Selya Amrani scite author profile

Selya Amrani

4Publications

29Citation Statements Received

330Citation Statements Given

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179

325

Affiliations

University of Ottawa, McGill University

Publications

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Characterization of Nanoscale Loaded Liposomes Produced by 2D Hydrodynamic Flow Focusing

Amrani

Tabrizian

2018

ACS Biomater. Sci. Eng.

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This paper presents the continuous flow formation by two-dimensional (2D) hydrodynamic flow focusing (HFF) of nanosized liposomes in microfluidic systems. The size distribution and concentration of the nanosized liposomes, as well as the polydispersity index (PDI) and zeta potential (ZP) of the liposomal dispersions, were investigated under various flow rate ratios (FRRs) and lipid formulations, by the selective incorporation of either positively charged DDAB (didodecyl-dimethylammonium bromide) or negatively charged DOPG (1,2 dioleoyl-snglycero-3-phosphoglycerol) lipids to the main bilayer DPPC (1,2-dipalmitoyl-sn-glycero-3-phosphocholine) constituent. The challenges of encapsulating an FITC (fluorescein isothiocyanate)-labeled LC-TAT peptide (long chain of transactivator of transcription peptide), which plays a direct role in the HIV regulation and transcription, overcame and could be achieved via one-step nanoliposomes synthesis, in order to validate the potential of this device as an all-in-one nanoparticle synthesis and loading platform. Liposomes with sizes ranging between 60 to 800 nm were produced with low polydispersity and high particle throughput from alteration of the flow rate ratio and lipid concentration. We introduced the use of nanoparticle tracking analysis (NTA) to estimate for the first time the throughput of microfluidic synthesized liposomal NPs by measuring quantitatively the concentration of the synthesized particles at the outlet. These measurements showed that stable and unilamellar liposomes are generated at a maximum concentration of 1740 × 10 8 particles/mL in less than 2 min, with higher FRR enabling the most rapid generation of liposomes with similar diameter and significant lower polydispersity index than those obtained by other batch techniques.

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Light-Activated Peptide-Based Materials for Sutureless Wound Closure

McTiernan

Cortes

Lazurko

et al. 2019

ACS Appl. Mater. Interfaces

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Using chemically modified extracellular matrix proteins, such as collagen, in combination with light for tissue bonding reduces inflammation and minimizes scarring. However, full length animal or recombinant human collagen proteins are difficult to isolate/produce. Thus, short biomimetic collagen peptides with properties equivalent to collagen at both structural and functional levels may be ideal building blocks for the development of remotely triggered adhesives and fillers. In this work, the conjugation of self-assembling collagen-like peptides to acrylate functionalized polyethylene glycol units yielded adhesive filler materials activated by visible light through the incorporation of a photosensitizer. When tested in a murine skin wound model, the photoactivated adhesives showed reduced scar formation and promoted epithelial regeneration.

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Modulating the elution of antibiotics from nanospongy titanium surfaces with a pH-sensitive coating

2015

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Briefing des patients simulés en cinq étapes : effets perçus sur la préparation à la pratique simulée. Données d’un projet pilote

Burnier¹,

Fotsing²,

Bouchard-Lamothe³

et al. 2019

Pédagogie Médicale

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Problématique : La formation des patients simulés (PS) est nécessaire pour répondre aux critères d’authenticité de la simulation. Dans le cadre de cliniques simulées, nous avons mis en place un nouveau format de briefing des PS, créé à partir d’un modèle de formation issu des arts du théâtre, combiné au briefing habituel du monde de la simulation. Objectif : Décrire les effets perçus du briefing en cinq étapes sur la préparation des PS à la pratique simulée. Méthodes : Étude qualitative et descriptive. Dix-sept PS ont répondu à un questionnaire en ligne. L’analyse inductive des données a été effectuée par trois chercheurs. Résultats : Les PS perçoivent une meilleure compréhension du scénario, une amélioration de leurs habiletés d’interprétation et de mémorisation ainsi qu’un renforcement de leur sentiment d’appartenance. Conclusion : Le briefing en cinq étapes répond au besoin d’avoir une formation courte, ponctuelle, ciblée sur le cas et propice à un encadrement sûr des PS. Il est complémentaire des formations longues et thématiques, offertes périodiquement. Une évaluation des effets observables de ce briefing sur la performance réelle des PS devrait être envisagée.

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Selya Amrani

Characterization of Nanoscale Loaded Liposomes Produced by 2D Hydrodynamic Flow Focusing

Light-Activated Peptide-Based Materials for Sutureless Wound Closure

Modulating the elution of antibiotics from nanospongy titanium surfaces with a pH-sensitive coating

Briefing des patients simulés en cinq étapes : effets perçus sur la préparation à la pratique simulée. Données d’un projet pilote

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