Patrick Mulder

91 Review Inflammatory Mediators in Animal Burn Models 184. Li; Yao; He; et al. P311 Induces the Transdifferentiation of Epidermal Stem Cells to Myofibroblast-like Cells by Stimulating Transforming Growth Factor Beta1 Expression. Stem Cell Res Ther 2016, 7, 175. 185. Al-Mousawi; Kulp; Branski; et al. Impact of Anesthesia, Analgesia, and Euthanasia Technique on the Inflammatory Cytokine Profile in a Rodent Model of Severe Burn Injury. Shock 2010, 34, 261–268. 186. Li; Xu; Duan. TLR2 Affects CD86 Expression and Inflammatory Response in Burn Injury Mice through Regulation of P38. Biochem Cell Biol 2017, 95, 549–555. 187. Li; Xu; Qin; et al. Acute Pancreatic Beta Cell Apoptosis by IL-1β Is Responsible for Postburn Hyperglycemia: Evidence from Humans and Mice. Biochim. Biophys. Acta - Mol. Basis Dis. 2019, 1865, 275–284. 188. Li; Xu; Zhang. Dataset on Acute Hyperglycemia in Extensively Burned Patients and Mice. Data Br. 2018, 21, 2316–2322. 189. Li; Fan; Liu; et al. Inhibition of Notch Signaling Pathway Reduces Angiogenesis in Hypertrophic Scar. J. Cent. South Univ. (Medical Sci. 2021, 46, 1195–1202. 190. Li; Liu; Huang; et al. Repair Function of Essential Oil from Crocodylus Siamensis (Schneider, 1801) on the Burn Wound Healing via up-Regulated Growth Factor Expression and Anti-Inflammatory Effect. J. Ethnopharmacol. 2021, 264, 113286. 191. Li; Zhang; Li; et al. The Protective Effect and Mechanism of Lentinan on Acute Kidney Injury in Septic Rats. Ann. Transl. Med. 2020, 8, 883. 192. Liang; Wang; Wang; et al. Sodium Butyrate Protects against Severe Burn-Induced Remote Acute Lung Injury in Rats. PLoS One 2013, 8, e68786. 193. Liang; Song; Wu; et al. Muramyl Dipeptide Enhances Thermal Injury-Induced Inflammatory Cytokine Production and Organ Function Injury in Rats. Shock 2014, 42, 161–167. 194. Lin; Chen; Shi; et al. Therapeutic Effect and Mechanism of Oxytropis Falcata Gel on Deep Second-Degree Burn in Rats. Evid Based Complement Altern. Med 2017, 2017, 3729547. 195. Liu; Su; Zhang; et al. Downregulation of Glucocorticoid Receptors of Liver Cytosols and the Role of the Inflammatory Cytokines in Pathological Stress in Scalded Rats. Burns 2002, 28, 315–320. 196. Abbas; Ozatik; Gonen; et al. Prevention of Burn Wound Progression by Mesenchymal Stem Cell Transplantation: Deeper Insights into Underlying Mechanisms. Ann. Plast. Surg. 2018, 81, 715–724. 197. Al-Roujayee. Naringenin Improves the Healing Process of Thermally-Induced Skin Damage in Rats. J. Int. Med. Res. 2017, 45, 570–582. 198. Liu; Yao; Zhang; et al. Naturally Existing CD11c(Low)CD45RB(High) Dendritic Cells Protect Mice from Acute Severe Inflammatory Response Induced by Thermal Injury. Immunobiology 2011, 216, 47–53. 199. Liu; Yu; Hou; et al. Human Umbilical Cord Mesenchymal Stem Cells Transplantation Promotes Cutaneous Wound Healing of Severe Burned Rats. PLoS One 2014, 9, e88348. 200. Liu; Li; Yang; et al. Comparison of Systemic Inflammation Response and Vital Organ Damage Induced by Severe Burns in Different Area. Int. J. Clin. Exp. Pathol. 2015, 8, 6367–6376. 201. Liu; Ren; Chen; et al. Puerarin Attenuates Severe Burn-Induced Acute Myocardial Injury in Rats. Burns 2015, 41, 1748–1757. 202. Liu; Chen; Yang; et al. Splenectomy Attenuates Severe Thermal Trauma-Induced Intestinal Barrier Breakdown in Rats. J Huazhong Univ Sci Technol. Med Sci 2015, 35, 868–873. 203. Liu; Song; Duan; et al. TSG-6 Secreted by Human Umbilical Cord-MSCs Attenuates Severe Burn-Induced Excessive Inflammation via Inhibiting Activations of P38 and JNK Signaling. Sci. Rep. 2016, 6, 1–13. 204. Liu; Xu; Si; et al. Mitochondrial DNA-Induced Inflammatory Responses and Lung Injury in Thermal Injury Rat Model: Protective Effect of Epigallocatechin Gallate. J Burn Care Res 2017, 38, 304–311. 205. Liu; Du; Cheng; et al. Exosomal MiR-451 from Human Umbilical Cord Mesenchymal Stem Cells Attenuates Burn-Induced Acute Lung Injury. J. Chinese Med. Assoc. 2019, 82, 895–901. 206. Liu; Xu; Bi; et al. Mitochondrial DNA-Induced Inflammatory Responses and Lung Injury in Thermal Injury Murine Model: Protective Effect of Cyclosporine-A. J. Burn Care Res. 2019, 40, 355–360. 207. Liu; Liu; Peng; et al. TWEAK/Fn14 Signals Mediate Burn Wound Repair. J Invest Dermatol 2019, 139, 224–234. 208. Altavilla; Galeano; Bitto; et al. Lipid Peroxidation Inhibition by Raxofelast Improves Angiogenesis and Wound Healing in Experimental Burn Wounds. Shock 2005, 24, 85–91. 209. Liu; Xiao; Ji; et al. Camellia Cake Extracts Reduce Burn Injury through Suppressing Inflammatory Responses and Enhancing Collagen Synthesis. Food Nutr. Res. 2020, 64, 1–15. 210. Liu; Liu; Bai; et al. Protective Effect of Puerarin against Burn-Induced Heart Injury in Rats. Exp. Ther. Med. 2020, 20, 275–282. 3

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