2013
DOI: 10.1089/ten.tea.2011.0111
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Three-StageEx VivoExpansion of High-Ploidy Megakaryocytic Cells: Toward Large-Scale Platelet Production

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Cited by 58 publications
(95 citation statements)
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“…PB-derived HSCs are preferable for generating platelets but the proliferation capacity is reduced once the cells are committed into megakaryopoiesis. Therefore, a multiphase culture system was proposed to allow successive goals: extensive HSC expansion, optimized MK maturation, and promotion of platelet formation (Matsunaga et al 2006;Panuganti et al 2013). Nevertheless, this strategy is applicable only to a single platelet production process.…”
Section: Low Hsc Expansionmentioning
confidence: 99%
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“…PB-derived HSCs are preferable for generating platelets but the proliferation capacity is reduced once the cells are committed into megakaryopoiesis. Therefore, a multiphase culture system was proposed to allow successive goals: extensive HSC expansion, optimized MK maturation, and promotion of platelet formation (Matsunaga et al 2006;Panuganti et al 2013). Nevertheless, this strategy is applicable only to a single platelet production process.…”
Section: Low Hsc Expansionmentioning
confidence: 99%
“…Mature MKs can reach 128 N in the body and release thousands of platelets per mature MK (Deutsch and Tomer 2006) whereas mature MKs derived from an in vitro culture rarely attain 64 N and produce less than a hundred platelets per cell (Mattia et al 2002). Several methods have been proposed to enhance megakaryopoiesis of HSCs, such as the addition of cytokine cocktails (Panuganti et al 2013;van den Oudenrijn et al 1999), chemical treatment (Avanzi et al 2012;Giammona et al 2006;Lannutti et al 2005) and oxidative stress (Mostafa et al 2000;Ojima et al 2013). These methods can improve the in vitro megakaryopoesis as confirmed by the increase in MK surface marker expression and the promoted polyploidization to up to 50 % of polyploid MKs after a week of culturing.…”
Section: Low Efficiency Of Megakaryopoiesismentioning
confidence: 99%
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