Fayyazbakhsh, et al.
               institutional  Analysis of Independent Predictors for Burn   16.  Manning JH, Stark JH, 1977, Diester Crosslinked Polyglucan
               Mortality in the United States. Burns Trauma, 6:24.  Hydrogels and Reticulated Sponges Thereof. Google Patents.
               https://doi.org/10.1186/s41038-018-0127-y       17.  Kamoun  EA,  Kenawy  ER,  Chen  X,  2017,  A  Review  on
           5.   Yu TC, Zhang X, Smiell J, et al., 2020, Healthcare Resource   Polymeric Hydrogel Membranes for  Wound Dressing
               Utilization,  Treatment Patterns, and Cost of Care  Among   Applications:  PVA-based Hydrogel Dressings.  J  Adv Res,
               Patients  with Thermal  Burns and Inpatient Autografting  in   8:217–33.
               Two Large Privately Insured Populations in the United States.      https://doi.org/10.1016/j.jare.2017.01.005
               Burns, 46:825–35.                               18.  Lee  WR, Park JH, Kim KH,  et al., 2009,  The Biological
               https://doi.org/10.1016/j.burns.2019.10.019         Effects of Topical Alginate Treatment in an Animal Model of
           6.   Gonzalez AC, Costa TF, Andrade ZD, et al., 2016, Wound   Skin Wound Healing. Wound Repair Regen, 17:505–10.
               Healing a Literature Review. An Bras Dermatol, 91:614–20.     https://doi.org/10.1111/j.1524-475X.2009.00496.x
               https://doi.org/10.1590/abd1806-4841.20164741   19.  Abbasi AR, Sohail M, Minhas MU, et al., 2020, Bioinspired
           7.   Han G, Ceilley R, 2017, Chronic Wound Healing: A Review of   Sodium  Alginate  Based  Thermosensitive  Hydrogel
               Current Management and Treatments. Adv Ther, 34:599–610.  Membranes for  Accelerated  Wound Healing.  Int J Biol
               https://doi.org/10.1007/s12325-017-0478-y           Macromol, 155:751–65.
           8.   Dhaliwal K, Lopez N, 2018, Hydrogel Dressings and their      https://doi.org/10.1016/j.ijbiomac.2020.03.248
               Application  in  Burn  Wound Care.  Br J  Community  Nurs,   20.  Etxabide A, Vairo C, Santos-Vizcaino E, et al., 2017, Ultra
               23:S24–7.                                           Thin Hydro-films Based on Lactose-crosslinked Fish Gelatin
               https://doi.org/10.12968/bjcn.2018.23.Sup9.S24      for Wound Healing Applications. Int J Pharm, 530:455–67.
           9.   Kordestani  SS, 2019,  Atlas of  Wound Healing-E-Book:      https://doi.org/10.1016/j.ijpharm.2017.08.001
               A Tissue Regeneration Approach. Amsterdam, Netherlands:   21.  Afjoul H, Shamloo  A, Kamali  A, 2020, Freeze-gelled
               Elsevier.                                           Alginate/Gelatin Scaffolds for Wound Healing Applications:
           10.  Rowan MP, Cancio LC, Elster EA, et al., 2015, Burn wound   An In Vitro, In Vivo Study. Mater Sci Eng C Mater Biol Appl,
               Healing and  Treatment:  Review and  Advancements.  Crit   113:110957.
               Care, 19:243.                                       https://doi.org/10.1016/j.msec.2020.110957
               https://doi.org/10.1186/s13054-015-0961-2       22.  Augustine R, 2018, Skin Bioprinting: A Novel Approach for
           11.  Auger FA, Lacroix D, Germain L, 2009, Skin Substitutes and   Creating Artificial Skin from Synthetic and Natural Building
               Wound Healing. Skin Pharmacol Physiol, 22:94–102.   Blocks. Prog Biomater, 7:77–92.
               https://doi.org/10.1159/000178868                   https://doi.org/10.1007/s40204-018-0087-0
           12.  Shpichka A, Butnaru D, Bezrukov EA,  et al., 2019, Skin   23.  Velasquillo  C, Galue  EA, Rodriquez  L,  et  al., 2013, Skin
               Tissue Regeneration for Burn Injury.  Stem Cell Res Ther,   3D Bioprinting.  Applications  in Cosmetology.  J  Cosmet
               10:94.                                              Dermatol Sci Appl, 3:85–9.
               https://doi.org/10.1186/s13287-019-1203-3       24.  He P, Zhao  J, Zhang  J,  et  al., 2018, Bioprinting  of Skin
           13.  Sood A, Granick MS, Tomaselli NL, 2014, Wound Dressings   Constructs for Wound Healing. Burns Trauma, 6:5.
               and Comparative Effectiveness Data. Adv Wound Care (New      https://doi.org/10.1186/s41038-017-0104-x
               Rochelle), 3:511–29.                            25.  Fayyazbakhsh F, Leu  MC, 2020,  A Brief  Review on 3D
               https://doi.org/10.1089/wound.2012.0401             Bioprinted Skin Substitutes. Procedia Manuf, 48:790–6.
           14.  Selig HF, Lumenta DB, Giretzlehner M, et al., 2012, The      https://doi.org/10.1016/j.promfg.2020.05.115
               Properties of an “ideal” Burn Wound Dressing-what do we   26.  Ding H, Chang RC, 2018, Simulating Image-guided In Situ
               Need in Daily Clinical Practice? Results of a  Worldwide   Bioprinting  of a Skin Graft Onto a Phantom  Burn Wound
               Online Survey  Among Burn Care Specialists.  Burns,   Bed. Addit Manuf, 22:708–19.
               38:960–6.                                           https://doi.org/10.1016/j.addma.2018.06.022
               https://doi.org/10.1016/j.burns.2012.04.007     27.  Navarro J, Clohessy RM, Holder RC, et al., 2020, In Vivo
           15.  Zhu Y, Ma Z, Kong L, et al., 2020, Modulation of Macrophages   Evaluation  of  Three-dimensional  Printed,  Keratin-based
               by Bioactive Glass/Sodium Alginate Hydrogel is Crucial in   Hydrogels in a Porcine  Thermal  Burn Model.  Tissue Eng
               Skin Regeneration Enhancement. Biomaterials, 256:120216.  Part A, 26:265–78.
               https://doi.org/10.1016/j.biomaterials.2020.120216     https://doi.org/10.1089/ten.TEA.2019.0181

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