Moustafa A. Matar scite author profile

Introduction Recombinant DNA produced amelogenin protein was compared to calcium hydroxide in a study of immature apex closure conducted in 24 young mongrel dogs. Methods Root canals of maxillary and mandibular right premolars (n = 240) were instrumented and left open for 14 days. Canals were cleansed, irrigated and split equally for treatment with recombinant mouse amelogenin (n = 120) or calcium hydroxide (n = 120). Results After 1, 3, and 6 months, the animals were sacrificed and the treated teeth recovered for histological assessment and immunodetection of protein markers associated with odontogenic cells. After 1 month, amelogenin-treated canals revealed calcified tissue formed at the apical foramen and a pulp chamber containing soft connective tissue and hard tissue; amelogenin-treated canals assessed after 3 and 6 month intervals further included apical tissue functionally attached to bone by a periodontal ligament. In contrast, calcified apical tissue was poorly formed in the calcium hydroxide group and soft connective tissue within the pulp chamber was not observed. Conclusions The findings from this experimental strategy suggest recombinant amelogenin protein can signal cells to enhance apex formation in non-vital immature teeth and promote soft connective tissue regeneration.

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Characterization of the apical bridge barrier formed following amelogenin apexification

Mounir¹,

Farsi²,

Alhazzazi³

et al. 2018

BMC Oral Health

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BackgroundRecombinant amelogenin protein (RAP) is reported to induce complete root apex formation in dog model when used as apexification therapy. It also induces pulp regeneration in 85% of the treated group. Thus, the aim of this study was to investigate the nature of the remaining regenerated calcified tissues of the RAP group that showed no pulp regeneration compared to the calcium hydroxide treated group (CH).MethodsA total of 240 dogs’ open apex root canals were used, after establishment of canals contamination. Canals were cleaned, irrigated, and filled with RAP as an apexification material and compared with CH. Treated teeth were assessed by H&E, trichrome staining, and/or immunohistochemistry technique, at 1, 3, and 6 months.ResultsA time-dependent increase in the calcified tissue barrier was observed in the apex of the RAP-treated group compared to the CH-treated group. The newly formed dentin in this RAP group was mainly tubular dentin and was functionally attached to the bone by periodontal ligament, while the CH group showed dentin-associated mineralized tissue (DAMT) associated with the newly formed apical barrier.ConclusionsOut results suggest that RAP can be used as novel apexification material, resulting in a thickening and strengthening of the canal walls, and achieving apical closure.

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Relation between Dermatoglyphicsand Early Childhood caries in a group of Egyptian children

Matar

2018

Egyptian Dental Journal

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The antimicrobial effect of eugenol on lactobacilli isolated from children’s saliva compared to chlorhexidine (in-vitro study)

Salma

Matar

Darwish

et al. 2022

Egyptian Dental Journal

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Moustafa A. Matar

Formulation of Saudi Propolis into Biodegradable Chitosan Chips for Vital Pulpotomy

Recombinant Amelogenin Protein Induces Apical Closure and Pulp Regeneration in Open-apex, Nonvital Permanent Canine Teeth

Characterization of the apical bridge barrier formed following amelogenin apexification

Relation between Dermatoglyphicsand Early Childhood caries in a group of Egyptian children

The antimicrobial effect of eugenol on lactobacilli isolated from children’s saliva compared to chlorhexidine (in-vitro study)

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