Your search keyword '"Abu-Seida, Ashraf M."' showing total 5 results

1. Evaluation of the regenerative potential of dentin conditioning and naturally derived scaffold for necrotic immature permanent teeth in a dog model.

Author

El Halaby HM, Abu-Seida AM, Fawzy MI, Farid MH, and Bastawy HA

Subjects

Animals, Dental Pulp physiology, Dental Pulp Necrosis, Disease Models, Animal, Dogs, Female, Humans, Male, Odontoblasts physiology, Platelet-Rich Fibrin physiology, Regeneration, Tissue Engineering, Tooth Root physiology, Dentin physiology, Edetic Acid pharmacology, Tissue Scaffolds

Abstract

This study evaluated the outcome of partial exposure of dentin matrix to ethylenediaminetetraacetic acid (EDTA) and application of platelet-rich fibrin (PRF) scaffold on regeneration of necrotic immature permanent teeth in a dog model. The present study was carried out on 216 permanent immature roots in nine mongrel dogs aged 6-9 months. Pulp necrosis and periapical pathosis were induced in 180 roots. These roots were divided into five equal groups (36 roots each) according to the treatment protocol: group I: blood clot; group II: 17% EDTA solution and blood clot; group III: PRF; group IV: 17% EDTA solution and PRF; and group V: without treatment (positive control). The negative control group (group VI) represented 36 untouched normal roots for normal maturation. The groups were followed up for 1, 2 and 3 months (subgroups). Maturation of the roots was monitored by radiography and histopathology. All data were statistically analysed. Group IV exhibited the highest increase in root length and thickness, decrease in apical diameter, the highest score of vital tissue infiltration and least inflammatory scores. There was a significant difference regarding the increase in root length and thickness and decrease in apical diameter in all subgroups of the experimental and negative control groups (P ≤ .05). PRF has a better regenerative potential than the blood clot during treatment of immature permanent teeth with necrotic pulp. Inclusion of 17% EDTA solution as a final irrigation enhances the regenerative potential of both PRF and blood clot., (© 2020 Company of the International Journal of Experimental Pathology (CIJEP).)

Published

2020

2. Regenerative potential of immature permanent non-vital teeth following different dentin surface treatments.

Author

El Ashry SH, Abu-Seida AM, Bayoumi AA, and Hashem AA

Subjects

Animals, Dental Pulp blood supply, Dental Pulp physiology, Dentin blood supply, Dentin physiology, Dogs, Male, Periapical Tissue blood supply, Periapical Tissue drug effects, Periapical Tissue physiology, Random Allocation, Regeneration, Tissue Scaffolds, Tooth Root blood supply, Tooth Root physiology, Apexification methods, Dental Pulp drug effects, Dental Pulp Necrosis therapy, Dentin drug effects, Root Canal Filling Materials therapeutic use, Tooth Root drug effects

Abstract

This study evaluates the regenerative potential of immature permanent non-vital teeth following different dentin surface treatments in dogs. Periapical lesions and necrotic pulps were induced in 288 roots of 144 teeth in twelve dogs. Teeth were randomly divided into 3 equal groups according to the evaluation period. Each group was subdivided into 8 subgroups according to the treatment modalities including; blood clot, blood clot and collagen, blood clot and Ethylenediaminetetraacetic acid (EDTA), blood clot, collagen and EDTA, blood clot and Mixture Tetracycline Citric Acid and Detergent (MTAD), blood clot, collagen and MTAD, positive control and negative control. Apart from control subgroups, all infected root canals were cleaned with sodium hypochlorite solution and triple antibiotics paste before different treatment protocols. After different treatments, the root length, thickness and apical diameter were evaluated by radiographic examination. Histopathological examination was carried out to evaluate the inflammation, bone/root resorption, tissue in-growth in pulp space, new hard tissue formation and apical closure. Using EDTA solution as a surface modifier showed significantly higher levels of tissue in-growth in the pulp space after 6 weeks and 3 months. Addition of collagen as a scaffold caused significantly more bone/root resorption than the other subgroups while EDTA caused significantly lower inflammatory cell counts only after 2 weeks. Final rinse with 17% EDTA solution before blood clot induction has positive impact on tissue interaction along dentinal walls without modification of the cell type. Moreover, the use of collagen as a scaffold material and MTAD as a surface modifier did not improve the quality of the regenerative process., (Copyright © 2015 Elsevier GmbH. All rights reserved.)

Published

2016

3. Influence of azathioprine on healing of exposed dogs' dental pulp capped with three different materials.

Author

Al-Anesi, Mokhtar A., Abu-Seida, Ashraf M., Abd-Elhamid, Ehab S., Mahran, Abeer H., El Ashry, Salma H., Issa, Mohamed H., and Nagy, Mohamed M.

Subjects

*DENTAL pulp capping, *DENTAL pulp, *MINERAL aggregates, *CALCIUM hydroxide, *DENTIN, *AZATHIOPRINE

Abstract

Background: Azathioprine is one of the earliest immunosuppressants prescribed for several autoimmune diseases. Yet there is a lack of research on the impact of azathioprine on pulp healing following the pulp capping procedure. Aim: This study aimed to investigate the effect of azathioprine on the healing ability of mechanically exposed dogs' dental pulps following direct pulp capping with mineral trioxide aggregate (MTA), bio-aggregates (BA), and Calcium hydroxide (Ca(OH)2). Methods: Four mongrel dogs were randomly assigned to two groups (two dogs/30 teeth in each group): immunosuppressed (group I) and control (group II). Group I received azathioprine for two months before surgical treatments and until the dogs were euthanized. Fifteen class V buccal cavities were performed in each dog. Each group was randomly divided into three subgroups (10 teeth each) based on the pulp capping substance. The pulps in subgroups A, B, and C were immediately capped with MTA, BA, and Ca(OH)2, respectively. Inflammation and dentine bridge development were histopathologically evaluated and scored at one and two months. The data were statistically analyzed. Results: The immunosuppressed group exhibited statistically greater inflammatory cell count and decreased dentine bridge thickness, compared to the control group in all subgroups (p < 0.05). Conclusion: Azathioprine has an adverse effect on the healing of exposed dogs' dental pulp following direct pulp capping with MTA, BA, and Ca(OH)2. Therefore, patients using azathioprine as an immunosuppressive medication may experience delayed healing of mechanically exposed pulps following capping with MTA, BA, or Ca(OH)2. [ABSTRACT FROM AUTHOR]

Published

2024

4. Regenerative potential of a novel aloe vera modified tricalcium silicate cement as a pulp capping material: An animal study.

Author

SEIF, Heba, ELBANNA, Ahmed, ABU-SEIDA, Ashraf M., and EL-KORASHY, Dalia I.

Subjects

DENTAL pulp capping, ALOE vera, DENTAL glass ionomer cements, CEMENT, SILICATES, DENTIN

Abstract

This study compared the histologic response of a pulp capping material Matreva MTA modified with different concentrations of aloe vera (AV) solutions to Biodentine cement. Ninety dogs' teeth were included and categorized according to the capping material into five groups (18 teeth each); Group I (Biodentine), group II (Matreva MTA), group III (Matreva MTA 10% AV), group IV (Matreva MTA 20% AV) and group V (Matreva MTA 30% AV). The histopathological findings were recorded at 2, 4, and 8 weeks. Matreva MTA and Biodentine groups showed the highest inflammatory cell count compared to the AV-modified Matreva MTA groups at 2- and 4-week intervals (p>0.05). Moreover, the AV-modified Matreva MTA and Biodentine groups showed higher dentin bridge thickness compared to unmodified Matreva MTA at different follow-up periods (p<0.05). AV can significantly enhance the in vivo bioactivity of Matreva MTA, inducing mild inflammation and good dentine bridge formation comparable to Biodentine. [ABSTRACT FROM AUTHOR]

Published

2023

5. Biological evaluation of hesperidin for direct pulp capping in dogs' teeth.

Author

Abo El‐Mal, Ebtesam O., Abu‐Seida, Ashraf M., and El Ashry, Salma H.

Subjects

*HESPERIDIN, *TEETH, *MINERAL aggregates, *CALCIUM hydroxide, *DENTIN, *DOGS

Abstract

This study compared the biological effect of Hesperidin, Mineral Trioxide Aggregate (MTA)‐Angelus and calcium hydroxide for direct pulp capping. A total of 126 dogs, teeth were divided according to the post‐treatment evaluation period into three groups (42 teeth each), group I: 2 weeks, group II: 4 weeks and group III: 8 weeks. Each group was further subdivided according to the pulp capping material into three subgroups (14 teeth each), subgroup A (Hesperidin), subgroup B (MTA‐Angelus) and subgroup C (Dycal). Both inflammatory response and dentine bridge formation were assessed by histopathology. All data were statistically analysed. Resolution of the inflammation was recorded by the time with a significant difference between subgroups within the same group (P<.05). Hesperidin, MTA‐Angelus and Dycal showed either mild or moderate inflammation at 2 weeks with significant differences between subgroups (P <.05). At 4 and 8 weeks, there were no significant differences between subgroups (P >.05). Absence of complete or partial calcified bridge with no odontoblastic layer was reported in all subgroups at 2 weeks while at 4 weeks, the majority of samples in Hesperidin and MTA subgroups showed amorphous calcified deposit. At 8 weeks, there was no significant difference (P >.05) between subgroups except that 78.5% and 92.9% of Hesperidin and MTA‐Angelus samples, respectively, showed moderate dentine bridge. Also, 78.5% of Hesperidin and Dycal samples revealed moderately thick dentine bridge while 78.7% of MTA‐Angelus showed a thin dentine bridge with a significant difference between them (P <.05). In conclusion, Hesperidin is a promising pulp capping material inducing mild inflammation and good dentine bridge formation. [ABSTRACT FROM AUTHOR]

Published

2021