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©The Author(s) 2022.
World J Stem Cells. Apr 26, 2022; 14(4): 287-302
Published online Apr 26, 2022. doi: 10.4252/wjsc.v14.i4.287
Published online Apr 26, 2022. doi: 10.4252/wjsc.v14.i4.287
Table 1 Studies investigating the effects of secretomes from dental pulp stem cells, stem cells from human exfoliated deciduous teeth, periodontal ligament stem cells, stem cells from apical papilla, dental follicle stem cells, gingiva-derived mesenchymal stem cells and tooth germ progenitor cells for tissue regeneration
Type of DMSC | Ref. |
Dental pulp stem cells | Kumar[33], 2017; Kumar[34], 2018; Kumar[35], 2017; Gervois[36], 2017; Horibe[37], 2014; Zhou[38], 2020; Venugopal[39], 2018; Caseiro[40], 2019; Shen[41], 2015; Mead[42], 2014; Wada[43], 2009; Kolar[44], 2017; Bronckaers[45], 2013; Paschalidis[46], 2014; Piva[47], 2017; Gharaei[48], 2018; Murakami[49], 2013; Li[50], 2019; Yamamoto[51], 2014; Sakai[52], 2012; Hu[53], 2019; Wang[17], 2019; Nakayama[54], 2017; Merckx[55], 2020; Swanson[56], 2020; Gervois[57], 2019; Ivica[58], 2020; Zhang[59], 2020; Yamamoto[60], 2016; Ahmed[13], 2016; Xian[61], 2018; Song[62], 2015; Joo[63], 2018; Shen[64], 2020; Akazawa[65], 2015; De rosa[66], 2011; Ji[67], 2019; Aranha[68], 2010; Huang[69], 2016; Lambricht[70], 2017; Iohara[71], 2008; Ishizaka[72], 2013; Kawamura[73], 2016; Hayashi[74], 2015; Iohara[75], 2014; Iohara[76], 2013; Murakami[77], 2015; Omi[78], 2017; Makino[79], 2019; Omi[80], 2016; Chen[81], 2019 |
Stem cells from human exfoliated deciduous teeth | Li[82], 2017; Pivoraite[25], 2015; Jarmalaviciute[16], 2015; Kano[83], 2017; Matsubara[84], 2015; Matsushita[21], 2017; Omori[27], 2015; Yamagata[85], 2013; Fujii[86], 2015; Tsuruta[87], 2018; Shimojima[24], 2016; Yamaguchi[19], 2015; Sugimura-Wakayama[88], 2015; Han[89], 2020; Sakai[52], 2012; Yamamoto[51], 2014; Chen[15], 2020; Mussano[90], 2018; Gunawardena[31], 2019; De cara[29], 2019; Wang[91], 2020; Hiraki[28], 2020; Miura-Yura[92], 2020; Ishikawa[26], 2016; Wakayama[23], 2015; Izumoto-Akita[20], 2015; Ogasawara[93], 2020; Sakai[94], 2020; Hirata[22], 2016; Asadi-Golshan[14], 2018; Mita[18], 2015; Inoue[95], 2013; Wei[96], 2020; Li[97], 2019 |
Periodontal ligament stem cells | Kang[98], 2018; Diomede[99], 2018; Aghamohamadi[100], 2020; Kolar[44], 2017; Nagata[101], 2017; Cianci[102], 2016; Wada[43], 2009; Qiu[30], 2020; Zhang[103], 2020 |
Stem cells from apical papilla | Kolar[44], 2017; Kumar[35], 2017; Kumar[33], 2017; Kumar[34], 2018; Bakopoulou[104], 2015; Zhuang[105], 2020; Yu[106], 2016; Yu[107], 2020; Yu[108], 2020 |
Dental follicule stem cells | Kumar[35], 2017; Kumar[33], 2017; Kumar[34], 2018; Chen[109], 2018; Wen[110], 2015; Wen[111], 2011; Liu[112], 2014; Wu[113], 2013 |
Gingiva-derived mesenchymal stem cells | Jin[114], 2020; Qiu[30], 2020; Mao[115], 2019; Wang[116], 2020; Zhang[117], 2019; Rajan[118], 2017; Rao[119], 2019, Diomede[120], 2018; Silvestro[121], 2020 |
Tooth germ progenitor cells | Wang[122], 2011; Huo[123], 2010; Ye[124], 2015; Yu[125], 2006; Shan[126], 2015; Yang[127], 2009; Yang[128], 2009 |
- Citation: Chouaib B, Cuisinier F, Collart-Dutilleul PY. Dental stem cell-conditioned medium for tissue regeneration: Optimization of production and storage. World J Stem Cells 2022; 14(4): 287-302
- URL: https://www.wjgnet.com/1948-0210/full/v14/i4/287.htm
- DOI: https://dx.doi.org/10.4252/wjsc.v14.i4.287