Abstract
Flow cytometry is a widely used method in immunological research that allows for rapid and accurate analysis of individual cells to detect their immunophenotypic characteristics and functional status. This technique is particularly useful for studying immune cells. Flow cytometry can be used to detect and analyze various types of immune cells, such as T cells, B cells, dendritic cells, and macrophages. By analyzing the characteristic parameters of immune cells, such as killing activity, proliferative activity, and secretion factors, immune-related diseases can be diagnosed and treated. Flow cytometry can also be utilized to investigate various cell types within the immune system. For instance, it can be employed to study T lymphocytes in lymphoid tissue and B lymphocytes in bone marrow. This enables researchers to gain insights into the functions of these cells in immune regulation and the maintenance of internal environmental stability. Flow cytometry is of great significance in immunological research as it can be used not only to detect various types of immune cells but also to study different immune systems. In terms of immune regulation, flow cytometry can be used to detect and analyze various types of immune cells, such as B lymphocytes and macrophages, as well as their distribution and functional status in vivo. Flow cytometry can also be used to study subpopulations of T lymphocytes and B lymphocytes in bone marrow.
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How to cite this paper
Application of Flow Cytometry in Functional Analysis of Immune Cells
How to cite this paper: Pianpian Chao. (2023) Application of Flow Cytometry in Functional Analysis of Immune Cells. International Journal of Clinical and Experimental Medicine Research, 7(4), 595-598.
DOI: https://dx.doi.org/10.26855/ijcemr.2023.10.013