Your search keyword '"Marta Vilalta"' showing total 2 results

1. Biodistribution, Long-term Survival, and Safety of Human Adipose Tissue-derived Mesenchymal Stem Cells Transplanted in Nude Mice by High Sensitivity Non-invasive Bioluminescence Imaging.

Author

Marta Vilalta, Irene R. Dégano, Juli Bagó, David Gould, Mònica Santos, Mariano García-Arranz, Ramon Ayats, Carme Fuster, Yuti Chernajovsky, Damián García-Olmo, Nuria Rubio, and Jerónimo Blanco

Subjects

*PROCUREMENT of organs, tissues, etc., *TRANSPLANTATION of organs, tissues, etc., *STEM cells, *ADIPOSE tissues

Abstract

Cultivated murine bone marrow mesenchymal stem cells (MSCs) frequently accumulate chromosome abnormalities, become oncogenically transformed, and generate sarcomas when transplanted in mice. Although human MSCs appear to be more resistant, oncogenic transformation has also been observed in MSCs cultivated past the senescence phase. Cell therapy for tissue regeneration using human autologous MSCs requires transplantation of cells previously expanded in vitro. Thus, an important concern is to determine if oncogenic transformation is a necessary outcome of the expansion procedures. We have analyzed the proliferation capacity, organ colonization, and oncogenicity of enhanced green fluorescent protein and luciferase-labeled human adipose tissue-derived mesenchymal stem cells (hAMSCs), implanted in immunocompromised mice during a prolonged time period (8 months) using a non-invasive bioluminescence imaging procedure. Our data indicates that the liver was the preferred target organ for colonization by intramuscular or intravenous implantation of hAMSCs. The implanted cells tended to maintain a steady state, population did not proliferate rapidly after implantation, and no detectable chromosomal abnormalities nor tumors formed during the 8 months of residence in the host’s tissues. It would appear that hAMSCs, contrary to their murine correlatives, could be safe candidates for autologous cell therapy procedures since in our experiments they show undetectable predisposition to oncogenic transformation after cultivation in vitroand implantation in mice. [ABSTRACT FROM AUTHOR]

Published

2008

2. The relationship between serial [(18) F]PBR06 PET imaging of microglial activation and motor function following stroke in mice.

Author

Lartey, Frederick M, Ahn, G-One, Ali, Rehan, Rosenblum, Sahar, Miao, Zheng, Arksey, Natasha, Shen, Bin, Colomer, Marta Vilalta, Rafat, Marjan, Liu, Hongguang, Alejandre-Alcazar, Miguel A, Chen, John W, Palmer, Theo, Chin, Frederick T, Guzman, Raphael, Loo Jr, Billy W, Graves, Edward, and Loo, Billy W Jr

Abstract

Purpose: Using [(18) F]PBR06 positron emission tomography (PET) to characterize the time course of stroke-associated neuroinflammation (SAN) in mice, to evaluate whether brain microglia influences motor function after stroke, and to demonstrate the use of [(18) F]PBR06 PET as a therapeutic assessment tool.Procedures: Stroke was induced by transient middle cerebral artery occlusion (MCAO) in Balb/c mice (control, stroke, and stroke with poststroke minocycline treatment). [18 F]PBR06 PET/CT imaging, rotarod tests, and immunohistochemistry (IHC) were performed 3, 11, and 22 days poststroke induction (PSI).Results: The stroke group exhibited significantly increased microglial activation, and impaired motor function. Peak microglial activation was 11 days PSI. There was a strong association between microglial activation, motor function, and microglial protein expression on IHC. Minocycline significantly reduced microglial activation and improved motor function by day 22 PSI.Conclusion: [18 F]PBR06 PET imaging noninvasively characterizes the time course of SAN, and shows increased microglial activation is associated with decreased motor function. [ABSTRACT FROM AUTHOR]

Published

2014