M E Fernandez-Santos scite author profile

Genome editing on human pluripotent stem cells (hPSCs) together with the development of protocols for organ decellularization opens the door to the generation of autologous bioartificial hearts. Here we sought to generate for the first time a fluorescent reporter human embryonic stem cell (hESC) line by means of Transcription activator-like effector nucleases (TALENs) to efficiently produce cardiomyocyte-like cells (CLCs) from hPSCs and repopulate decellularized human heart ventricles for heart engineering. In our hands, targeting myosin heavy chain locus (MYH6) with mCherry fluorescent reporter by TALEN technology in hESCs did not alter major pluripotent-related features, and allowed for the definition of a robust protocol for CLCs production also from human induced pluripotent stem cells (hiPSCs) in 14 days. hPSCs-derived CLCs (hPSCs-CLCs) were next used to recellularize acellular cardiac scaffolds. Electrophysiological responses encountered when hPSCs-CLCs were cultured on ventricular decellularized extracellular matrix (vdECM) correlated with significant increases in the levels of expression of different ion channels determinant for calcium homeostasis and heart contractile function. Overall, the approach described here allows for the rapid generation of human cardiac grafts from hPSCs, in a total of 24 days, providing a suitable platform for cardiac engineering and disease modeling in the human setting.

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Comparison of Different Bone Marrow–Derived Stem Cell Approaches in Reperfused STEMI

Román¹,

Sánchez

Villa

et al. 2015

Journal of the American College of Cardiology

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Two phase I/II clinical trials for the treatment of urinary incontinence with autologous mesenchymal stem cells

García‐Arranz

Alonso-Gregorio

Fontana-Portella

et al. 2020

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We proposed to evaluate the safety and feasibility of adipose-derived mesenchymal stem cells to treat endoscopically urinary incontinence after radical prostatectomy in men or female stress urinary. We designed two prospective, nonrandomized phase I-IIa clinical trials of urinary incontinence involving 9 men (8 treated) and 10 women to test the feasibility and safety of autologous mesenchymal stem cells for this use. Cells were obtained from liposuction containing 150 to 200 g of fat performed on every patient. After 4 to 6 weeks and under sedation, endoscopic intraurethral injection of the cells was performed. On each visit (baseline, 1, 3, 6, and 12 months), clinical parameters were measured, and blood samples, urine culture, and uroflowmetry were performed. Every patient underwent an urethrocystoscopy and urodynamic studies on the first and last visit. Data from pad test, quality-of-life and incontinence questionnaires, and pads used per day were collected at every visit. Statistical analysis is made by Wilcoxon signed-rank test. No adverse effects have been collected. Three men (37.5%) and five women (50%) showed an objective improvement of >50% (P < .05) and a subjective improvement of 70% to 80% from baseline. In conclusion, intraurethral application of stem cells derived from adipose tissue is a safe and feasible procedure to treat urinary incontinence after radical prostatectomy or in female stress urinary incontinence. A statistically significant difference was obtained for pad-test improvement in 3/8 men and 5/10 women. Our results encourage studies to confirm safety and to analyze efficacy. K E Y W O R D S adipose-derived stem cells, cellular therapy, male/female urinary incontinence, phase IIa clinical trial 1 | INTRODUCTION The International Continence Society defines urinary incontinence as "any involuntary loss of urine that is a social or hygienic problem." Following benign prostatic hyperplasia surgery, a mean of 0.5% to 2%

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