Faten Debbabi scite author profile

Faten Debbabi

4Publications

61Citation Statements Received

81Citation Statements Given

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Affiliations

University of Monastir, Hella (Germany)

Publications

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Tensile and Knot Performance of Polyester Braided Sutures

Abdessalem¹,

Debbabi

Jedda³

et al. 2009

Textile Research Journal

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The success of a suture is generally linked to its mechanical performance such as tensile strength and knot slippage. The measurement of the tensile properties of sutures suffers from the absence of an international standard test method. In this paper, we present an experimental procedure for the measurement of mechanical parameters and knot slippage of braided sutures made of polyester fibers. The effect of braid angle on tensile and knot performance was studied, and a slippage ratio obtained from load-extension curves was defined. The variation of braid angle had an important influence on breaking load and elongation of the suture. The presence of a knot lowered the breaking load and the rupture occurred consistently at the knot region. The slippage ratio permitted the comparison of the resistance to slippage of different types of knot.

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Development and characterization of antibacterial braided polyamide suture coated with chitosan-citric acid biopolymer

et al. 2017

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Braided polyamide sutures are frequently used in dermatologic surgery for wound closure. However, braided sutures promote bacteria proliferation. In order to prevent wound complications due to this effect, antibacterial sutures should be used. The main objective of this study is the development of new non-absorbable antibacterial polyamide braided suture. This paper suggests new coating process that leads to obtain suture uniformly covered by antibacterial film enclosing chitosan, which is known for its antibacterial benefit. Mechanical properties and surface morphology of developed sutures were investigated by using mechanical tests. Sutures surfaces were also examined by scanning electron microscope, to perceive spreading of coating product on suture surface. In order to identify potential reactions between chemical compounds present in coating solution and suture material, sutures were analyzed by ATR-IF spectroscopy. It has been demonstrated that many eventual bonds between compounds present in coating solutions and polyamide macromolecular chain may occur. The existence of these bonds implies the fixation of biopolymer coating on suture surface. It has been demonstrated that uniform surface may be obtained by progressively applying coating solution containing little amount of chitosan on suture surface. We have also found that developed coating process has not affected mechanical properties of suture, which still meet United States Pharmacopeia requirement. Finally, antibacterial effects against four colonies, very widespread in hospitals, were studied. Prominent antibacterial effects of braided polyamide suture against two gram-positive ( S Aureus, S epidermidis) and two gram-negative ( E coli and P aeruginosa) colonies are presented. Optimal result of best properties is obtained by applying three layers of biopolymer coating comprising 1% chitosan and 10% citric acid. The new developed suture coating process appears as a promising method for obtaining important antibacterial effect with smooth suture surface.

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Effect of Manufacturing Conditions on Structural and Handling Properties of Braided Polyamide Suture

Debbabi

Abdessalem

2015

Journal of Engineered Fibers and Fabrics

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Suture performances include handling characteristics and knot mechanical properties. These performances depend mainly on frictional, flexural, and compressive forces. The interaction between these forces developed inside the suture knot governs the displacement mode and the deformability of the suture yarn inside the knot. In the present work, we studied the effect of manufacturing conditions on structural properties and handling characteristics. Obtained results show that manufacturing parameters have significant impact on slipperiness, flexibility, and compressibility. Consequently, suture performances widely depend on manufacturing parameters. We show that after a hot stretch step, suture structure becomes more uniform and compact. Furthermore, after this treatment, lateral deformation, friction force, and bending rigidity are reduced and knot performances are improved.

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Effect of Braiding and Hot Stretching Conditions on Sutures Performances

Debbabi¹,

Abdessalem²

2011

J. of Applied Sciences

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Faten Debbabi

Tensile and Knot Performance of Polyester Braided Sutures

Development and characterization of antibacterial braided polyamide suture coated with chitosan-citric acid biopolymer

Effect of Manufacturing Conditions on Structural and Handling Properties of Braided Polyamide Suture

Effect of Braiding and Hot Stretching Conditions on Sutures Performances

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