Body Fluid-Derived Stem Cells: Powering Innovative, Less-Invasive Cell Therapies DOI Open Access
Arthur J. Goff, Xinyue Zhang, Biju B. Thomas

et al.

International Journal of Molecular Sciences, Journal Year: 2025, Volume and Issue: 26(9), P. 4382 - 4382

Published: May 5, 2025

Stem cell therapy offers significant promise for tissue regeneration and repair. Traditionally, bone marrow- adipose-derived stem cells have served as primary sources, but their clinical use is limited by invasiveness low yield. This review focuses on body fluid-derived an emerging, non-invasive, readily accessible alternative. We examine isolated from amniotic fluid, peripheral blood, cord menstrual urine, synovial breast milk, cerebrospinal highlighting unique biological properties therapeutic potential. By comparing characteristics barriers to translation, we propose a promising source regenerative applications, with continued research needed fully achieve utility.

Language: Английский

Body Fluid-Derived Stem Cells: Powering Innovative, Less-Invasive Cell Therapies DOI Open Access
Arthur J. Goff, Xinyue Zhang, Biju B. Thomas

et al.

International Journal of Molecular Sciences, Journal Year: 2025, Volume and Issue: 26(9), P. 4382 - 4382

Published: May 5, 2025

Stem cell therapy offers significant promise for tissue regeneration and repair. Traditionally, bone marrow- adipose-derived stem cells have served as primary sources, but their clinical use is limited by invasiveness low yield. This review focuses on body fluid-derived an emerging, non-invasive, readily accessible alternative. We examine isolated from amniotic fluid, peripheral blood, cord menstrual urine, synovial breast milk, cerebrospinal highlighting unique biological properties therapeutic potential. By comparing characteristics barriers to translation, we propose a promising source regenerative applications, with continued research needed fully achieve utility.

Language: Английский

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