From Poly(Dl-Lactide-Co-Glycolide) Acid Microspheres For Apexification, Bernardino Isaac Cerda-Cristerna, Alejandro Breceda-Leija, Verónica Méndez-González, Daniel Chavarría-Bolaños, Héctor Flores-Reyes, Arturo Garrocho-Rangel, Takashi Komabayashi, Aniket S. Wadajkar, Amaury J. Pozos-Guillén
Dental Medicine Faculty Publications
Calcium hydroxide (Ca(OH)2) loaded poly(DL-lactide-co-glycolide) acid (PLGA) microspheres (MS) might be employed for apexification requiring a sustained release of Ca++. The aim of this study was to formulate and characterize Ca(OH)2-PLGA-MS. The Ca(OH)2-loaded MS were prepared by either oil-in-water (O/W) or water-in-oil/in-water (W/O/W) emulsion solvent evaporation technique. MS produced by the O/W technique exhibited a larger diameter (18.63 ± 7.23 μm) than the MS produced by the W/O/W technique (15.25 ± 7.37 μm) (Mann Whitney U test P < 0.001). The Ca(OH)2 encapsulation efficiency and Ca++ release were calculated from data obtained by absorption techniques. Ca++ release profile was evaluated for 30 days. The percentage of encapsulation efficiency of the O/W-produced MS was higher (24%) than the corresponding percentage of the W/O/W-produced MS (11%). O/W- and W/O/W-produced MS released slower and lower Ca++ than a control Ca(OH)2 paste with polyethylene glycol 400 (ANOVA 1 way, Tukey HSD P < 0.01). O/W-produced MS released higher Ca++ than W/O/W-produced MS (statistically significant differences with t-Student test). We concluded that Ca(OH)2-PLGA-MS were successfully formulated; the technique of formulation influenced on the size, encapsulation efficiency and release profile. The MS were better sustained release system than the Ca(OH)2 paste.