Methods for imaging the structure and function of living tissues and cells: 1. Optical coherence tomography

This second article in the series shows how ¯uorescence lifetime imaging allows natural biochemical and physiological properties of tissues to act as contrast agents and so provide a basis for distinguishing normal and diseased tissue components. When combined with methods for imaging through non-tr

This review article looks at the development of confocal imaging technology, with emphasis on its abilities to overcome some of the problems of imaging life processes, particularly in the intact organ or animal. A brief summary of three promising micro-imaging modalities is provided (which are micro

Tissue engineering, rapidly developing branch of bioscience, is widely adopted for the purposes of the tissue growing using the substrate materials. Three-dimensional porous scaffolds possess a great opportunity for the directional growth of the cells and for the supplying them with nutrients. Howev

## Abstract Corrosion casting combined with scanning electron microscopy (SEM) has been widely used to study the morphofunctional aspects of microcirculation in many organs. In this study, we present an optimization of the corrosion casting (CC) technique associating it with NaOH 1 N maceration met

In yeast and other fungi, cell division, cell shape, and growth depend on the coordinated synthesis and degradation of cell wall polymers. We have developed a reliable and efficient micro method to determine Saccharomyces cerevisiae cell wall composition that distinguishes between ␤1,3and ␤1,6-gluca