Mechanical biocompatibility of prosthetic meshes: a comprehensive protocol for mechanical characterization.

This study is aimed at a comprehensive and extensive characterization of the mechanical biocompatibility of mesh prostheses. A robust and simple experimental protocol and a set of parameters is proposed, addressing stiffness under uniaxial and biaxial loading conditions, anisotropy, influence of prior deformation history, local mismatch of deformation mechanisms, and changes in mechanical properties when embedded in a homogeneous matrix. These parameters can form the basis for comparison of different mesh types and for evaluation of their mechanical biocompatibility.

New array approaches to explore single cells genomes.

Microarray analysis enables the genome-wide detection of copy number variations and the investigation of chromosomal instability. Whereas array techniques have been well established for the analysis of unamplified DNA derived from many cells, it has been more challenging to enable the accurate analysis of single cell genomes. In this review, we provide an overview of single cell DNA amplification techniques, the different array approaches, and discuss their potential applications to study human embryos.

Persistence of polypropylene mesh anisotropy after implantation: an experimental study.

Objective: To determine whether anisotropy persisted after incorporation into the host, using a standardised rabbit model for abdominal wall reconstruction.

Design: Investigator-initiated prospective-controlled experimental study.

Setting: Centre for Surgical Technologies, Medical Faculty KU-Leuven.

Shrinkage and biomechanical evaluation of lightweight synthetics in a rabbit model for primary fascial repair.

Introduction And Hypothesis: The experiment evaluated different lightweights (<32 g/m(2)) in terms of shrinkage and biomechanics.

Methods: PP-8 (polypropylene of 7.6 g/m(2)), PP-s (PP-8 with absorbable sheets), PP-32 (PP with absorbable fibers; 32.

Polyclonal Staphylococcus epidermidis intravascular catheter-related infections.

During a 4-month period we prospectively investigated the frequency of polyclonal catheter infections with Staphylococcus epidermidis. Of each catheter with pure growth of S. epidermidis, six colonies were genotypically analyzed with pulsed-field gel electrophoresis.