570                                                                                  HUANG ET AL.


             159. Sarasu ´a, J.G., Lo ´pez, S.P., Viejo, M.A., et al. Treatment  Iglesias, G. Autologous mesenchymal stem cells and cuta-
                  of pressure ulcers with autologous bone marrow nuclear  neus autograft as a treatment for chronic ulcer secondary to
                  cells in patients with spinal cord injury. J Spinal Cord Med  diabetes mellitus 2. Cir Cir 83, 532, 2015.
                  34, 301, 2011.                                176. de Leon, J.M., Driver, V.R., Fylling, C.P., et al. The
             160. Kim, M., Rhee, J.K., Choi, H., et al. Passage-dependent  clinical relevance of treating chronic wounds with an
                  accumulation of somatic mutations in mesenchymal stro-  enhanced near-physiological concentration of platelet-rich
                  mal cells during in vitro culture revealed by whole ge-  plasma gel. Adv Skin Wound Care 24, 357, 2011.
                  nome sequencing. Sci Rep 7, 14508, 2017.      177. Hersant, B., Sid-Ahmed, M., Braud, L., et al. Platelet-rich
             161. Nikitina, V., Astrelina, T., Nugis, V., et al. Clonal chro-  plasma improves the wound healing potential of mesen-
                  mosomal and genomic instability during human multi-  chymal stem cells through paracrine and metabolism al-
                  potent mesenchymal stromal cells long-term culture.  terations. Stem Cells Int 2019, 1234263, 2019.
                  PLoS One 13, e0192445, 2018.                  178. Goodarzi, P., Falahzadeh, K., Nematizadeh, M., et al.
             162. Suzuki, K., Sun, R., Origuchi, M., et al. Mesenchymal  Tissue engineered skin substitutes. Adv Exp Med Biol
                  stromal cells promote tumor growth through the en-  1107, 143, 2018.
                  hancement of neovascularization. Mol Med 17, 579, 2011.  179. Kim, S.W., Zhang, H.Z., Guo, L., Kim, J.M., and Kim, M.H.
             163. Xie, C., Yang, Z., Suo, Y., et al. Systemically infused  Amniotic mesenchymal stem cells enhance wound healing in
                  mesenchymal stem cells show different homing profiles in  diabetic NOD/SCID mice through high angiogenic and en-
                  healthy and tumor mouse models. Stem Cells Transl Med  graftment capabilities. PLoS One 7, e41105, 2012.
                  6, 1120, 2017.                                180. Moon, K.C., Lee, J.S., Han, S.K., Lee, H.W., and Dhong,
             164. Kunter, U., Rong, S., Boor, P., et al. Mesenchymal stem  E.S. Effects of human umbilical cord blood-derived
    Downloaded by 23.227.145.6 from www.liebertpub.com at 08/10/21. For personal use only.
                  cells prevent progressive experimental renal failure but  mesenchymal stromal cells and dermal fibroblasts on di-
                  maldifferentiate into glomerular adipocytes. J Am Soc  abetic wound healing. Cytotherapy 19, 821, 2017.
                  Nephrol 18, 1754, 2007.                       181. He, X., Dong, Z., Cao, Y., et al. MSC-derived exosome
             165. Lee, S.R., Lee, S.H., Moon, J.Y., et al. Repeated admin-  promotes M2 polarization and enhances cutaneous wound
                  istration of bone marrow-derived mesenchymal stem cells  healing. Stem Cells Int 2019, 7132708, 2019.
                  improved the protective effects on a remnant kidney  182. Shi, Q., Qian, Z., Liu, D., et al. GMSC-derived exosomes
                  model. Ren Fail 32, 840, 2010.                    combined with a chitosan/silk hydrogel sponge accelerates
             166. Miryounesi, M., Piryaei, A., Pournasr, B., Aghdami, N.,  wound healing in a diabetic rat skin defect model. Front
                  and Baharvand, H. Repeated versus single transplantation  Physiol 8, 904, 2017.
                  of mesenchymal stem cells in carbon tetrachloride-  183. Ren, S., Chen, J., Duscher, D., et al. Microvesicles from
                  induced liver injury in mice. Cell Biol Int 37, 340, 2013.  human adipose stem cells promote wound healing by
             167. Xu, J.Y., Liu, D., Zhong, Y., and Huang, R.C. Effects of  optimizing cellular functions via AKT and ERK signaling
                  timing on intracoronary autologous bone marrow-derived  pathways. Stem Cell Res Ther 10, 47, 2019.
                  cell transplantation in acute myocardial infarction: a meta-  184. Trinh, N.T., Yamashita, T., Tu, T.C., et al. Microvesicles en-
                  analysis of randomized controlled trials. Stem Cell Res  hance the mobility of human diabetic adipose tissue-derived
                  Ther 8, 231, 2017.                                mesenchymal stem cells in vitro and improve wound healing
             168. Hu, X., Wang, J., Chen, J., et al. Optimal temporal delivery  in vivo. Biochem Biophys Res Commun 473, 1111, 2016.
                  of bone marrow mesenchymal stem cells in rats with myo-  185. Maksimova, N., Krasheninnikov, M., Zhang, Y., et al.
                  cardial infarction. Eur J Cardiothorac Surg 31, 438, 2007.  Early passage autologous mesenchymal stromal cells ac-
             169. Tian, C., Wang, X., Wang, X., et al. Autologous bone  celerate diabetic wound re-epithelialization: a clinical case
                  marrow mesenchymal stem cell therapy in the subacute  study. Cytotherapy 19, 1548, 2017.
                  stage of traumatic brain injury by lumbar puncture. Exp  186. Hashemi, S.S., Mohammadi, A.A., Kabiri, H., et al. The
                  Clin Transplant 11,176, 2013.                     healing effect of Wharton’s jelly stem cells seeded on
             170. Kim, I., Lee, S.K., Yoon, J.I., Kim, D.E., Kim, M., and  biological scaffold in chronic skin ulcers: a randomized
                  Ha, H. Fibrin glue improves the therapeutic effect of  clinical trial. J Cosmet Dermatol 18, 1961, 2019.
                  MSCs by sustaining survival and paracrine function.
                  Tissue Eng Part A 19, 2373, 2013.                                      Address correspondence to:
             171. Leach, J.K., and Whitehead, J. Materials-directed differ-                   Hui-Qi Xie, MD, PhD
                  entiation of mesenchymal stem cells for tissue engineering  Laboratory of Stem Cell and Tissue Engineering
                  and regeneration. ACS Biomater Sci Eng 4, 1115, 2018.               Orthopaedic Research Institute
             172. Qazi, T.H., Mooney, D.J., Duda, G.N., and Geissler, S.  State Key Laboratory of Biotherapy and Cancer Center
                  Biomaterials that promote cell-cell interactions enhance the                 West China Hospital
                  paracrine function of MSCs. Biomaterials 140, 103, 2017.       Sichuan University and Collaborative
             173. Chu, J., Shi, P., Deng, X., et al. Dynamic multiphoton             Innovation Center of Biotherapy
                  imaging of acellular dermal matrix scaffolds seeded with                     No. 1 Ke-Yuan-Si-Lu
                  mesenchymal stem cells in diabetic wound healing. J                           Gao-Peng-Da-Dao
                  Biophotonics 11, e201700336, 2018.                                              Chengdu 610041
             174. Tong, C., Hao, H., Xia, L., et al. Hypoxia pretreatment of                               China
                  bone marrow-derived mesenchymal stem cells seeded in a
                  collagen-chitosan sponge scaffold promotes skin wound                 E-mail: xiehuiqi@scu.edu.cn
                  healing in diabetic rats with hindlimb ischemia. Wound
                  Repair Regen 24, 45, 2016.                                              Received: January 3, 2020
                                           ´
             175. Benı ´tez-Arvı ´zu,G., Palma-Lara,I., Vazquez-Campos, R.,               Accepted: March 19, 2020
                  Sesma-Villalpando, R.A., Parra-Barrera, A., and Gutie ´rrez-  Online Publication Date: May 22, 2020