[Ajiki T, Murakami T, Kobayashi Y, Hakamata Y, Wang J, Inoue S, Ohtsuki M, Nakagawa H, Kariya Y, Hoshino Y, Kobayashi E. Long-lasting gene expression by particle-mediated intramuscular transfection modified with bupivacaine: combinatorial gene therapy with IL-12 and IL-18 cDNA against rat sarcoma at a distant site // Cancer Gene Ther, 2003; 10:318-32910.1038/sj.cgt.770057512679805]Search in Google Scholar
[Aydin ON, Evigor M, Aydin M. Antimicrobial activity of ropivacaine and other local anaesthetics // Eur J Anaesth, 2001; 18:687-69410.1097/00003643-200110000-00008]Search in Google Scholar
[Azuma Y, Ohura K. Immunological modulation by lidocaine-epinephrine and prilocaine-felypressin on the functions related to natural immunity in neutrophils and macrophages // Curr Drug Targ Imm Endocr Metabol Disord, 2004; 4:29-3610.2174/156800804333997415032623]Search in Google Scholar
[Bartlett EE, Hutaserani O. Xylocaine for the relief of postoperative pain // Anesth Analg, 1961; 40: 296-30410.1213/00000539-196105000-00011]Search in Google Scholar
[Cassuto J, Sinclair R, Bonderovic M. Anti-inflammatory properties of local anaesthetics and their present and potential clinical implications // Acta Anaesth Scand, 2006; 50:265-28210.1111/j.1399-6576.2006.00936.x16480459]Search in Google Scholar
[Daisy TJ, Gail KW. Drug interactions: lipoxygenase inhibitors interfere with ropivacaine induced vasoconstriction // Can J Anesth, 2009; 56: 279 -28310.1007/s12630-009-9062-519247737]Search in Google Scholar
[Desai D, Kojima K, Vacanti CA, Kodama S. Lidocaine inhibits NIH-3T3 cell multiplication by increasing the expression of cyclin-dependent kinase inhibitor 1A (p21) // Anesth Analg, 2008; 107:1592-159710.1213/ane.0b013e3181844cef18931217]Search in Google Scholar
[Doran C, Ji X. The anti-inflammatory effect of local anaesthetics // The Pain Llinic, 2007; 19(5): 207-21310.1179/016911107X396943]Search in Google Scholar
[Exadaktylos AK, Buggy DJ, Moriarty, Mascha E, Sessler DI. Can anesthetic technique for primary breast cancer surgery affect recurrence or metastasis? // Anesthesiology, 2006; 105(4):660-66410.1097/00000542-200610000-00008161571217006061]Search in Google Scholar
[Gordon D, Schroeder M. Intravenous lidocaine for postoperative analgesia: renewed interest in an old strategy // APS Bulletin, 2008; 18(3)]Search in Google Scholar
[Groudine SB, Fisher HAG, Kaufman RP. Intravenous lidocaine speeds the return of bowel function, decreases postoperative pain, and shortens hospital stay in patients undergoing radical retropubic prostatectomy // Anesth Analg, 1998; 86:235-23910.1213/00000539-199802000-00003]Search in Google Scholar
[Herroeder S, Pecher S, Schönherr ME, Kaulitz G, Hahnenkamp K, Friess J, Böttiger BD, Bauer H, Dijkgraaf MGW, Durieux ME, Hollmann MW. Systemic Lidocaine shortens length of hospital stay after colorectal surgery // Ann Surg, 2007; 246(2):192-20010.1097/SLA.0b013e31805dac11193356417667496]Search in Google Scholar
[Hollmann MW, Durieux ME. Local anesthetics and the inflammatory response // Anesthesiology, 2000; 93:858-7510.1097/00000542-200009000-0003810969322]Search in Google Scholar
[Hollmann MW, Gross A, Jelacin N, Durieux ME. Local anesthetic effects on priming and activation of human neutrophils // Anesthesiology, 2001; 95: 113-2210.1097/00000542-200107000-0002111465548]Search in Google Scholar
[Hollmann MW, Kurz K, Herroeder S, Struemper D, Hahnenkamp K, Berkelmans N, den Bakker CG, Durieux ME. The Effects of S-, R-, and Racemic Bupivacaine on Lysophosphatidate-Induced Priming of Human Neutrophils // Anesth Analg, 2003; 97:1053-105810.1213/01.ANE.0000080157.07960.9314500156]Search in Google Scholar
[Hollmann MW, Strumper D, Durieux ME. The poor man's epidural: systemic local anesthetics for improving postoperative outcomes // Med Hypotheses, 2004; 63:386-38910.1016/j.mehy.2004.02.05715288353]Search in Google Scholar
[Honnemann CV, Heyse TJ, Mollhoff T, Hahnenkamp K, Berning S, Hinder F, Linck B, Schmitz W, van Aken H. The inhibitory effect of bupivacaine on prostaglandin E (2) (EP (1)) receptor functionig: mechanism of action // Anesth Analg, 2001; 93: 628-63410.1097/00000539-200109000-0001911524330]Search in Google Scholar
[Irwin W, Fontaine E, Agnolucci L, Penzo D, Betto R, Bortolotto S, Reggiani C, Salviati J, Bernardi P. Bupivacaine myotoxicity is mediated by mitochondria // J Biol Chem, 2002; 2779(14): 12221-1222710.1074/jbc.M10893820011790774]Search in Google Scholar
[Johnson SM, Sain John BE, Dine AP. Local anaesthetics as antimicrobials agents: a review // Surg Infect (Larchmt), 2008; 9(2):205-21310.1089/sur.2007.03618426354]Search in Google Scholar
[Kaba A, Detroz BJ, Laurent SR. Acute rehabilitation program after laparoscopic colectomy using intravenous lidocaine // Acta Chir Belg, 2005; 105:53-5810.1080/00015458.2005.11679666]Search in Google Scholar
[Kawasaki T, Kawasaki C, Ogata M, Shimegatsu O. The effect of local anesthetics on monocyte mCD14 and human leukocyte antigen-DR expression // Anesth Analg, 2004; 98: 1024-102910.1213/01.ANE.0000104480.04856.9315041592]Search in Google Scholar
[Martin F, Cherif K, Gentilli ME. Lack of impact of intravenous lidocaine on analgesia, functional recovery, and nociceptive pain threshold after total hip arthroplasty // Anesth, 2008; 109:118-12310.1097/ALN.0b013e31817b5a9b272811718580181]Search in Google Scholar
[Nietgen GW, Chan CK, Durieux ME. Inhibition of Lysophosphatidate Signaling by Lidocaine and Bupivacaine // Anesthesiology, 1997; 86 (5): 1112-111910.1097/00000542-199705000-000159158361]Search in Google Scholar
[Pietruck C, Grond S, Xie GX, Palmer P. Local anaethetics differentialy inhibit sympathetic Neuron mediated and C fiber mediated synovial plasma extravasation // Anesth Analg, 2003; 96: 1397-140210.1213/01.ANE.0000060454.34258.D312707141]Search in Google Scholar
[Ploppa A, Kiefer RT, Krueger WA, Unertl KE, Durieux ME. Local anesthetics time-dependently inhibit Staphylococcus aureus phagocytosis, oxidative burst and CD11b expression by human Neutrophils // Reg Anesth Pain Med, 2008; 33(4):297-30310.1016/j.rapm.2007.05.01218675739]Search in Google Scholar
[Rosenberg PH, Renkonen OV. Antimicrobial activity of bupivacaine and morphine // Anesthesiology, 1985; 62:178-17910.1097/00000542-198502000-000153918482]Search in Google Scholar
[Ramus GV, Cezano L, Barbalonga A. Different concentrations of local anaesthetics have different modes of action on human lymphocytes // Agents Actions, 1983; 13:333-34110.1007/BF019714856613747]Search in Google Scholar
[Sinclair R, Ericcson AS, Greizer G. Inhibitory effects of amide local anaesthetics on stimulus-induced human leucocyte metabolic activation, LTB4 release and Il-1 secretion in vitro // Acta Anaest Scand, 1993; 37:159-16510.1111/j.1399-6576.1993.tb03693.x8383401]Search in Google Scholar
[Sung HJ, Sohn JT, Hwang EM. Direct effect of ropivacaine involves lipoxygenase pathway activation in rat aortic smooth muscle // Can J Anest, 2009; 56:410.1007/s12630-009-9059-019296191]Search in Google Scholar
[Takagi S, Kitagawa S, Oshimi K, Takaku F, Miura Y. Effect of local anaesthetics on human natural cell activity // Clin Exp Immunol, 1983; 53:477-481]Search in Google Scholar
[Wright JL, Durieux ME, Groves DS. A brief review of innovative uses for local anesthetics // Cur Op Anaesth, 2008; 21(5):651-65610.1097/ACO.0b013e32830a4c2d18784494]Search in Google Scholar
[Yanagidate F, Strichart GR. Analgesia // In: Handbook of experimental Pharmacology. Volume 177, Springer Berlin Heidelberg, 2007; 95-127]Search in Google Scholar
[Zink W, Bohl JRE, Hacke N, Sinner B, Martin E, Graf B. The long term myotoxic effects of bupivacaine and ropivacaine after continuous peripheral nerve blocks // Anesth Analg, 2005; 101:548-55410.1213/01.ANE.0000155956.59842.0A16037174]Search in Google Scholar