Systematic and objective wet-lab testing of instruments for phacoemulsification: new Formalin Quadrant Model.

Purpose: To validate an improved wet-lab model for systematic and objective efficiency testing of instruments for phacoemulsification.

Setting: Institute of Medical Engineering, Lucerne University of Applied Sciences and Arts, Lucerne, Switzerland.

Design: Experimental study.

Scalable Microgravity Simulator Used for Long-Term Musculoskeletal Cells and Tissue Engineering.

We introduce a new benchtop microgravity simulator (MGS) that is scalable and easy to use. Its working principle is similar to that of random positioning machines (RPM), commonly used in research laboratories and regarded as one of the gold standards for simulating microgravity. The improvement of the MGS concerns mainly the algorithms controlling the movements of the samples and the design that, for the first time, guarantees equal treatment of all the culture flasks undergoing simulated microgravity.

Influence of Mechanical Unloading on Articular Chondrocyte Dedifferentiation.

Due to the limited self-repair capacity of articular cartilage, the surgical restoration of defective cartilage remains a major clinical challenge. The cell-based approach, which is known as autologous chondrocyte transplantation (ACT), has limited success, presumably because the chondrocytes acquire a fibroblast-like phenotype in monolayer culture. This unwanted dedifferentiation process is typically addressed by using three-dimensional scaffolds, pellet culture, and/or the application of exogenous factors.