Flow Cytometry

"Flow Cytometry" is a descriptor in the National Library of Medicine's controlled vocabulary thesaurus, MeSH (Medical Subject Headings). Descriptors are arranged in a hierarchical structure, which enables searching at various levels of specificity.

MeSH information

Definition | Details | More General Concepts | Related Concepts | More Specific Concepts

Technique using an instrument system for making, processing, and displaying one or more measurements on individual cells obtained from a cell suspension. Cells are usually stained with one or more fluorescent dyes specific to cell components of interest, e.g., DNA, and fluorescence of each cell is measured as it rapidly transverses the excitation beam (laser or mercury arc lamp). Fluorescence provides a quantitative measure of various biochemical and biophysical properties of the cell, as well as a basis for cell sorting. Other measurable optical parameters include light absorption and light scattering, the latter being applicable to the measurement of cell size, shape, density, granularity, and stain uptake.

Descriptor ID	D005434
MeSH Number(s)	E01.370.225.500.363.342 E01.370.225.500.386.350 E05.196.712.516.600.240.350 E05.200.500.363.342 E05.200.500.386.350 E05.242.363.342 E05.242.386.350
Concept/Terms	Flow Cytometry Flow Cytometry Microfluorometry, Flow Flow Microfluorometries Flow Microfluorometry Microfluorometries, Flow Flow Microfluorimetry Microfluorimetry, Flow Cytofluorometry, Flow Cytofluorometries, Flow Flow Cytofluorometries Flow Cytofluorometry Cytometry, Flow Cytometries, Flow Flow Cytometries Fluorescence-Activated Cell Sorting Fluorescence-Activated Cell Sorting Cell Sorting, Fluorescence-Activated Cell Sortings, Fluorescence-Activated Fluorescence Activated Cell Sorting Fluorescence-Activated Cell Sortings Sorting, Fluorescence-Activated Cell Sortings, Fluorescence-Activated Cell

Below are MeSH descriptors whose meaning is more general than "Flow Cytometry".

Analytical, Diagnostic and Therapeutic Techniques and Equipment [E]
Diagnosis [E01]
Diagnostic Techniques and Procedures [E01.370]
Clinical Laboratory Techniques [E01.370.225]
Cytological Techniques [E01.370.225.500]
Cell Separation [E01.370.225.500.363]
Flow Cytometry [E01.370.225.500.363.342]
Cytophotometry [E01.370.225.500.386]
Flow Cytometry [E01.370.225.500.386.350]
Investigative Techniques [E05]
Chemistry Techniques, Analytical [E05.196]
Photometry [E05.196.712]
Luminescent Measurements [E05.196.712.516]
Fluorometry [E05.196.712.516.600]
Cytophotometry [E05.196.712.516.600.240]
Flow Cytometry [E05.196.712.516.600.240.350]
Clinical Laboratory Techniques [E05.200]
Cytological Techniques [E05.200.500]
Cell Separation [E05.200.500.363]
Flow Cytometry [E05.200.500.363.342]
Cytophotometry [E05.200.500.386]
Flow Cytometry [E05.200.500.386.350]
Cytological Techniques [E05.242]
Cell Separation [E05.242.363]
Flow Cytometry [E05.242.363.342]
Cytophotometry [E05.242.386]
Flow Cytometry [E05.242.386.350]

Below are MeSH descriptors whose meaning is related to "Flow Cytometry".

Below are MeSH descriptors whose meaning is more specific than "Flow Cytometry".

publications

Timeline | Most Recent

This graph shows the total number of publications written about "Flow Cytometry" by people in this website by year, and whether "Flow Cytometry" was a major or minor topic of these publications.

Bar chart showing 450 publications over 35 distinct years, with a maximum of 32 publications in 2008

To see the data from this visualization as text, click here.

Below are the most recent publications written about "Flow Cytometry" by people in Profiles.

Shin HM, Kapoor VN, Kim G, Li P, Kim HR, Suresh M, Kaech SM, Wherry EJ, Selin LK, Leonard WJ, Welsh RM, Berg LJ. Transient expression of ZBTB32 in anti-viral CD8+ T cells limits the magnitude of the effector response and the generation of memory. PLoS Pathog. 2017 Aug; 13(8):e1006544.

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Lucinda N, Figueiredo MM, Pessoa NL, Santos BS, Lima GK, Freitas AM, Machado AM, Kroon EG, Antonelli LR, Campos MA. Dendritic cells, macrophages, NK and CD8+ T lymphocytes play pivotal roles in controlling HSV-1 in the trigeminal ganglia by producing IL1-beta, iNOS and granzyme B. Virol J. 2017 02 21; 14(1):37.

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Henssen AG, Odersky A, Szymansky A, Seiler M, Althoff K, Beckers A, Speleman F, Schäfers S, De Preter K, Astrahanseff K, Struck J, Schramm A, Eggert A, Bergmann A, Schulte JH. Targeting tachykinin receptors in neuroblastoma. Oncotarget. 2017 Jan 03; 8(1):430-443.

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Adnan S, Reeves RK, Gillis J, Wong FE, Yu Y, Camp JV, Li Q, Connole M, Li Y, Piatak M, Lifson JD, Li W, Keele BF, Kozlowski PA, Desrosiers RC, Haase AT, Johnson RP. Persistent Low-Level Replication of SIV?nef Drives Maturation of Antibody and CD8 T Cell Responses to Induce Protective Immunity against Vaginal SIV Infection. PLoS Pathog. 2016 Dec; 12(12):e1006104.

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Koscsó B, Bogunovic M. Analysis and Purification of Mouse Intestinal Dendritic Cell and Macrophage Subsets by Flow Cytometry. Curr Protoc Immunol. 2016 08 01; 114:14.39.1-14.39.14.

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Edlefsen KL, Cherian S, De Roos AJ, Getaneh A, Lessin L, Li W, Wood BL, Reiner AP. Detection of non-CLL-like monoclonal B cell lymphocytosis increases dramatically in the very elderly, while detection of CLL-like populations varies by race: findings in a multiethnic population-based cohort of elderly women. Ann Hematol. 2016 Oct; 95(10):1695-704.

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Matsumine H, Numakura K, Climov M, Watanabe Y, Giatsidis G, Orgill DP. Facial-nerve regeneration ability of a hybrid artificial nerve conduit containing uncultured adipose-derived stromal vascular fraction: An experimental study. Microsurgery. 2017 Oct; 37(7):808-818.

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Backlund CM, Takeuchi T, Futaki S, Tew GN. Relating structure and internalization for ROMP-based protein mimics. Biochim Biophys Acta. 2016 Jul; 1858(7 Pt A):1443-50.

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Gruenert AK, Czugala M, Mueller C, Schmeer M, Schleef M, Kruse FE, Fuchsluger TA. Self-Complementary Adeno-Associated Virus Vectors Improve Transduction Efficiency of Corneal Endothelial Cells. PLoS One. 2016; 11(3):e0152589.

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Orme MH, Liccardi G, Moderau N, Feltham R, Wicky-John S, Tenev T, Aram L, Wilson R, Bianchi K, Morris O, Monteiro Domingues C, Robertson D, Tare M, Wepf A, Williams D, Bergmann A, Gstaiger M, Arama E, Ribeiro PS, Meier P. The unconventional myosin CRINKLED and its mammalian orthologue MYO7A regulate caspases in their signalling roles. Nat Commun. 2016 Mar 10; 7:10972.

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