Advancing Stem Cell Research with Quantitative Live Cell Imaging
Stem cells are extremely sensitive and vulnerable to fluorescent labeling or strong laser power. The HoloMonitor live cell imaging system uses non-invasive digital holography to monitor stem cells without the need for any toxic labeling or staining. Therefore, you can image your precious stem cells for as long as you want in their native state.
A label-free live cell analysis tool
Find out how HoloMonitor can accelerate your stem cell research!
Quantify the morphological and migratory characteristics in MSCs
HoloMonitor is a novel live cell analysis tool and provides accurate quantification of morphological and migratory characteristics including cell area, thickness, migration speed and distance.
In this study, the authors compared human periosteum and donor-matched iliac crest bone marrow multipotential stromal cell (BM MSC) using the HoloMonitor single cell tracking and kinetic morphology assay. Also, they use the data to define the development of novel bone graft substitutes to be repopulated by MSCs.
Study synergistic effects between KLF2+ hMSCs and HUVECs in bone regeneration
Mesenchymal stem cells (MSCs) are undifferentiated stem cells with the potential to differentiate into multiple lineages and are widely used as cell sources in bone tissue engineering. In addition, the co-culture of MSCs with endothelial cells (ECs) has attracted a great deal of interest in the development of strategies to achieve vascularized bone in recent years.
In this publication, the authors identified Krüppel-like Factor 2 (KLF2) as a marker of MSCs related to stemness. Moreover, the results showed that KLF2+ MSCs promoted angiogenesis of human umbilical vein ECs (HUVECs), influenced its migration speed via secretion of angiogenic factors and showed an osteogenic differentiation effect.
Study osteoporosis and adipogenesis
Understanding the processes of osteogenesis
and adipogenesis of the bone marrow is remarkably important in stem cell research.
In order to get a deeper insight into the delicate equilibrium between osteogenic and adipogenic differentiation and trans-differentiation at the population level, the authors use HoloMonitor to extract quantitative biological state indicators including the average thickness (T), and the roughness kurtosis (RK) to produce a scatter plot with full osteoblasts, full adipocytes and undifferentiated hBM-MSC. Then, this T-RK plot could be in principle generalized and exploited to evaluate at a glance the effect of specific treatments or culture conditions on hBM-MSC differentiation and osteo-adipo homeostasis.
On-demand webinar
The secrets to truly controlled cell experiments for stem cell research
Learn more about why non-invasive live cell imaging is perfect for today’s stem cell research.
Discover HoloMonitor Live Cell Assays
Learn more about what you can do with HoloMonitor
Kinetic motility assay
Single cell tracking 
Cell morphology assay
Wound healing assay
Dose response assay Enable stem cell research with quantitative live cell imaging
The 48-hour time-lapse shows differentiating human induced pluripotent stem (iPS) cells.
Time-lapse of stem cells grown on microgrid arrays from Micro surfaces.
Browsing publications in stem cell research
Get inspired by other research fellows, and learn how HoloMonitor quantitative live cell imaging can benefit your stem cell research:
Mitochondrial transfer from Adipose stem cells to breast cancer cells drives multi-drug resistance
Journal: Journal of Experimental & Clinical Cancer Research (2024)
Research Areas: Cancer Research
Cell Lines: BCAHC-1, MCF-7 and MDA-MB, 231, MCF-7, MDA-MB, 231 and hASC52telo hTERT cells
Cytocentric measurement for regenerative medicine
Journal: Frontiers in Medical Technology (2023)
Research Areas: Regenerate Medicine
Living Biointerfaces for the Maintenance of Mesenchymal Stem Cell Phenotypes
Journal: Advanced functional materials (2022)
Research Areas: Stem cell research
Cell Lines: hMSC
Self-Organization of Tissue Growth by Interfacial Mechanical Interactions in Multilayered Systems
Journal: Advanced Science (2022)
Research Areas: Cell research
Cell Lines: HeLa, HepG2, MDCK, MDA-MB-231, U2OS, B16F10, and MEFs
The osteogenic commitment of CD271+CD56+ bone marrow stromal cells (BMSCs) in osteoarthritic femoral head bone
Journal: Scientific Reports (2020)
Research Areas: Stem cell research
Cell Lines: BMSC
Exosomes derived from mesenchymal stem cells repair a Parkinson’s disease model by inducing autophagy
Journal: Cell Death and Disease (2020)
Research Areas: Stem cell research
Cell Lines: hucMSC
With the HoloMonitor M4 we are able to easily distinguish different cell types by their unique size, shape, and movement patterns. We can’t wait to see what new biology we will discover with this innovative approach!
Alexander Payumo
San Jose State University