K. P. Dempsey scite author profile

Within the field of tissue engineering there is an emphasis on studying 3-D live tissue structures. Consequently, to investigate and identify cellular activities and phenotypes in a 3-D environment for all in vitro experiments, including shape, migration/proliferation and axon projection, it is necessary to adopt an optical imaging system that enables monitoring 3-D cellular activities and morphology through the thickness of the construct for an extended culture period without cell labeling. This paper describes a new 3-D tracking algorithm developed for Cell-IQ®, an automated cell imaging platform, which has been equipped with an environmental chamber optimized to enable capturing time-lapse sequences of live cell images over a long-term period without cell labeling. As an integral part of the algorithm, a novel auto-focusing procedure was developed for phase contrast microscopy equipped with 20x and 40x objectives, to provide a more accurate estimation of cell growth/trajectories by allowing 3-D voxels to be computed at high spatiotemporal resolution and cell density. A pilot study was carried out in a phantom system consisting of horizontally aligned nanofiber layers (with precise spacing between them), to mimic features well exemplified in cellular activities of neuronal growth in a 3-D environment. This was followed by detailed investigations concerning axonal projections and dendritic circuitry formation in a 3-D tissue engineering construct. Preliminary work on primary animal neuronal cells in response to chemoattractant and topographic cue within the scaffolds has produced encouraging results.

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Monitoring stem cells in phase contrast imaging

Lam

Dempsey

Collins

et al. 2016

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Understanding the mechanisms behind the proliferation of Mesenchymal Stem cells (MSCs) can offer a greater insight into the behaviour of these cells throughout their life cycles. Traditional methods of determining the rate of MSC differentiation rely on population based studies over an extended time period. However, such methods can be inadequate as they are unable to track cells as they interact; for example, in autologous cell therapies for osteoarthritis, the development of biological assays that predict in vivo functional activity and biological action are particularly challenging. Here further research is required to determine non-histochemical biomarkers which provide correlations between cell survival and predictive functional outcome. This paper proposes using a (previously developed) advanced texture-based analysis techniqueto facilitate in vitro cells tracking usingtimelapsed microscopy. The technique was adopted to monitorstem cells in the context of unlabelled, phase contrast (PC) imaging, with the goal of examiningthe cell to cell interactions in both monoculture and co-culture systems. The results obtained are analysed using established exploratory procedures developed for time series data and compared with the typical fluorescent-based approach of cell labelling. A review of the progress and the lessons learned are also presented.

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On measuring cell confluence in phase contrast microscopy

Dempsey¹,

Richardson²,

Lam³

2014

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879 Mitogenic effect of IL-13 in bovine airway smooth muscle cells (ASMC)

Lew¹,

Lyles²,

Dempsey³

et al. 2000

Journal of Allergy and Clinical Immunology

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K. P. Dempsey

Lack of <i>Rbl</i>1/p107 Effects on Cell Proliferation and Maturation in the Inner Ear

Label free cell tracking in 3D tissue engineering constructs with high resolution imaging

Monitoring stem cells in phase contrast imaging

On measuring cell confluence in phase contrast microscopy

879 Mitogenic effect of IL-13 in bovine airway smooth muscle cells (ASMC)

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K. P. Dempsey

Lack of &lt;i&gt;Rbl&lt;/i&gt;1/p107 Effects on Cell Proliferation and Maturation in the Inner Ear

Label free cell tracking in 3D tissue engineering constructs with high resolution imaging

Monitoring stem cells in phase contrast imaging

On measuring cell confluence in phase contrast microscopy

879 Mitogenic effect of IL-13 in bovine airway smooth muscle cells (ASMC)

Contact Info

Product

Resources

About

Lack of <i>Rbl</i>1/p107 Effects on Cell Proliferation and Maturation in the Inner Ear