An in-vivo Intraoral Defect Model for Assessing the Use of P11-4 Self-Assembling Peptide in Periodontal Regeneration

El-Sayed, Basmah; Davies, Robert Philip Wynn; El-Zehery, Rehab R.; Ibrahim, Fatma R.; Grawish, Mohammed E.; Kirkham, Jennifer; El-Gendy, Reem

doi:10.3389/fbioe.2020.559494

Cited by 12 publications

(12 citation statements)

References 42 publications

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“…Furthermore, SAPM P 11 -4 recently was found to enhance proliferation of dental follicle stem cells, osteogenic differentiation and expression of Collagen Type I in vitro [ 10 ]. In addition, the present study also supports the results obtained in the first animal study investigating SAPM P 11 -4 in the treatment of periodontal disease [ 14 ] where SAPM P 11 -4 treated critical defects showed enhanced formation of Sharpey’s fibres compared to the untreated critical control defects. Favourable cellular interactions between the SAP P 11 -4 scaffold, mediated by fibronectin and other extracellular matrix proteins such as Collagen Type I, III and Fibrillin I absorbed at the scaffold’s surface, and human periodontal ligament fibroblasts led to the observed migration of the periodontal ligament fibroblasts within the SAP P 11 -4 matrix [ 12 , 13 ] and may contributes to the enhanced formation of periodontal attachment in comparison to the sham-operated control in the present study (T1 group).…”

Section: Discussionsupporting

confidence: 90%

“…The present preclinical study in dogs confirms the results previously obtained by Burke [ 35 ] and Saha [ 34 ] that SAPM P 11 -4 is a suitable scaffold for bone regeneration based on the regeneration of alveolar bone’s height, volume and mineral density which were comparable to the gold standard EMD. SAPM P 11 -4 may positively influence osteoblasts and their activity enabling enhanced bone growth as a significant higher OPG (osteoprotegrin) / RANKL (Receptor Activator of NF-κB Ligand) ratio was found for SAPM P 11 -4 treated periodontal defects in rats compared to untreated control defects [ 14 ]. Furthermore, SAPM P 11 -4 recently was found to enhance proliferation of dental follicle stem cells, osteogenic differentiation and expression of Collagen Type I in vitro [ 10 ].…”

Section: Discussionmentioning

confidence: 99%

“…El-Sayed et al [ 14 ] were the first to study SAPM P 11 -4 for the treatment of periodontal disease in vivo. Bilateral maxillary critical-sized periodontal defects were generated in 13 rats.…”

Section: Introductionmentioning

confidence: 99%

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Efficacy and safety of P11-4 for the treatment of periodontal defects in dogs

et al. 2022

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Objectives This study’s aim was to investigate the safety and performance of a self-assembling peptide matrix (SAPM) P11-4 for the treatment of periodontal disease in a controlled pre-clinical study. Materials and methods Acute buccal bony dehiscence defects (LxW: 5 × 3 mm) were surgically created on the distal root of four teeth on one mandible side of 7 beagle dogs followed by another identical surgery 8 weeks later on the contralateral side. SAPM P11-4 (with and without root conditioning with 24% EDTA (T1, T2)), Emdogain® (C) and a sham intervention (S) were randomly applied on the four defects at each time point. Four weeks after the second surgery and treatment, the animals were sacrificed, the mandibles measured by micro-computed tomography (µ-CT) and sections of the tissue were stained and evaluated histologically. Results Clinically and histologically, no safety concerns or pathological issues due to the treatments were observed in any of the study groups at any time point. All groups showed overall similar results after 4 and 12 weeks of healing regarding new cementum, functionality of newly formed periodontal ligament and recovery of height and volume of the new alveolar bone and mineral density. Conclusion A controlled clinical study in humans should be performed in a next step as no adverse effects or safety issues, which might affect clinical usage of the product, were observed. Clinical relevance The synthetic SAPM P11-4 may offer an alternative to the animal-derived product Emdogain® in the future.

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Section: Discussionsupporting

confidence: 90%

Section: Discussionmentioning

confidence: 99%

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Efficacy and safety of P11-4 for the treatment of periodontal defects in dogs

et al. 2022

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“…Self-assembling peptide P11-4, a smart scaffold, was successfully used to regenerate critical PDL defects in a rat model (El-Sayed et al, 2020). The same scaffold was used by Koch et al, 2020 to develop a 3D PDL model.…”

Section: List Of Abbreviationsmentioning

confidence: 99%

“…This approach will require the use of different biomaterials to represent hard tissue and soft tissue components of the periodontium (Chen et al, 2008). The diversity of the surface topography of the materials will play a role in directing the differentiation route of the cells (Elisseeff et al, 2005;Jäger et al, 2006). Furthermore, mechanical characterisation of multiphasic constructs is essential in future applications of such models (Sabree et al, 2015).…”

Section: List Of Abbreviationsmentioning

confidence: 99%

A bilayered tissue engineered in vitro model simulating the tooth periodontium

Khadre¹,

Raif²,

Junaid³

et al. 2021

eCM

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Due to the complexity of the structure of the tooth periodontium, regeneration of the full tooth attachment is not a trivial task. There is also a gap in models that can represent human tooth attachment in vitro and in vivo. The aim of this study was to develop a bilayered in vitro construct that simulated the tooth periodontal ligament and attached alveolar bone, for the purpose of tissue regeneration and investigation of physiological and orthodontic loading. Two types of materials were used to develop this construct: sol-gel 60S10Mg derived scaffold, representing the hard tissue component of the periodontium, and commercially available Geistlich Bio-Gide® collagen membrane, representing the soft tissue component of the tooth attachment. Each scaffold was dynamically seeded with human periodontal ligament cells (HPDLCs). Scaffolds were either cultured separately, or combined in a bilayered construct, for 2 weeks. Characterisation of the individual scaffolds and the bilayered constructs included biological characterisation (cell viability, scanning electron microscopy to confirm cell attachment, gene expression of periodontium regeneration markers), and mechanical characterisation of scaffolds and constructs. HPDLCs enjoyed a biocompatible 3-dimensional environment within the bilayered construct components. There was no drop in cellular gene expression in the bilayered construct, compared to the separate scaffolds.

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Developing functional hydrogels for treatment of oral diseases

Song,

Liu,

Fang

et al. 2024

Smart Medicine

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Oral disease is a severe healthcare challenge that diminishes people's quality of life. Functional hydrogels with suitable biodegradability, biocompatibility, and tunable mechanical properties have attracted remarkable interest and have been developed for treating oral diseases. In this review, we present up‐to‐date research on hydrogels for the management of dental caries, endodontics, periapical periodontitis, and periodontitis, depending on the progression of dental diseases. The strategies of hydrogels for treating oral mucosal diseases and salivary gland diseases are then classified. After that, we focus on the application of hydrogels related to tumor therapy and tissue defects. Finally, the review prospects the restrictions and the perspectives on the utilization of hydrogels in oral disease treatment. We believe this review will promote the advancement of more amicable, functional and personalized approaches for oral diseases.

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An in-vivo Intraoral Defect Model for Assessing the Use of P11-4 Self-Assembling Peptide in Periodontal Regeneration

Cited by 12 publications

References 42 publications

Efficacy and safety of P11-4 for the treatment of periodontal defects in dogs

Efficacy and safety of P11-4 for the treatment of periodontal defects in dogs

A bilayered tissue engineered in vitro model simulating the tooth periodontium

Developing functional hydrogels for treatment of oral diseases

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