Open Access
Issue |
SICOT-J
Volume 7, 2021
|
|
---|---|---|
Article Number | 31 | |
Number of page(s) | 7 | |
Section | Spine | |
DOI | https://doi.org/10.1051/sicotj/2021029 | |
Published online | 10 May 2021 |
- Hampson F, Ridgway E (2005) Prophylactic antibiotics in surgery. Surg-Oxford Int Ed 23(8), 290–293. [Google Scholar]
- Mangram AJ, Horan TC, Pearson ML, Silver LC, Jarvis WR, Committee HICPA (1999) Guideline for prevention of surgical site infection, 1999. Infect Cont Hosp Epidemiol 20(4), 247–280. [Google Scholar]
- Anderson DJ, Podgorny K, Berrios-Torres SI, Bratzler DW, Dellinger EP, Greene L, Nyquist AC, Saiman L, Yokoe DS, Maragakis LL, Kaye KS (2014) Strategies to prevent surgical site infections in acute care hospitals: 2014 update. Infect Cont Hosp Epidemiol 35(6), 605–627. [Google Scholar]
- Dobzyniak MA, Fischgrund JS, Hankins S, Herkowitz HN (2003) Single versus multiple dose antibiotic prophylaxis in lumbar disc surgery. Spine 28(21), E453–E455. [Google Scholar]
- Boston KM, Baraniuk S, O’heron S, Murray KO (2009) Risk factors for spinal surgical site infection, Houston, Texas. Infect Cont Hosp Epidemiol 30(9), 884–889. [Google Scholar]
- Scottish IGN (2008) SIGN guideline 58: Safe sedation of children undergoing diagnostic and therapeutic procedures. Paediatr Anaesth 18(1), 11. [Google Scholar]
- Shaffer WO, Baisden JL, Fernand R, Matz PG (2013) An evidence-based clinical guideline for antibiotic prophylaxis in spine surgery. Spine J 13(10), 1387–1392. [Google Scholar]
- Mathur P, Trikha V, Farooque K, Sharma V, Jain N, Bhardwaj N, Sharma S, Misra M (2013) Implementation of a short course of prophylactic antibiotic treatment for prevention of postoperative infections in clean orthopaedic surgeries. Ind J Med Res 137(1), 111. [Google Scholar]
- Davey P, Brown E, Charani E, Fenelon L, Gould IM, Holmes A, Ramsay CR, Wiffen PJ, Wilcox M (2013) Interventions to improve antibiotic prescribing practices for hospital inpatients. Cochrane Database Syst Rev 4, CD003543. [Google Scholar]
- Fridkin S, Baggs J, Fagan R, Magill S, Pollack LA, Malpiedi P, Slayton R, Khader K, Rubin MA, Jones M, Samore MH, Dumyati G, Dodds-Ashley E, Meek J, Yousey-Hindes K, Jernigan J, Shehab N, Herrera R, McDonald CL, Schneider A, Srinivasan A, Centers for Disease C, Prevention (2014) Vital signs: Improving antibiotic use among hospitalized patients. MMWR Morb Mortal Wkly Rep 63(9), 194–200. [Google Scholar]
- Michael CA, Dominey-Howes D, Labbate M (2014) The antimicrobial resistance crisis: Causes, consequences, and management. Front Public Health 2, 145. [Google Scholar]
- Segala FV, Murri R, Taddei E, Giovannenze F, Del Vecchio P, Birocchi E, Taccari F, Cauda R, Fantoni M (2020) Antibiotic appropriateness and adherence to local guidelines in perioperative prophylaxis: Results from an antimicrobial stewardship intervention. Antimicrob Resist Infect Control 9(1), 164. [Google Scholar]
- Horan TC, Gaynes RP, Martone WJ, Jarvis WR, Emori TG (1992) CDC definitions of nosocomial surgical site infections, 1992: A modification of CDC definitions of surgical wound infections. Infect Control Hosp Epidemiol 13(10), 606–608. [Google Scholar]
- Kailash KK, Vijayraghavan P (2013) Prospective randomized study for antibiotic prophylaxis in spine surgery: Choice of drug, dosage, and timing. Asian Spine J 7(3), 196–203. [Google Scholar]
- Barlam TF, Cosgrove SE, Abbo LM, MacDougall C, Schuetz AN, Septimus EJ, Srinivasan A, Dellit TH, Falck-Ytter YT, Fishman NO, Hamilton CW, Jenkins TC, Lipsett PA, Malani PN, May LS, Moran GJ, Neuhauser MM, Newland JG, Ohl CA, Samore MH, Seo SK, Trivedi KK (2016) Implementing an Antibiotic Stewardship Program: Guidelines by the Infectious Diseases Society of America and the Society for Healthcare Epidemiology of America. Clin Infect Dis 62(10), e51–e77. [Google Scholar]
- Kim B, Moon SH, Moon ES, Kim HS, Park JO, Cho IJ, Lee HM (2010) Antibiotic microbial prophylaxis for spinal surgery: Comparison between 48 and 72-hour AMP protocols. Asian Spine J 4(2), 71–76. [Google Scholar]
- Yao R, Tan T, Tee JW, Street J (2018) Prophylaxis of surgical site infection in adult spine surgery: A systematic review. J Clin Neurosci 52, 5–25. [Google Scholar]
- Pharmacists ASoH-S (1999) ASHP therapeutic guidelines on antimicrobial prophylaxis in surgery. American Society of Health-System Pharmacists. Am J Health-Syst Pharm 56(18), 1839–1888. [Google Scholar]
- Pawar AY, Biswas SK (2016) Postoperative spine infections. Asian Spine J 10(1), 176. [Google Scholar]
- Dietz N, Sharma M, Adams S, Alhourani A, Ugiliweneza B, Wang D, Nuno M, Drazin D, Boakye M (2019) Enhanced recovery after surgery (ERAS) for spine surgery: A systematic review. World Neurosurg 130, 415–426. [Google Scholar]
- Fleege C, Arabmotlagh M, Almajali A, Rauschmann M (2014) Pre- and postoperative fast-track treatment concepts in spinal surgery: Patient information and patient cooperation. Orthopade 43(12, 1062–1064, 1066–1069. [Google Scholar]
- Fleege C, Rauschmann MA (2014) Treatment strategies to shorten convalescence after spinal surgery : From treatment begin to recovery. Orthopade 43(12), 1041–1042. [Google Scholar]
- Maciejczak A, Wolan-Nieroda A, Walaszek M, Kolpa M, Wolak Z (2019) Antibiotic prophylaxis in spine surgery: A comparison of single-dose and 72-hour protocols. J Hosp Infect 103(3), 303–310. [Google Scholar]
- Rubinstein E, Findler G, Amit P, Shaked I (1994) Perioperative prophylactic cephazolin in spinal surgery. A double-blind placebo-controlled trial. J Bone Joint Surg Br 76(1), 99–102. [Google Scholar]
- Dimick JB, Lipsett PA, Kostuik JP (2000) Spine update: Antimicrobial prophylaxis in spine surgery: Basic principles and recent advances. Spine 25(19), 2544–2548. [Google Scholar]
- Kim B, Moon S-H, Moon E-S, Kim H-S, Park J-O, Cho I-J, Lee H-M (2010) Antibiotic microbial prophylaxis for spinal surgery: Comparison between 48 and 72-hour AMP protocols. Asian Spine J 4(2), 71–76. [Google Scholar]
- Rihn JA, Kurd M, Hilibrand AS, Lurie J, Zhao W, Albert T, Weinstein J (2013) The influence of obesity on the outcome of treatment of lumbar disc herniation: Analysis of the Spine Patient Outcomes Research Trial (SPORT). J Bone Joint Surg Am 95(1), 1–8. [Google Scholar]
- Ahmed A, Venkatesan M, Newey M (2017) Comparison of outcome between obese and non-obese patients after primary lumbar discectomy. Int J Orthop 4(2), 714–718. [Google Scholar]
- Gepstein R, Shabat S, Arinzon Z, Berner Y, Catz A, Folman Y (2004) Does obesity affect the results of lumbar decompressive spinal surgery in the elderly? Clin Orthop Relat Res 426, 138–144. [Google Scholar]
- Klemencsics I, Lazary A, Szoverfi Z, Bozsodi A, Eltes P, Varga PP (2016) Risk factors for surgical site infection in elective routine degenerative lumbar surgeries. Spine J 16(11), 1377–1383. [Google Scholar]
- Bono OJ, Poorman GW, Foster N, Jalai CM, Horn SR, Oren J, Soroceanu A, Ramachandran S, Purvis TE, Jain D, Vira S, Diebo BG, Line B, Sciubba DM, Protopsaltis TS, Buckland AJ, Errico TJ, Lafage V, Bess S, Passias PG (2018) Body mass index predicts risk of complications in lumbar spine surgery based on surgical invasiveness. Spine J: Off J North Am Spine Soc 18(7), 1204–1210. [Google Scholar]
- Talaat M, Saied T, Kandeel A, El-Ata G, El-Kholy A, Hafez S, Osman A, Razik M, Ismail G, El-Masry S (2014) A point prevalence survey of antibiotic use in 18 hospitals in Egypt. Antibiotics 3(3), 450–460. [Google Scholar]
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