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Chapter 7c - Cellular Phenotyping and Flow Cytometry

from Chapter 7 - Tools of Molecular Medicine

Published online by Cambridge University Press:  04 June 2019

Lesley E Scott
Affiliation:
PhD (Molecular Medicine), is a senior research and development scientist in the Division of Molecular Medicine and Haematology. She focuses on designing, developing and validating molecular diagnostic/monitoring assays designed to achieve affordable CD4 and viral load testing for HIV/AIDS. She is developing a novel statistical model for method comparison.
Debbie K Glencross
Affiliation:
MB BCh, MMed (Haematology) is associate Professor in the Division of Molecular Medicine and Haematology, University of the Witwatersrand. She has an extensive flow cytometry background including both leukaemia diagnostics and development of affordable PLG-CD4 laboratory monitoring of HIV/AIDS. She has received several awards including a NSTF (National Science and Technology), a Gold NPI (National Productivity Institute) and a JPMorgan Chase Health (USA) award.
Barry Mendelow
Affiliation:
University of the Witwatersrand, Johannesburg
Michèle Ramsay
Affiliation:
University of the Witwatersrand, Johannesburg
Nanthakumarn Chetty
Affiliation:
University of the Witwatersrand, Johannesburg
Wendy Stevens
Affiliation:
University of the Witwatersrand, Johannesburg
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Summary

INTRODUCTION

A blood film prepared on a glass slide and stained with a coloured dye can be viewed under a microscope as in Figure 1. The microscope uses a light source to illuminate the slide to visualise many of the cellular components in blood such as red and white blood cells and platelets. Through the objectives the cellular components of blood are magnified and detail of the blood cells can be determined. This is the basis for histochemistry and is still widely used today. The technique called flow cytometry is in a sense the big brother to micro - scopy visualisation of blood. The light source in a flow cytometer is a laser that is more power ful than a microscope's light globe and the objectives are replaced by very sensitive light (photon) detectors, filters and mirrors. Flow cytometry is the study of cells (cytometry) like microscopy but in suspension (flow), and can investigate many more parameters of the cells all at once. In fact a flow cytometer can analyse more than 1000 events per second and store five and more parameters per event at one time.

This speed and increased information makes the flow cytometry technology attractive for research and pathology labora - tory services. Several scientific advances (fluor escent protein labelling in the 1940s; hybridoma cell fusion for monoclonal antibody reagent production in the 1980s; the development of cytofluorometer instru - men tation in the 1950s; and the design of air-cooled lasers combined with advanced, user-friendly software for personal computers in the 1960s) have made this technology available as ‘bench-top’ instruments.

A further very important advance is the organisation of the CD (clusters of differen - tiation) antigens. Several research laboratories the world over were producing monoclonal antibodies against different antigen epitopes on cell membranes and intracellular proteins.

Monoclonal antibodies are monovalent (to a single epitope) antibodies generated by an immortal hybridoma cell in tissue culture. The hybridoma cell is a fusion partner established and maintained in tissue culture between a plasma B cell and a myeloma cell. This partnership ensures continual secretion of antibodies all with the same antigen binding recognition site. Each monoclonal antibody that was manufactured had a unique name, which made comparative research on the same antigen very difficult.

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Publisher: Wits University Press
Print publication year: 2008

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  • Cellular Phenotyping and Flow Cytometry
    • By Lesley E Scott, PhD (Molecular Medicine), is a senior research and development scientist in the Division of Molecular Medicine and Haematology. She focuses on designing, developing and validating molecular diagnostic/monitoring assays designed to achieve affordable CD4 and viral load testing for HIV/AIDS. She is developing a novel statistical model for method comparison., Debbie K Glencross, MB BCh, MMed (Haematology) is associate Professor in the Division of Molecular Medicine and Haematology, University of the Witwatersrand. She has an extensive flow cytometry background including both leukaemia diagnostics and development of affordable PLG-CD4 laboratory monitoring of HIV/AIDS. She has received several awards including a NSTF (National Science and Technology), a Gold NPI (National Productivity Institute) and a JPMorgan Chase Health (USA) award.
  • Edited by Barry Mendelow, University of the Witwatersrand, Johannesburg, Michèle Ramsay, University of the Witwatersrand, Johannesburg, Nanthakumarn Chetty, University of the Witwatersrand, Johannesburg, Wendy Stevens, University of the Witwatersrand, Johannesburg
  • Book: Molecular Medicine for Clinicians
  • Online publication: 04 June 2019
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  • Cellular Phenotyping and Flow Cytometry
    • By Lesley E Scott, PhD (Molecular Medicine), is a senior research and development scientist in the Division of Molecular Medicine and Haematology. She focuses on designing, developing and validating molecular diagnostic/monitoring assays designed to achieve affordable CD4 and viral load testing for HIV/AIDS. She is developing a novel statistical model for method comparison., Debbie K Glencross, MB BCh, MMed (Haematology) is associate Professor in the Division of Molecular Medicine and Haematology, University of the Witwatersrand. She has an extensive flow cytometry background including both leukaemia diagnostics and development of affordable PLG-CD4 laboratory monitoring of HIV/AIDS. She has received several awards including a NSTF (National Science and Technology), a Gold NPI (National Productivity Institute) and a JPMorgan Chase Health (USA) award.
  • Edited by Barry Mendelow, University of the Witwatersrand, Johannesburg, Michèle Ramsay, University of the Witwatersrand, Johannesburg, Nanthakumarn Chetty, University of the Witwatersrand, Johannesburg, Wendy Stevens, University of the Witwatersrand, Johannesburg
  • Book: Molecular Medicine for Clinicians
  • Online publication: 04 June 2019
Available formats
×

Save book to Google Drive

To save content items to your account, please confirm that you agree to abide by our usage policies. If this is the first time you use this feature, you will be asked to authorise Cambridge Core to connect with your account. Find out more about saving content to Google Drive.

  • Cellular Phenotyping and Flow Cytometry
    • By Lesley E Scott, PhD (Molecular Medicine), is a senior research and development scientist in the Division of Molecular Medicine and Haematology. She focuses on designing, developing and validating molecular diagnostic/monitoring assays designed to achieve affordable CD4 and viral load testing for HIV/AIDS. She is developing a novel statistical model for method comparison., Debbie K Glencross, MB BCh, MMed (Haematology) is associate Professor in the Division of Molecular Medicine and Haematology, University of the Witwatersrand. She has an extensive flow cytometry background including both leukaemia diagnostics and development of affordable PLG-CD4 laboratory monitoring of HIV/AIDS. She has received several awards including a NSTF (National Science and Technology), a Gold NPI (National Productivity Institute) and a JPMorgan Chase Health (USA) award.
  • Edited by Barry Mendelow, University of the Witwatersrand, Johannesburg, Michèle Ramsay, University of the Witwatersrand, Johannesburg, Nanthakumarn Chetty, University of the Witwatersrand, Johannesburg, Wendy Stevens, University of the Witwatersrand, Johannesburg
  • Book: Molecular Medicine for Clinicians
  • Online publication: 04 June 2019
Available formats
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