Reuse cells
to save your time and money
Multiple assays
from one single cell sample
Accurate results
with direct cell count
Why Quantitative Cell Imaging Over MTT Assay?
Live Cell Imaging
- Label-free
- Direct cell count
- No preparation needed
- Real-time assay
- Single-cell resolution
- Quantitative
MTT assay
- Cytotoxic
- Indirect metabolism activity
- Reagent preparation needed
- Endpoint assay
- Only population-level data
- Qualitative
Meet HoloMonitor®
Our Live Cell Imaging Microscope
- Label-free and high automation
- More biological relevant and less labor-intensive
- Real-time monitoring directly from the incubator
- Robust system with standard cell culture vessels
Use your cells for more than proliferation
HoloMonitor’s cell-friendly nature makes it an ideal tool for viewing and analyzing live cell cultures. All HoloMonitor live cell assays are label-free, reducing the risk of unwanted toxicity and allowing cell samples to be reused. Hence, HoloMonitor saves your time and money. But foremost, save hard-to-get cells.
Get multiple results from just one sample
Achieve better cell proliferation data
Unlike the MTT assay, which only gives end-point data, HoloMonitor measures kinetic cellular characteristics at multiple time points in real-time. Hence, you can simultaneously compare the temporal effects of multiple treatments and/or conditions. Moreover, you can re-analyze your results with other HoloMonitor assays to generate more data without setting up new experiments.
Proliferation data with quantitative imaging
- Real-time growth curves with or without normalization:
- Cell count (cells/cm2)
- Confluence (%)
- Multiwell cell images and time-lapse videos
Get accurate data with digital holography
HoloMonitor uses digital holographic microscopy to collect publication-quality images without any labels. In addition, you receive accurate quantitative data. This way, you can study over 30 cell morphology parameters from a single sample and quantify cell behavior changes on both single-cell and population levels.
Bring Quantitative Imaging To Your Incubator
Publications with cell proliferation studies
Get inspired by other research fellows and learn how HoloMonitor quantitative live cell imaging can benefit your cell proliferation study
BRAFV600E induces reversible mitotic arrest in human melanocytes via microRNA-mediated suppression of AURKB
Authors: McNeal et al. Journal: eLife (2021)
In this study, to investigate why the same mutation has such different consequences in moles and melanomas, the authors using HoloMonitor studied cell proliferation, cell dry mass, cell death and cell growth rate. The experiments showed by increasing the levels of two microRNAs in melanocytes induces mitotic failure, genome duplication, and proliferation arrest. BRAFV600E induces a similar proliferation arrest in primary human melanocytes that is both reversible and conditional depending on the differentiation state of the melanocyte. Read more…
Targeted Delivery of Combination Therapeutics Using Monoclonal Antibody 2C5-Modified Immunoliposomes for Cancer Therapy
Authors: R. Narayanaswamy et al. Journal: Pharmaceutical Research (2021)
In this study, the authors have used monoclonal antibody-modified immunoliposomes for the targeted delivery of paclitaxel and salinomycin for cancer therapy. By using HoloMonitor M4, the authors measured the cell morphology, proliferation and cell division change between treatments, the results confirmed the efficacy of the antibody-targeted liposomal preparation in the therapy of cancer by giving significantly better cellular division arrest profiles and cell death. Read more…
More Featured Publications
Digital Holographic Imaging as a Method for Quantitative, Live Cell Imaging of Drug Response to Novel Targeted Cancer Therapies
Journal: Theranostics: Methods and Protocols (2019)
Research Areas: Cancer research
Cell Lines: HeLa
Exploring the Natural Piericidins as Anti-Renal Cell Carcinoma Agents Targeting Peroxiredoxin 1
Journal: Journal of Medical Chemistry (2019)
Research Areas: Cytotoxicity
Cell Lines: ACHN
In vitro SOD-like activity of mono- and di-copper complexes with a phosphonate substituted SALAN-type ligand
Journal: Chemico – Biological Interactions (2019)
Research Areas: Cytotoxicity
Cell Lines: MC3T3-E1
Digital Holographic Cytometry: Macrophage Uptake of Nanoprobes
Journal: Imaging & Microscopy (2019)
Research Areas: Cytotoxicity
Cell Lines: RAW 264, 7
Biomimetic dextran-based hydrogel layers for cell micropatterning over large areas using FluidFM BOT technology
Journal: Langmuir (2019)
Research Areas: Biotechnology
Cell Lines: HeLa
A Time-lapse, Label-free, Quantitative Phase Imaging Study of Dormant and Active Human Cancer Cells
Journal: JoVe (video journal) (2018)
Research Areas: Cancer Research
Cell Lines: KHOS