Tackling ischemic reperfusion injury with the aid of stem cells and tissue engineering
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Zamorano, Mauricio
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Tackling ischemic reperfusion injury with the aid of stem cells and tissue engineering
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Abstract
Ischemia is a severe condition in which blood supply, including oxygen (O), to organs
and tissues is interrupted and reduced. This is usually due to a clog or blockage in the
arteries that feed the affected organ. Reinstatement of blood flow is essential to salvage
ischemic tissues, restoring O, and nutrient supply. However, reperfusion itself may lead
to major adverse consequences. Ischemia-reperfusion injury is often prompted by the
local and systemic inflammatory reaction, as well as oxidative stress, and contributes to
organ and tissue damage. In addition, the duration and consecutive ischemia-reperfusion
cycles are related to the severity of the damage and could lead to chronic wounds.
Clinical pathophysiological conditions associated with reperfusion events, including
stroke, myocardial infarction, wounds, lung, renal, liver, and intestinal damage or failure,
are concomitant in due process with a disability, morbidity, and mortality. Consequently,
preventive or palliative therapies for this injury are in demand. Tissue engineering offers
a promising toolset to tackle ischemia-reperfusion injuries. It devises tissue-mimetics by
using the following: (1) the unique therapeutic features of stem cells, i.e., self-renewal,
differentiability, anti-inflammatory, and immunosuppressants effects; (2) growth factors
to drive cell growth, and development; (3) functional biomaterials, to provide defined
microarchitecture for cell-cell interactions; (4) bioprocess design tools to emulate the
macroscopic environment that interacts with tissues. This strategy allows the production
of cell therapeutics capable of addressing ischemia-reperfusion injury (IRI). In addition,
it allows the development of physiological-tissue-mimetics to study this condition or to
assess the effect of drugs. Thus, it provides a sound platform for a better understanding
of the reperfusion condition. This review article presents a synopsis and discusses
tissue engineering applications available to treat various types of ischemia-reperfusions,
ultimately aiming to highlight possible therapies and to bring closer the gap between
preclinical and clinical settings.
Patrocinador
Santander Universia
Universidad de Chile
Fundacao de Amparo a Pesquisa do Estado de Sao Paulo (FAPESP) 2020/06982-3
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Frontiers in Physiology September 2021 Volume 12 Article 705256
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