Patrick Mulder

90 Chapter 3 159. Kawakami; Kaneko; Anada; et al. Measurement of Interleukin-6, Interleukin-10, and Tumor Necrosis FactorAlpha Levels in Tissues and Plasma after Thermal Injury in Mice. Surgery 1997, 121, 440–448. 160. Kawakami; Terai; Okada; et al. Changes of the Interleukin-6 Levels in Skin at Different Sites after Thermal Injury. J Trauma 1998, 44, 1056–1063. 161. Kawakami; He; Sakamoto; et al. Catecholamines Play a Role in the Production of Interleukin-6 and Interleukin-1alpha in Unburned Skin after Burn Injury in Mice. Crit Care Med 2001, 29, 796–801. 162. Khalid; Khan; Shal; et al. Suppression of TRPV1 and P2Y Nociceptors by Honokiol Isolated from Magnolia Officinalis in 3 Rd Degree Burn Mice by Inhibiting Inflammatory Mediators. Biomed. Pharmacother. 2019, 114, 108777. 163. Alexander; Daniel; Chaudry; et al. Opiate Analgesics Contribute to the Development of Post-Injury Immunosuppression. J. Surg. Res. 2005, 129, 161–168. 164. Khalil; Yahya; Abdo; et al. Emerging Approach for the Application of Hibiscus Sabdariffa Extract Ointment in the Superficial Burn Care. Sci. Pharm. 2022, 90, 41. 165. Kiang; Ledney. Skin Injuries Reduce Survival and Modulate Corticosterone, C-Reactive Protein, Complement Component 3, IgM, and Prostaglandin E 2 after Whole-Body Reactor-Produced Mixed Field (n + Gamma-Photons) Irradiation. Oxid Med Cell Longev 2013, 2013, 821541. 166. Klein; Einspanier; Bolder; et al. Differences in the Hepatic Signal Transcription Pathway and Cytokine Expression between Thermal Injury and Sepsis. Shock 2003, 20, 536–543. 167. Kovacs; Plackett; Witte. Estrogen Replacement, Aging, and Cell-Mediated Immunity after Injury. J Leukoc Biol 2004, 76, 36–41. 168. Kubo; Hayashi; Ago; et al. Temporal Expression of Wound Healing-Related Genes in Skin Burn Injury. Leg Med 2014, 16, 8–13. 169. Kumari; Harjai; Chhibber. Evidence to Support the Therapeutic Potential of Bacteriophage Kpn5 in Burn Wound Infection Caused by Klebsiella Pneumoniae in BALB/c Mice. J. Microbiol. Biotechnol. 2010, 20, 935–941. 170. Kurihara; Jones; Yu; et al. Resolvin D2 Restores Neutrophil Directionality and Improves Survival after Burns. FASEB J. 2013, 27, 2270–2281. 171. Labruto; Pernow; Yang; et al. Small Skin Burn Injury Reduces Cardiac Tolerance to Ischemia via a Tumor Necrosis Factor Alpha-Dependent Pathway. Burns 2007, 33, 606–612. 172. Lahiri; Basu; Banerjee. Changes in Histaminase Content Following Experimental Thermal Injury. Biochem. Pharmacol. 1971, 20, 3225–3230. 173. Laidding; Josh; Francisca; et al. Combination of Platelet-Rich Plasma and Stromal Vascular Fraction on the Level of Transforming Growth Factor-β in Rat Subjects Experiencing Deep Dermal Burn Injury. Ann. Med. Surg. 2020, 60, 737–742. 174. Alexander; Daniel; Chaudry; et al. T Cells of the Γδ T-Cell Receptor Lineage Play an Important Role in the Postburn Wound Healing Process. J. Burn Care Res. 2006, 27, 18–25. 175. Laidding; Josh; Battung; et al. Combination of Platelet Rich Plasma and Stromal Vascular Fraction on the Level of Vascular Endothelial Growth Factor in Rat Subjects Experiencing Deep Dermal Burn Injury. Ann. Med. Surg. 2021, 64, 102254. 176. Lateef; Stuart; Jones; et al. The Cutaneous Inflammatory Response to Thermal Burn Injury in a Murine Model. Int. J. Mol. Sci. 2019, 20, 538. 177. Lee; Jeong; Park; et al. Acupuncture Accelerates Wound Healing in Burn-Injured Mice. Burns 2011, 37, 117–125. 178. Li; Akhtar; Kovacs; et al. Inflammatory Response in Multiple Organs in a Mouse Model of Acute Alcohol Intoxication and Burn Injury. J. Burn Care Res. 2011, 32, 489–497. 179. Li; Chen; Hu; et al. Crocodile Oil Enhances Cutaneous Burn Wound Healing and Reduces Scar Formation in Rats. Acad. Emerg. Med. 2012, 19, 265–273. 180. Li; Hu; Liu; et al. Systemic Inflammatory Responses and Multiple Organ Dysfunction Syndrome Following Skin Burn Wound and Pseudomonas Aeruginosa Infection in Mice. Shock 2013, 40, 152–159. 181. Li; Cai; Zeng; et al. Protective Effect of Polydatin against Bum-Induced Lung Injury in Rats. Respir. Care 2014, 59, 1412–1421. 182. Li; Zhu; Xu; et al. Selective Decontamination of the Digestive Tract Ameliorates Severe Burn-Induced Insulin Resistance in Rats. Burns 2015, 41, 1076–1085. 183. Li; Liu; Yang; et al. Exosome Derived From Human Umbilical Cord Mesenchymal Stem Cell Mediates MiR181c Attenuating Burn-Induced Excessive Inflammation. EBioMedicine 2016, 8, 72–82.

RkJQdWJsaXNoZXIy MTk4NDMw