These methods can be extremely time-consuming, estimates can be inaccurate, and the questions that can be addressed using these methods are limited. Counting in vivo or in situ is generally carried out manually, or it consists of estimates of number of cells stained with a particular cell marker or inferences from anatomical alterations. ![]() in the intact animal) or at least in an entire organ or tissue (i.e. To maintain information relevant to how genes and cells behave in the organism, it is best to count cells in vivo (i.e. However, these approaches alter the normal cellular contexts and the procedures themselves can alter the relative numbers of cells. fluorescence-activated cell sorting, FACS, based), or when they are distributed in a dish in cell culture experiments, using image processing techniques in 2D (e.g. Generally, cells are counted using automated methods after dissociating cells from a tissue (e.g. Thus to understand normal animal development, injury responses and disease, it is important to find out how many cells die or divide, or how many cells of a given type there are in an organ. spinal cord injury) results in an increase in cell death, plus a homeostatic regulation of cell proliferation. Cell number is the balance between cell division and cell death it is controlled tightly during growth and it can be altered in disease, most notoriously neurodegeneration and cancer. One useful parameter to quantify is cell number. Image-processing methods have enormous potential to extract information from this kind of samples, but surprisingly, they are still relatively underexploited. ![]() For this, they look at how alterations in gene function and application of drugs affect tissue, organ or whole body integrity, using confocal microscopy images of samples stained with cell specific markers. Biologists aim to understand how cells behave and what genes do to build a normal animal, and what goes wrong in disease or upon injury. ![]() Image processing methods have opened the opportunity to extract quantitative information from confocal microscopy images of biological samples, dramatically increasing the range of questions that can be addressed experimentally in biology.
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