93 Review Inflammatory Mediators in Animal Burn Models 236. Neely; Hoover; Holder; et al. Circulating Levels of Tumour Necrosis Factor, Interleukin 6 and Proteolytic Activity in a Murine Model of Burn and Infection. Burns 1996, 22, 524–530. 237. Nie; Yu; Wang; et al. Pro-Inflammatory Effect of Obesity on Rats with Burn Wounds. PeerJ 2020, 8, e10499. 238. Niederbichler; Papst; Claassen; et al. Burn-Induced Organ Dysfunction: Vagus Nerve Stimulation Attenuates Organ and Serum Cytokine Levels. Burns 2009, 35, 783–789. 239. Nishimura; Nishiura; DeSerres; et al. Impact of Burn Injury on Hepatic TGF-Β1 Expression and Plasma TGF-Β1 Levels. J. Trauma - Inj. Infect. Crit. Care 2000, 48, 39–44. 240. Noel; Ramser; Pitstick; et al. M-CSF Supports Medullary Erythropoiesis and Erythroid Iron Demand Following Burn Injury through Its Activity on Homeostatic Iron Recycling. Sci. Rep. 2022, 12, 1–14. 241. Ando; ISONO; Kubota; et al. [Study on ear burn model in mice and its significant application]. Nihon Yakurigaku Zasshi 1990, 96, 323–332. 242. Oba; Okabe; Yoshida; et al. Hyperdry Human Amniotic Membrane Application as a Wound Dressing for a Full-Thickness Skin Excision after a Third-Degree Burn Injury. Burn. trauma 2020, 8, 1–18. 243. Ohzato; Monden; Yoshizaki; et al. Systemic Production of Interleukin-6 Following Acute Inflammation. Biochem. Biophys. Res. Commun. 1993, 197, 1556–1562. 244. Oppeltz; Rani; Zhang; et al. Gamma Delta (Gammadelta) T-Cells Are Critical in the up-Regulation of Inducible Nitric Oxide Synthase at the Burn Wound Site. Cytokine 2012, 60, 528–534. 245. Orman; Nguyen; Ierapetritou; et al. Comparison of the Cytokine and Chemokine Dynamics of the Early Inflammatory Response in Models of Burn Injury and Infection. Cytokine 2011, 55, 362–371. 246. Ozcan; Ipekci; Alev; et al. Protective Effect of Myrtle (Myrtus Communis) on Burn Induced Skin Injury. Burns 2019, 45, 1856–1863. 247. Ozveri; Bozkurt; Haklar; et al. Estrogens Ameliorate Remote Organ Inflammation Induced by Burn Injury in Rats. Inflamm. Res. 2001, 50, 585–591. 248. Pallua; von Heimburg. Pathogenic Role of Interleukin-6 in the Development of Sepsis. Part I: Study in a Standardized Contact Burn Murine Model. Crit. Care Med. 2003, 31, 1490–1494. 249. Patil; Luan; Bohannon; et al. Frontline Science: Anti-PD-L1 Protects against Infection with Common Bacterial Pathogens after Burn Injury. J. Leukoc. Biol. 2018, 103, 23–33. 250. Pejnovic; Lilic; Zunic; et al. Aberrant Levels of Cytokines within the Healing Wound after Burn Injury. Arch. Surg. 1995, 130, 999–1006. 251. Peter; Schuschke; Barker; et al. The Effect of Severe Burn Injury on Proinflammatory Cytokines and Leukocyte Behavior: Its Modulation with Granulocyte Colony-Stimulating Factor. Burns 1999, 25, 477–486. 252. Avlan; Taşkinlar; Tamer; et al. Protective Effect of Trapidil against Oxidative Organ Damage in Burn Injury. Burns 2005, 31, 859–865. 253. Peterson; Costantini; Loomis; et al. Toll-like Receptor-4 Mediates Intestinal Barrier Breakdown after Thermal Injury. Surg. Infect. (Larchmt). 2010, 11, 137–144. 254. Preet; Kaur; Raza. Nisin Loaded Carbopol Gel against Pseudomonas Aeruginosa Infected Third-Degree Burns: A Therapeutic Intervention. Wound Repair Regen. 2021, 29, 711–724. 255. Qian; Evani; Chen; et al. Cerium Nitrate Treatment Provides Eschar Stabilization through Reduction in Bioburden, DAMPs, and Inflammatory Cytokines in a Rat Scald Burn Model. J. Burn Care Res. 2020, 41, 576–584. 256. Qin; Jiang; Chen; et al. Dexmedetomidine Protects against Burn-Induced Intestinal Barrier Injury via the MLCK/p-MLC Signalling Pathway. Burns 2021, 47, 1576–1585. 257. Rani; Zhang; Schwacha. Gamma Delta T Cells Regulate Wound Myeloid CELL Activity After Burn. Shock 2014, 42, 133–141. 258. Rani; Nicholson; Zhang; et al. Damage-Associated Molecular Patterns (DAMPs) Released after Burn Are Associated with Inflammation and Monocyte Activation. Burns 2017, 43, 297–303. 259. Ren; Du; Dong; et al. Autologous Platelet-Rich Plasma Repairs Burn Wound and Reduces Burn Pain in Rats. J. Burn Care Res. 2022, 43, 263–268. 260. Reyes; Wu; Lai; et al. Early Inflammatory Response in Rat Brain after Peripheral Thermal Injury. Neurosci. Lett. 2006, 407, 11–15. 261. Rocha; Eduardo-Figueira; Barateiro; et al. Erythropoietin Reduces Acute Lung Injury and Multiple Organ Failure/Dysfunction Associated to a Scald-Burn Inflammatory Injury in the Rat. Inflammation 2015, 38, 312–326. 3
RkJQdWJsaXNoZXIy MTk4NDMw