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European Spine Journal
Published in: European Spine Journal 10/2018

01-10-2018 | Original Article

Impact of MSSA screening on rates of surgical site infection following lumbar spine surgery

Authors: Mark Higgins, Rajendrenadh Bommireddy, Faiz Shivji, Jaber Al-Shukri, James Billson

Published in: European Spine Journal | Issue 10/2018

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Abstract

Purpose

Methicillin-sensitive Staphylococcus aureus (MSSA) carriage may confer a significant risk of surgical site infection (SSI) and is common amongst the UK population. Screening for MSSA is not routinely offered to patients in the UK. Primary aim was to review the impact of introducing a MSSA screening programme, in addition to established Methicillin-resistant Staphylococcus aureus (MRSA) screening, on the incidence of SSIs following lumbar spine surgery.

Methods

A consecutive group of 1307 patients during 12 months before (phase 1: n = 716) and after (phase 2: n = 591) introduction of the MSSA screening programme were compared. Analysis was restricted to those with inpatient stay greater than 4 days, readmission within 6 weeks and a rising CRP 7 or more days following the procedure. Diagnosis of SSI was based around the CDC guidelines for wound surveillance. Patients were excluded where the primary surgery was to treat infection, or the procedure was percutaneous. Chi-squared test was used to compare the two groups.

Results

Seven hundred and sixteen patients were in phase 1. Rate of infection was 2.65%. Rate of MRSA colonisation was 0%. Five hundred and ninety-one patients were in phase 2. Rate of infection was 1.02%. Rate of MRSA colonisation was 0%, and rate of MSSA colonisation was 26%. Reduction in incidence of SSIs was 62% (p = 0.0409).

Conclusion

MSSA colonisation is common, although wound infection following lumbar spinal surgery remains a rare event. A screening programme for MSSA can significantly reduce incidence of SSIs in this patient group. These findings may be applicable to wider elective orthopaedic practice.

Graphical abstract

These slides can be retrieved under Electronic Supplementary Material.
Appendix
Available only for authorised users
Literature
1.
Badia JM, Casey AL, Petrosillo N, Hudson PM, Mitchell SA, Crosby C (2017) Impact of surgical site infection on healthcare costs and patient outcomes: a systematic review in six European countries. J Hosp Infect 96:1–15CrossRef
2.
Anderson PA, Savage JW, Vaccaro AR, Radcliff K, Arnold PM, Lawrence BD, Shamji MF (2017) Prevention of surgical site infection in spine surgery. Neurosurgery 80(3S):S114–S123CrossRef
3.
Doebbeling BN et al (1993) Elimination of Staphylococcus aureus nasal carriage in health care workers: analysis of six clinical trials with calcium mupirocin ointment. The Mupirocin Collaborative Study Group. Clin Infect Dis 17(3):466–474CrossRef
4.
Chen AF, Heyl AE, Xu PZ, Rao N, Klatt BA (2013) Preoperative decolonization effective at reducing staphylococcal colonization in total joint arthroplasty patients. J Arthroplasty 28(8):18–20CrossRef
5.
von Eiff C, Becker K, Machka K, Stammer H, Peters G (2001) Nasal carriage as a source of Staphylococcus aureus bacteremia. Study group. N Engl J Med 344(1):11–16CrossRef
6.
Kalmeijer MD, van Nieuwland-Bollen E, Bogaers-Hofman D, de Baere GAJ, Kluytmans JAJW (2000) Nasal carriage of Staphylococcus aureus is a major risk factor for surgical-site infections in orthopaedic surgery. Infect Control Hosp Epidemiol 21(5):319–323CrossRef
7.
Trampuz A, Piper KE, Jacobson MJ et al (2007) Sonication of removed hip and knee prostheses for diagnosis of infection. N Engl J Med 357(7):654–663CrossRef
8.
Price CS, Williams A, Philips G, Dayton M, Smith W, Morgan S (2008) Staphylococcus aureus nasal colonization in preoperative orthopaedic outpatients. Clin Orthop Relat Res 466(11):2842–2847CrossRef
9.
Liu Z, Norman G, Iheozor-Ejiofor Z, Wong JK, Crosbie EJ, Wilson P (2017) Nasal decontamination for the prevention of surgical site infection in Staphylococcus aureus carriers. Cochrane Database Syst Rev 5:CD012462PubMed
10.
Bode LG et al (2010) Preventing surgical-site infections in nasal carriers of Staphylococcus aureus. N Engl J Med 362(1):9–17CrossRef
11.
Chen AF, Wessel CB, Rao N (2013) Staphylococcus aureus screening and decolonization in orthopaedic surgery and reduction of surgical site infections. Clin Orthop Relat Res 471(7):2383–2399CrossRef
12.
13.
Kang BU et al (2010) Surgical site infection in spinal surgery: detection and management based on serial C-reactive protein measurements. Neurosurg Spine 13(2):158–164CrossRef
14.
Aono H, Ohwada T, Kaneko N, Fuji T, Iwasaki M (2007) The post-operative changes in the level of inflammatory markers after posterior lumbar interbody fusion. J Bone Joint Surg Br 89(11):1478–1481CrossRef
15.
Coello R, Charlett A, Wilson J, Ward V, Pearson A, Borriello P (2005) Adverse impact of surgical site infections in English hospitals. J Hosp Infect 60:93–103CrossRef
16.
NICE support for commissioning: surgical site infection quality standard. October 2013
17.
Tominaga H, Setoguchi T, Ishidou Y, Nagano S, Yamamoto T, Komiya S (2016) Risk factors for surgical site infection and urinary tract infection after spine surgery. Eur Spine J 25(12):3908–3915CrossRef
18.
Porter R, Subramani K, Thomas AN, Chadwick P (2003) Nasal carriage of Staphylococcus aureus on admission to intensive care: incidence and prognostic significance. Intensive Care Med 29(4):655CrossRef
19.
20.
Chen AF, Wessel CB, Rao N (2013) Staphylococcus aureus screening and decolonization in orthopaedic surgery and reduction of surgical site infection. Clin Orthop Relat Res 471:2383–2399CrossRef
21.
Refaie R, Jameson S, Reed M (2015) Prevention of periprosthetic joint infection. J Trauma Orthop 03(03):50–52
Metadata
Title
Impact of MSSA screening on rates of surgical site infection following lumbar spine surgery
Authors
Mark Higgins
Rajendrenadh Bommireddy
Faiz Shivji
Jaber Al-Shukri
James Billson
Publication date
01-10-2018
Publisher
Springer Berlin Heidelberg
Published in
European Spine Journal / Issue 10/2018
Print ISSN: 0940-6719
Electronic ISSN: 1432-0932
DOI
https://doi.org/10.1007/s00586-018-5705-y

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