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Items: 1 to 20 of 178

1.

Topical nanoemulsion therapy reduces bacterial wound infection and inflammation after burn injury.

Hemmila MR, Mattar A, Taddonio MA, Arbabi S, Hamouda T, Ward PA, Wang SC, Baker JR Jr.

Surgery. 2010 Sep;148(3):499-509. doi: 10.1016/j.surg.2010.01.001. Epub 2010 Mar 2.

2.

Nanoemulsion Therapy for Burn Wounds Is Effective as a Topical Antimicrobial Against Gram-Negative and Gram-Positive Bacteria.

Dolgachev VA, Ciotti SM, Eisma R, Gracon S, Wilkinson JE, Baker JR Jr, Hemmila MR.

J Burn Care Res. 2016 Mar-Apr;37(2):e104-14. doi: 10.1097/BCR.0000000000000217.

3.

Glucan phosphate treatment attenuates burn-induced inflammation and improves resistance to Pseudomonas aeruginosa burn wound infection.

Lyuksutova OI, Murphey ED, Toliver-Kinsky TE, Lin CY, Cui W, Williams DL, Sherwood ER.

Shock. 2005 Mar;23(3):224-32.

PMID:
15718919
4.

Topical p38 MAPK inhibition reduces bacterial growth in an in vivo burn wound model.

Ipaktchi K, Mattar A, Niederbichler AD, Hoesel LM, Vollmannshauser S, Hemmila MR, Minter RM, Su GL, Wang SC, Arbabi S.

Surgery. 2007 Jul;142(1):86-93.

5.

Topical p38MAPK inhibition reduces dermal inflammation and epithelial apoptosis in burn wounds.

Ipaktchi K, Mattar A, Niederbichler AD, Hoesel LM, Hemmila MR, Su GL, Remick DG, Wang SC, Arbabi S.

Shock. 2006 Aug;26(2):201-9.

PMID:
16878030
6.

Blocking TNF-α enhances Pseudomonas aeruginosa-induced mortality in burn mice through induction of IL-1β.

Tsay TB, Yang MC, Chen PH, Lai KH, Huang HT, Hsu CM, Chen LW.

Cytokine. 2013 Jul;63(1):58-66. doi: 10.1016/j.cyto.2013.04.002. Epub 2013 Apr 25.

PMID:
23623770
7.

Delayed topical p38 MAPK inhibition attenuates full-thickness burn wound inflammatory signaling.

Carter D, Warsen A, Mandell K, Cuschieri J, Maier RV, Arbabi S.

J Burn Care Res. 2014 Mar-Apr;35(2):e83-92. doi: 10.1097/BCR.0b013e31828a8d6e.

8.

An ultrathin poly(L-lactic acid) nanosheet as a burn wound dressing for protection against bacterial infection.

Miyazaki H, Kinoshita M, Saito A, Fujie T, Kabata K, Hara E, Ono S, Takeoka S, Saitoh D.

Wound Repair Regen. 2012 Jul-Aug;20(4):573-9. doi: 10.1111/j.1524-475X.2012.00811.x. Epub 2012 Jun 19.

PMID:
22712440
9.

Insulin increases resistance to burn wound infection-associated sepsis.

Gauglitz GG, Toliver-Kinsky TE, Williams FN, Song J, Cui W, Herndon DN, Jeschke MG.

Crit Care Med. 2010 Jan;38(1):202-8. doi: 10.1097/CCM.0b013e3181b43236.

10.

Improvement in survival with peptidyl membrane interactive molecule D4B treatment after burn wound infection.

Gamelli RL, He LK, Liu H, Ricken JD.

Arch Surg. 1998 Jul;133(7):715-20.

PMID:
9687998
11.

The effects of early excision and grafting on myocardial inflammation and function after burn injury.

Horton JW, Sanders B, White DJ, Maass DL.

J Trauma. 2006 Nov;61(5):1069-77.

PMID:
17099511
12.

[Reproduction of a rat model of burn with infection].

Zhang DW, Gong ZY, Peng YZ.

Zhonghua Shao Shang Za Zhi. 2011 Apr;27(2):104-8. Chinese.

PMID:
21651846
13.

Skin lipopolysaccharide-binding protein and IL-1beta production after thermal injury.

Klein RD, Su GL, Aminlari A, Zhang H, Steinstraesser L, Alarcon WH, Wang SC.

J Burn Care Rehabil. 2000 Jul-Aug;21(4):345-52.

PMID:
10935817
14.

Estrogen treatment following severe burn injury reduces brain inflammation and apoptotic signaling.

Gatson JW, Maass DL, Simpkins JW, Idris AH, Minei JP, Wigginton JG.

J Neuroinflammation. 2009 Oct 22;6:30. doi: 10.1186/1742-2094-6-30.

15.

Comparison of battlefield-expedient topical antimicrobial agents for the prevention of burn wound sepsis in a rat model.

Kauvar DS, Acheson E, Reeder J, Roll K, Baer DG.

J Burn Care Rehabil. 2005 Jul-Aug;26(4):357-61.

PMID:
16006845
16.

Burn sepsis: bacterial interference with Pseudomonas aeruginosa.

Levenson SM, Gruber DK, Gruber C, Watford A, Seifter E.

J Trauma. 1981 May;21(5):364-71.

PMID:
6785444
17.

Increased susceptibility to infection related to extent of burn injury.

Yurt RW, McManus AT, Mason AD Jr, Pruitt BA Jr.

Arch Surg. 1984 Feb;119(2):183-8.

PMID:
6421264
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