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Cell Counting and Image Cytometry

Measure Passage Number-Dependent Cell Proliferation

Section

Cell-based Assays for Gene Therapy Development

Celigo Applications

Cell Counting Method Selection

Cell Counting and Image Cytometry FAQs

Cell-based Assays for Bioprocessing

Cell-based Assays for Gene Therapy Development

Cellometer Applications

Modern Virology Assays

Sub Section

AAV Vector Design

AAV Vector Transduction Efficiencies

FDA Approval for Gene Therapy

Neutralizing Antibody Screening

Topic

Measure Passage Number-Dependent Cell Proliferation

Monitor The Effect Of Cell Wash And Lysis During Cell-based Assay Preparation

Monitor Uniform Cell Seeding Density in Plates and Wells

Measure passage number-dependent cell proliferation

Researchers working with mammalian cells to develop gene therapy products do so from a frozen stock of cells that are thawed in aliquots and passaged several times. The passage number refers to the number of transfers from vessel to vessel.
Over time, this may impact cell characteristics including:

Morphology
Growth
Protein expression
Transfection efficiency

The Celigo™ image cytometer performs cell proliferation assays to identify issues and differences between culture passages that impact the consistency and predictability for downstream assays.

Target cells at high and low passage numbers were seeded in a 96-well plate at day zero and allowed to adhere overnight
The Celigo was used for whole-well imaging on the following two days to measure confluence percentages
The cell proliferation results were compared between high and low passage number cell lines

Rapid label-free cell proliferation assay

The brightfield images demonstrate clear cell growth over time (Figure 1). The identified and measured cell confluence is overlaid with a pseudo-color green fill. The brightfield images show the same well containing low-passage cells imaged 24 hours apart. Within one day, the confluence increased from 51.3% to 63.6%. The graph shows data from two different plates containing low- and high-passage cells, and the low-passage cells showed slightly higher average confluence percentage.

Measure Passage Number-Dependent Cell Proliferation

Figure 1. (a) Zoomed-in brightfield images on day one and two with pseudo-color green fill indicating cell confluence area for low-passage cell cells. (b) Confluence for low and high passage cell lines determines cell proliferation.

According to the American Type Culture Collection, “Preventing passage-related effects from influencing experiments becomes a matter of determining the passage number range under which a set of experiments can be consistently performed for a given cell line.”

The Celigo image cytometer can help researchers:

Avoid passage-related effects
Produce valid, reproducible results
Ensure good culture technique based on growth data

For research use only. Not for use in diagnostic procedures.

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