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Neonatal Satellite Cells Form Small Myotubes in Vitro
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نویسنده
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carvajal monroy p.l. ,grefte s. ,kuijpers-jagtman a.m. ,von den hoff j.w. ,wagener f.a.d.t.g.
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منبع
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journal of dental research - 2017 - دوره : 96 - شماره : 3 - صفحه:331 -338
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چکیده
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Although palatal muscle reconstruction in patients with cleft palate takes place during early childhood,normal speech development is often not achieved. we hypothesized that the intrinsic properties of head satellite cells (scs) and the young age of these patients contribute to the poor muscle regeneration after surgery. first,we studied the fiber type distribution and the expression of sc markers in ex vivo muscle tissue from head (branchiomeric) and limb (somite-derived) muscles from neonatal (2-wk-old) and young (9-wk-old) rats. next,we cultured scs isolated from these muscles for 5,7,and 9 d,and investigated the in vitro expression of sc markers,as well as changes in proliferation,early differentiation,and fusion index (myotube formation) in these cells. in our ex vivo samples,we found that virtually all myofibers in both the masseter (mass) and the levator veli palatini (lvp) muscles contained fast myosin heavy chain (myhc),and a small percentage of digastric (dig) and extensor digitorum longus myofibers also contained slow myhc. this was independent of age. more scs were found in muscles from neonatal rats as compared with young rats [17.6 (3.8%) v. 2.3 (1.6%); p < 0.0001]. in vitro,young branchiomeric head muscle (brhm) scs proliferated longer and differentiated later than limb muscle scs. no differences were found between sc cultures from the different brhms. sc cultures from neonatal muscles showed a much higher proliferation index than those from young animals at 5 d (0.8 v. 0.2; p < 0.001). in contrast,the fusion index in neonate scs was about twice as low as that in scs from young muscles at 9 d [27.6 (1.4) v. 62.8 (10.2),p < 0.0001]. in conclusion,scs from brhm differ from limb muscles especially in their delayed differentiation. scs from neonatal muscles form myotubes less efficiently than those from young muscles. these age-dependent differences in stem cell properties urge careful consideration for future clinical applications in patients with cleft palate. © international & american associations for dental research 2016.
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کلیدواژه
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cleft palate; cranio-maxillofacial surgery; craniofacial anomalies; craniofacial biology/genetics; muscle biology; stem cells
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آدرس
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department of orthodontics and craniofacial biology,radboud institute for molecular life sciences,radboud university medical center,p.o. box 9101,nijmegen, Netherlands, human and animal physiology,wageningen university,wageningen, Netherlands, department of orthodontics and craniofacial biology,radboud institute for molecular life sciences,radboud university medical center,p.o. box 9101,nijmegen, Netherlands, department of orthodontics and craniofacial biology,radboud institute for molecular life sciences,radboud university medical center,p.o. box 9101,nijmegen, Netherlands, department of orthodontics and craniofacial biology,radboud institute for molecular life sciences,radboud university medical center,p.o. box 9101,nijmegen, Netherlands
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Authors
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