| Article ID | Journal | Published Year | Pages | File Type |
|---|---|---|---|---|
| 2093275 | Stem Cell Reports | 2016 | 12 Pages |
•Raman microspectroscopy identifies intrinsic molecular signatures of individual cells•Cardiovascular cell fate decisions can be assessed non-invasively•Chamber specificity is monitored marker-free and without genetic manipulation•Cardiac cell maturation and cell quality can be screened online in real time
SummaryOne major obstacle to the application of stem cell-derived cardiomyocytes (CMs) for disease modeling and clinical therapies is the inability to identify the developmental stage of these cells without the need for genetic manipulation or utilization of exogenous markers. In this study, we demonstrate that Raman microspectroscopy can non-invasively identify embryonic stem cell (ESC)-derived chamber-specific CMs and monitor cell maturation. Using this marker-free approach, Raman peaks were identified for atrial and ventricular CMs, ESCs were successfully discriminated from their cardiac derivatives, a distinct phenotypic spectrum for ESC-derived CMs was confirmed, and unique spectral differences between fetal versus adult CMs were detected. The real-time identification and characterization of CMs, their progenitors, and subpopulations by Raman microspectroscopy strongly correlated to the phenotypical features of these cells. Due to its high molecular resolution, Raman microspectroscopy offers distinct analytical characterization for differentiating cardiovascular cell populations.
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