Flow Cytometry

Question 1

Define flow cytometry.

Answer 1

A system in which single cells (or beads) in a fluid suspension are analyzed in terms of their intrinsic light-scattering characteristics.

Question 2

In flow cytometry, what helps determine what proteins are present on the cell?

Answer 2

Color detectors.

Question 3

What parts of the cell is flow cytometry able to measure?

Answer 3

Cell size, granularity, surface receptors, total DNA gene expression, and intracellular proteins.

Question 4

What specimens are acceptable in flow cytometry?

Answer 4

Whole blood - EDTA or heparin (heparin increases stability time);
Bone marrow - heparin;
Tissue samples.

Question 5

Define fluorophores.

Answer 5

Fluorescent markers that detect expression of cellular molecules (e.g., proteins, nucleic acids) which accept light energy (laser).

Question 6

What types of scatter does light at two specific angles are measured by the flow cytometer?

Answer 6

Forward and side scatter (intrinsic).

Question 7

What extrinsic parameter does the flow cytometer used for cell detection?

Answer 7

Fluorescent probes.

Question 8

Define gates.

Answer 8

A system in which single cells (or beads) in a fluid suspension are analyzed in terms of their intrinsic light-scattering characteristics.

Question 9

Describe a single-parameter histogram plot.

Answer 9

Plots a chosen parameter (generally fluorescence) on the x-axis versus the number of events on the y-axis; thus, only a single parameter is analyzed using this type of graph.

Question 10

Describe a dual-parameter dot plot.

Answer 10

A bivariate histogram where each dot represents an individual cell or event. Two parameters, one on each axis, are plotted against each other.

Question 11

When analyzing a population of cells using a dual-parameter dot plot, the operator chooses which parameters to analyze on both the x- and y-axes, divides the dot plot into ___ quadrants, and separates the positive events from the negative events in each axis

Answer 11

Four.

Question 12

In quadrant analysis, the first quadrant consists of what types of cells?

Answer 12

Positive for fluorescence on the y-axis and negative for fluorescence on the x-axis.

Question 13

In quadrant analysis, the second quadrant consists of what types of cells?

Answer 13

Positive for fluorescence on both the x- and y-axes.

Question 14

In quadrant analysis, the third quadrant consists of what types of cells?

Answer 14

Negative for fluorescence on both the x- and y-axes.

Question 15

In quadrant analysis, the fourth quadrant consists of what types of cells?

Answer 15

Positive for fluorescence on the x-axis and negative for fluorescence on the y-axis.

Question 16

What are the two types of immunophenotyping?

Answer 16

Malignant and nonmalignant.

Question 17

Describe nonmalignant immunophenotyping.

Answer 17

The characterization and enumeration of normal lymphocytes, such as CD4+ T cells and CD34+ stem cells.

Question 18

Describe malignant immunophenotyping.

Answer 18

Immunophenotypic characterization of leukemias, lymphomas, and other hematopoietic disorders.