- Email: [email protected]
Infection control measures for adult cardiac surgery in the UK—a survey of current practice
Journal of Hospital Infection (2003) 54, 174–178
www.elsevierhealth.com/journals/jhin
Infection control measures for adult cardiac surgery in the UK—a survey of current practice J.B. Kendall*, C.A. Hart, S.H. Pennefather, G.N. Russell Department of Anaesthesia, The Cardiothoracic Centre, Thomas Drive, Liverpool L14 3PE, UK Received 25 November 2002; accepted 12 March 2003
KEYWORDS Anaesthesia; Antibiotic prophylaxis; Cardiac surgery; Viruses; Screening; Questionnaire
Summary The aim of the study was to define current UK practice for antimicrobial prophylaxis and preoperative screening for bloodborne viruses and methicillinresistant Staphylococcus aureus (MRSA) before routine cardiac surgery. An e-mail survey was sent to the Association of Cardiothoracic Anaesthetists (ACTA) Linkmen in all 36 UK adult cardiac surgical units, during May 2001. Questions were asked regarding MRSA, hepatitis B, C and human immunodeficiency virus (HIV) screening. Regarding antimicrobial prophylaxis questions were asked regarding agent(s), dose, frequency and duration of use for coronary artery and value surgery. Responses were received from 29 units (response rate 81%). There was a wide variety of practices for all units surveyed. For MRSA screening, 19 units (65%) screened all patients before surgery, but two (7%) screened none, with the remaining eight units (28%) screening selected highrisk groups. Regarding screening for bloodborne viruses: eight units (28%) tested all patients routinely for hepatitis B, 11 units (39%) selectively tested only high-risk patients and transplant recipients. No units tested for hepatitis C and HIV infection routinely. All units used prophylactic antibiotics routinely, but the type and number of agents, along with dose and duration of therapy all varied widely. For coronary artery bypass graft (CABG) surgery, a single agent was used by 16 units (55%), two agents by 12 units (41%) and three agents by one unit (4%). There is a wide variation in infection control practice in adult cardiac units throughout the UK. Rationalization of preoperative screening and use of prophylactic antibiotics, by adopting nationally agreed practice guidelines, could significantly reduce costs and potentially reduce the incidence of resistant organisms. Q 2003 The Hospital Infection Society. Published by Elsevier Science Ltd. All rights reserved.
Introduction Prophylactic antimicrobials have been used routinely in cardiac surgery for many years to reduce the incidence of infection.1 However, the overuse of antibiotics is associated with additional cost *Corresponding author. Tel.: þ 44-151-228-1616; fax: þ 44151-220-8573. E-mail address: [email protected]
implications and the development of antimicrobial resistance. The choice of agents used and the duration of use has changed over time as new antibiotics have become available and understanding of microbiology has improved.2,3 This survey is the first to define current practice in UK adult cardiac centres since 1993.4 Our survey targeted the anaesthetist, who is usually the clinician responsible for administering antibiotics at the time of induction of anaesthesia.
0195-6701/03/$ - see front matter Q 2003 The Hospital Infection Society. Published by Elsevier Science Ltd. All rights reserved. doi:10.1016/S0195-6701(03)00134-8
Infection control and cardiac surgery
175
In addition, this survey is the first to investigate the practice of screening patients before cardiac surgery for methicillin-resistant Staphylococcus aureus (MRSA) and the bloodborne viruses hepatitis B, C and human immunodeficiency virus (HIV). There are significant cost implications involved in screening all patients before cardiac surgery. However in the absence of nationally defined practice, these decisions are often made locally.
Method An e-mail survey was sent to the Association of Cardiothoracic Anaesthetists (ACTA) Linkmen in all 36 UK adult cardiac surgery units (see Appendix 1), during May 2001. If after a follow-up e-mail, no response was received, a postal survey was then sent to that unit. The following questions were asked: 1. MRSA: Which patients are screened preoperatively? Which sites are sampled by swabbing? Are medical and nursing staff ever screened? How often are intensive care unit (ITU) patients screened? 2. Hepatitis B, C and HIV: Which patients are screened preoperatively? Is specific consent sought and are counselling services available? 3. Antibiotic use: Drug(s), dose, frequency and duration of use for both coronary artery and value surgery
Results Responses were received from 29 units (response rate 81%). There were a wide variety of practices for all units surveyed.
Figure 1 Patients screened for MRSA.
45% of units regularly screened long-term ITU patients from anywhere between daily and weekly.
Bloodborne virus screening A total of 29% of units tested all patients routinely for hepatitis B carriage, but 32% tested none. The remaining 39% of units selectively tested only highrisk patients and transplant recipients. No units tested for hepatitis C and HIV infection routinely, but 45 and 38% of units tested high-risk patients and transplant recipients for hepatitis C and HIV, respectively. Counselling or consent before testing were routine practice in 81% of units involved in viral screening. However 19% of units neither took consent nor had counselling services available for these procedures.
Prophylactic antibiotics All units used prophylactic antibiotics routinely, but the type and number of agents, along with dose and duration of therapy all varied widely. In all, 89% of units had standard departmental guidelines, which are followed routinely.
MRSA screening Sixty-five percent of units screened all patients before surgery, but 7% screened none, with the remaining 28% screening selected high-risk groups (Figure 1). The numbers of sites from which swabs were taken varied from one to five, with four sites being the most common (Figure 2). The nose was the commonest swab site, used by 90% of units. Screening of medical and nursing staff was carried out by 66% of units during outbreaks only. The remainder carried out no staff screening. Overall
Figure 2 Number of sites swabbed for MRSA.
176
Antimicrobials The most common types of antimicrobials included as part of regimens were cephalosporins (61%) followed by penicillins (45%), then aminoglycosides (39%). Single antimicrobials were used by 55% of units for coronary artery surgery, two agents by 41.5% and three agents by one unit (3.5%). The cephalosporins were most commonly used as monotherapy (48%). The agents most commonly used in combination were gentamicin and flucloxacillin (24%). Twenty-four of units changed their practice for valve surgery, with 62% of units using two or more agents in combination. The most commonly added additional agents were vancomycin (10.5%) and teicoplanin (10.5%). These data are shown in Table I. Doses and duration For coronary artery surgery only 10% of units used a single dose regimen. Forty-five percent of units discontinued therapy at 24 h. Twenty-eight percent of units discontinued therapy at 48 h, and only 17% of units continued treatment beyond this (Figure 3). Treatment was typically longer for valve surgery, with 48% of units continuing therapy for more than 24 h. The doses of agents used also varied widely. Gentamicin was given in seven different doses ranging from 80 mg up to 400 mg. Some units used flucloxacillin at a dose of 500 mg while others used 1 g, similarly some units used 750 mg cefuroxime while others used 1.5 g.
Discussion No previously published studies have examined the practice of preoperative screening before cardiac surgery for either MRSA or bloodborne viruses. Any screening programme is only useful if it provides
J.B. Kendall et al.
Figure 3 Duration of antibiotic use after CABG surgery.
reliable information, leading to an intervention, which subsequently changes an outcome. In this survey we did not enquire about subsequent interventions or outcomes, but focused our attention towards defining current practice and use of resources. There was a surprisingly wide variety of practices in all areas surveyed. MRSA screening has been shown to be a costeffective intervention for screening high-risk patients on admission to hospital.5 However no study has shown this to be the case for all patient admissions. The number of swabs needed to provide a high sensitivity is difficult to quantify, but unnecessary swabs can add to the cost of a screening programme.6 The current cost per swab is approximately £10 and the mean number of swabs per patient before cardiac surgery in the UK currently is 1.84. Subsequent clearance of skin and nasal carriage of MRSA by topical antibiotics has been shown to reduce surgical wound infection rates.7,8 Screening for bloodborne viruses has no immediate benefit to patients but is primarily used to alert staff to the potential risk of contamination. However, it may also alter recipients’ transplant
Table I Antibiotic prophylaxis combinations used for coronary artery bypass graft and valvular surgery Agent combination
Coronary artery bypass graft (%)
Valve (%)
Cephalosporin Flucloxacillin Vancomycin
14 (48) 2 (7) 0
7 (24) 2 (7) 2 (7)
Flucloxacillin þ gentamicin Flucloxacillin þ netilmicin Cephalosporin þ gentamicin Cephalosporin þ vancomycin Cephalosporin þ teicoplanin Benzylpenicillin þ flucloxacillin
7 (24) 1 (3.5) 2 (7) 0 1 (3.5) 1 (3.5)
7 (24) 1 (3.5) 2 (7) 3 (10) 3 (10) 1 (3.5)
Cephalosporin þ gentamicin þ flucloxacillin
1 (3.5)
1 (3.5)
Total
29 (100)
29 (100)
Infection control and cardiac surgery
status. But with the use of universal precautions, and immunization programmes for hepatitis B for medical staff, is screening necessary for nontransplant patients? A study of patients undergoing cardiac surgery in the Baltimore, MD, USA in the 1980s found an incidence of undiagnosed hepatitis C of 2.4% over a two-year period.9 Another study of patients undergoing elective orthopaedic procedures in the same hospital between 1989 – 1995 found an incidence of undiagnosed HIV of 0.15%.10 Whenever testing for a serious communicable disease is undertaken, the General Medical Council recommends consent be sought before testing and counselling services should be available.11 In 19% of centres where testing for bloodborne viruses was undertaken, we found this advice was not being followed. The current cost per hepatitis B test is approximately £25. The use of antibiotic prophylaxis for patients undergoing cardiac surgery is associated with a reduced incidence of wound infection,12 and hence has been adopted universally. Antibiotic prophylaxis should be targeted towards the most likely pathogen and there should be adequate tissue and blood concentrations at the wound site during the time of peak potential for contamination, i.e. intraoperatively. The organisms implicated in surgical site infections (SSIs) following coronary artery surgery during 1997 – 1999 have been identified by the UK Nosocomial Infection National Surveillance Scheme (NINSS).13 These are, in order of frequency, S. aureus, Staphylococcus epidermidis, Pseudomonas aeruginosa and coliforms. NINSS found the incidence of SSI for coronary artery surgery to vary from 2 to 12% between centres. NINSS highlighted MRSA as being the most common staphylococcal pathogen in general and orthopaedic surgery, but MRSA only accounts for approximately 20% of SSIs following coronary artery surgery. Approximately 20% of the SSIs caused by staphylococci were due to coagulase–negative staphylococci. Multiple antibiotic resistance is common in these groups, hence monotherapy may be inadequate for some of these potential pathogenic combinations and combination treatment will be necessary. However, widespread use of multiple agents may encourage emergence of highly resistant organisms and therefore cannot currently be recommended for routine use. Tissue concentrations of antibiotics can be affected by dilution and perfusion changes during cardiopulmonary bypass (CPB). Antibiotic concentrations should remain consistently above minimum inhibitory concentrations. There is evidence from a small-scale study that single doses of cefuroxime or vancomycin provide adequate serum concentrations for the duration of surgery up to 8 h, and
177 that additional doses for CPB are not necessary.14 Generally there are little pharmacokinetic data for antibiotic concentrations during cardiac surgery. However, large-scale, prospective, randomized controlled trials of nearly 2000 patients at one centre have shown that the use of single agents, in single dose regimens do not result in increased infection rates and are associated with reduced cost.15,16 Furthermore, there is no demonstrable difference in effectiveness of first, second or third-generation cephalosporins.17 We found in this survey nearly half of the units in the UK using multiple agents for more than 24 h despite evidence that this is unnecessary, may cause toxicity, encourage bacterial resistance and is less cost-effective. These factors are often difficult to quantify. We have calculated the annual cost of the antibiotic regimens currently used by respondents to this survey as accurately as possible, using prices as listed in the British National Formulary and activity levels as listed in the National Adult Cardiac Surgery Database. This cost is approximately £7 million per annum. If this trend were extrapolated to all UK cardiac surgical cases it would give an estimated cost of over £9 million per annum as the annual NHS expenditure for antibiotic prophylaxis for cardiac surgery the in the UK. This cost may actually be less than estimated due to locally negotiated price reductions, but by comparison if a single dose cephalosporin was used, this cost could be cut to less than £200 000 per annum for the entire NHS. The precise regimen for prophylaxis should be based on local information about pathogens and their susceptibility to antimicrobial drugs. The policy should be developed and audited jointly by surgeons, microbiologists and infection control teams. In addition to antibiotic prophylaxis, prevention of infection requires close attention to other factors such as treatable risk factors in the patient, good surgical technique, strict theatre discipline and scrupulous standards of infection control by all staff. In conclusion, there is a wide variation in infection control practice in adult cardiac units throughout the UK. Rationalization of preoperative screening and use of prophylactic antibiotics, by adopting nationally agreed practice guidelines, could significantly reduce costs and potentially reduce the incidence of resistant organisms.
Acknowledgements We thank all the ACTA members who completed this survey.
178
J.B. Kendall et al.
Appendix 1. UK cardiac units 1. 2. 3. 4. 5. 6. 7. 8. 9. 10. 11. 12. 13. 14. 15. 16. 17. 18. 19. 20. 21. 22. 23. 24. 25. 26. 27. 28. 29. 30. 31. 32. 33. 34. 35. 36.
Aberdeen Belfast Birmingham (Queen Elizabeth) Blackpool Brighton Bristol Cambridge (Papworth) Cardiff Coventry (Walsgrave) Edinburgh Glasgow (HCI) Glasgow (Royal) Glasgow (Western) Hull Leeds Leicester Liverpool London (Brompton & Harefield) London (Chest & Barts) London (Guys & St Thomas’) London (King’s) London (Middlesex) London (Royal Free) London (St George’s) London (St Mary’s) Manchester (MRI) Manchester (Wythenshawe) Newcastle (Freeman) Nottingham Oxford Plymouth Sheffield South Cleveland Southampton Stoke (North Staffordshire) Swansea
References 1. Fekety F, Cluff L, Sabiston D, Seidl L, Smith J, Thoburn R. A study of antibiotic prophylaxis in cardiac surgery. J Thorac Cardiovasc Surg 1969;57:757—763.
2. Wilson A, Treasure T, Sturridge M, Gruneberg R. Antibiotic prophylaxis in the United Kingdom: current practice. Thorax 1986;41:396—400. 3. Woods M, Tillman D. Antibiotic prophylaxis in cardiothoracic surgery 1990: results of a third survey. Hosp Pharm 1992;27: 404 & 406—407. 4. Parry GW, Holden SR, Shabbo FP. Antibiotic prophylaxis for cardiac surgery: current United Kingdom practice. Br Heart J 1993;70:585—586. 5. Papia G, Louie M, Tralla A, Johnson C, Collins V, Simor AE. Screening high-risk patients for methicillin-resistant Staphylococcus aureus on admission to hospital: is it cost effective? Infect Control Hosp Epidemiol 1999;20:473—477. 6. Forward KR, Arbique JC. Cumulative yield from patient surveillance cultures for methicillin resistant Staphylococcus aureus during a hospital outbreak. Infect Control Hosp Epidemiol 1993;18:776—778. 7. Casewell MW. The nose: an underestimated source of Staphylococcus aureus causing wound infection (review). J Hosp Infect 1998;40(Suppl. B):S3—S11. 8. Cimochowski GE, Harostock MD, Brown R, Bernardi M, Alonzo N, Coyle K. Intranasal mupirocin reduces sternal wound infection after open heart surgery in diabetics and nondiabetics. Ann Thorac Surg 2001;71:1572—1579. 9. Donahue JG, Nelson KE, Munoz A, et al. Antibody to hepatitis C virus among cardiac surgery patients, homosexual men and intravenous drug abusers in Baltimore, Maryland. Am J Epidemiol 1991;134:1206—1211. 10. LaPorte DM, Mont MA, Jones LC, Padden DA, Hungerford DS. Human immunodeficiency virus testing for elective orthopaedic procedures: results in a community based hospital. Orthopaedics 2001;24:52—55. 11. General Medical Council, Serious communicable diseases. London: Fulmar; 1997. 12. Burke JF. Preventative antibiotic management in surgery. Annu Rev Med 1973;24:289—294. 13. Surveillance of Surgical Site Infection in English Hospitals 1997—1999. Nosocomial Infection National Surveillance Scheme. Public Health Laboratory Service Publications. 14. Vuorisalo S, Pokela R, Syrjala H. Is single-dose antibiotic prophylaxis sufficient for coronary artery bypass surgery? An analysis of peri- and postoperative serum cefuroxime and vancomycin levels. J Hosp Infect 1997;37:237—242. 15. Kriaras I, Michalopoulos A, Turina M, Geroulanos S. Evolution of antimicrobial prophylaxis in cardiovascular surgery. Eur J Cardiothorac Surg 2000;18:440—446. 16. Bucknell S, Mohajeri M, Low J, McDonald M, Hill G. Single versus multiple dose antibiotic prophylaxis for cardiac surgery. Aust NZ J Surg 2000;70:409—411. 17. Townsend TR, Reitz BA, Bilker WB, Bartlett JG. Clinical trial of cefamandole, cefazolin and cefuroxime for antibiotic prophylaxis in cardiac operations. J Thorac Cardiovasc Surg 1993;106:664—670.
www.elsevierhealth.com/journals/jhin
Infection control measures for adult cardiac surgery in the UK—a survey of current practice J.B. Kendall*, C.A. Hart, S.H. Pennefather, G.N. Russell Department of Anaesthesia, The Cardiothoracic Centre, Thomas Drive, Liverpool L14 3PE, UK Received 25 November 2002; accepted 12 March 2003
KEYWORDS Anaesthesia; Antibiotic prophylaxis; Cardiac surgery; Viruses; Screening; Questionnaire
Summary The aim of the study was to define current UK practice for antimicrobial prophylaxis and preoperative screening for bloodborne viruses and methicillinresistant Staphylococcus aureus (MRSA) before routine cardiac surgery. An e-mail survey was sent to the Association of Cardiothoracic Anaesthetists (ACTA) Linkmen in all 36 UK adult cardiac surgical units, during May 2001. Questions were asked regarding MRSA, hepatitis B, C and human immunodeficiency virus (HIV) screening. Regarding antimicrobial prophylaxis questions were asked regarding agent(s), dose, frequency and duration of use for coronary artery and value surgery. Responses were received from 29 units (response rate 81%). There was a wide variety of practices for all units surveyed. For MRSA screening, 19 units (65%) screened all patients before surgery, but two (7%) screened none, with the remaining eight units (28%) screening selected highrisk groups. Regarding screening for bloodborne viruses: eight units (28%) tested all patients routinely for hepatitis B, 11 units (39%) selectively tested only high-risk patients and transplant recipients. No units tested for hepatitis C and HIV infection routinely. All units used prophylactic antibiotics routinely, but the type and number of agents, along with dose and duration of therapy all varied widely. For coronary artery bypass graft (CABG) surgery, a single agent was used by 16 units (55%), two agents by 12 units (41%) and three agents by one unit (4%). There is a wide variation in infection control practice in adult cardiac units throughout the UK. Rationalization of preoperative screening and use of prophylactic antibiotics, by adopting nationally agreed practice guidelines, could significantly reduce costs and potentially reduce the incidence of resistant organisms. Q 2003 The Hospital Infection Society. Published by Elsevier Science Ltd. All rights reserved.
Introduction Prophylactic antimicrobials have been used routinely in cardiac surgery for many years to reduce the incidence of infection.1 However, the overuse of antibiotics is associated with additional cost *Corresponding author. Tel.: þ 44-151-228-1616; fax: þ 44151-220-8573. E-mail address: [email protected]
implications and the development of antimicrobial resistance. The choice of agents used and the duration of use has changed over time as new antibiotics have become available and understanding of microbiology has improved.2,3 This survey is the first to define current practice in UK adult cardiac centres since 1993.4 Our survey targeted the anaesthetist, who is usually the clinician responsible for administering antibiotics at the time of induction of anaesthesia.
0195-6701/03/$ - see front matter Q 2003 The Hospital Infection Society. Published by Elsevier Science Ltd. All rights reserved. doi:10.1016/S0195-6701(03)00134-8
Infection control and cardiac surgery
175
In addition, this survey is the first to investigate the practice of screening patients before cardiac surgery for methicillin-resistant Staphylococcus aureus (MRSA) and the bloodborne viruses hepatitis B, C and human immunodeficiency virus (HIV). There are significant cost implications involved in screening all patients before cardiac surgery. However in the absence of nationally defined practice, these decisions are often made locally.
Method An e-mail survey was sent to the Association of Cardiothoracic Anaesthetists (ACTA) Linkmen in all 36 UK adult cardiac surgery units (see Appendix 1), during May 2001. If after a follow-up e-mail, no response was received, a postal survey was then sent to that unit. The following questions were asked: 1. MRSA: Which patients are screened preoperatively? Which sites are sampled by swabbing? Are medical and nursing staff ever screened? How often are intensive care unit (ITU) patients screened? 2. Hepatitis B, C and HIV: Which patients are screened preoperatively? Is specific consent sought and are counselling services available? 3. Antibiotic use: Drug(s), dose, frequency and duration of use for both coronary artery and value surgery
Results Responses were received from 29 units (response rate 81%). There were a wide variety of practices for all units surveyed.
Figure 1 Patients screened for MRSA.
45% of units regularly screened long-term ITU patients from anywhere between daily and weekly.
Bloodborne virus screening A total of 29% of units tested all patients routinely for hepatitis B carriage, but 32% tested none. The remaining 39% of units selectively tested only highrisk patients and transplant recipients. No units tested for hepatitis C and HIV infection routinely, but 45 and 38% of units tested high-risk patients and transplant recipients for hepatitis C and HIV, respectively. Counselling or consent before testing were routine practice in 81% of units involved in viral screening. However 19% of units neither took consent nor had counselling services available for these procedures.
Prophylactic antibiotics All units used prophylactic antibiotics routinely, but the type and number of agents, along with dose and duration of therapy all varied widely. In all, 89% of units had standard departmental guidelines, which are followed routinely.
MRSA screening Sixty-five percent of units screened all patients before surgery, but 7% screened none, with the remaining 28% screening selected high-risk groups (Figure 1). The numbers of sites from which swabs were taken varied from one to five, with four sites being the most common (Figure 2). The nose was the commonest swab site, used by 90% of units. Screening of medical and nursing staff was carried out by 66% of units during outbreaks only. The remainder carried out no staff screening. Overall
Figure 2 Number of sites swabbed for MRSA.
176
Antimicrobials The most common types of antimicrobials included as part of regimens were cephalosporins (61%) followed by penicillins (45%), then aminoglycosides (39%). Single antimicrobials were used by 55% of units for coronary artery surgery, two agents by 41.5% and three agents by one unit (3.5%). The cephalosporins were most commonly used as monotherapy (48%). The agents most commonly used in combination were gentamicin and flucloxacillin (24%). Twenty-four of units changed their practice for valve surgery, with 62% of units using two or more agents in combination. The most commonly added additional agents were vancomycin (10.5%) and teicoplanin (10.5%). These data are shown in Table I. Doses and duration For coronary artery surgery only 10% of units used a single dose regimen. Forty-five percent of units discontinued therapy at 24 h. Twenty-eight percent of units discontinued therapy at 48 h, and only 17% of units continued treatment beyond this (Figure 3). Treatment was typically longer for valve surgery, with 48% of units continuing therapy for more than 24 h. The doses of agents used also varied widely. Gentamicin was given in seven different doses ranging from 80 mg up to 400 mg. Some units used flucloxacillin at a dose of 500 mg while others used 1 g, similarly some units used 750 mg cefuroxime while others used 1.5 g.
Discussion No previously published studies have examined the practice of preoperative screening before cardiac surgery for either MRSA or bloodborne viruses. Any screening programme is only useful if it provides
J.B. Kendall et al.
Figure 3 Duration of antibiotic use after CABG surgery.
reliable information, leading to an intervention, which subsequently changes an outcome. In this survey we did not enquire about subsequent interventions or outcomes, but focused our attention towards defining current practice and use of resources. There was a surprisingly wide variety of practices in all areas surveyed. MRSA screening has been shown to be a costeffective intervention for screening high-risk patients on admission to hospital.5 However no study has shown this to be the case for all patient admissions. The number of swabs needed to provide a high sensitivity is difficult to quantify, but unnecessary swabs can add to the cost of a screening programme.6 The current cost per swab is approximately £10 and the mean number of swabs per patient before cardiac surgery in the UK currently is 1.84. Subsequent clearance of skin and nasal carriage of MRSA by topical antibiotics has been shown to reduce surgical wound infection rates.7,8 Screening for bloodborne viruses has no immediate benefit to patients but is primarily used to alert staff to the potential risk of contamination. However, it may also alter recipients’ transplant
Table I Antibiotic prophylaxis combinations used for coronary artery bypass graft and valvular surgery Agent combination
Coronary artery bypass graft (%)
Valve (%)
Cephalosporin Flucloxacillin Vancomycin
14 (48) 2 (7) 0
7 (24) 2 (7) 2 (7)
Flucloxacillin þ gentamicin Flucloxacillin þ netilmicin Cephalosporin þ gentamicin Cephalosporin þ vancomycin Cephalosporin þ teicoplanin Benzylpenicillin þ flucloxacillin
7 (24) 1 (3.5) 2 (7) 0 1 (3.5) 1 (3.5)
7 (24) 1 (3.5) 2 (7) 3 (10) 3 (10) 1 (3.5)
Cephalosporin þ gentamicin þ flucloxacillin
1 (3.5)
1 (3.5)
Total
29 (100)
29 (100)
Infection control and cardiac surgery
status. But with the use of universal precautions, and immunization programmes for hepatitis B for medical staff, is screening necessary for nontransplant patients? A study of patients undergoing cardiac surgery in the Baltimore, MD, USA in the 1980s found an incidence of undiagnosed hepatitis C of 2.4% over a two-year period.9 Another study of patients undergoing elective orthopaedic procedures in the same hospital between 1989 – 1995 found an incidence of undiagnosed HIV of 0.15%.10 Whenever testing for a serious communicable disease is undertaken, the General Medical Council recommends consent be sought before testing and counselling services should be available.11 In 19% of centres where testing for bloodborne viruses was undertaken, we found this advice was not being followed. The current cost per hepatitis B test is approximately £25. The use of antibiotic prophylaxis for patients undergoing cardiac surgery is associated with a reduced incidence of wound infection,12 and hence has been adopted universally. Antibiotic prophylaxis should be targeted towards the most likely pathogen and there should be adequate tissue and blood concentrations at the wound site during the time of peak potential for contamination, i.e. intraoperatively. The organisms implicated in surgical site infections (SSIs) following coronary artery surgery during 1997 – 1999 have been identified by the UK Nosocomial Infection National Surveillance Scheme (NINSS).13 These are, in order of frequency, S. aureus, Staphylococcus epidermidis, Pseudomonas aeruginosa and coliforms. NINSS found the incidence of SSI for coronary artery surgery to vary from 2 to 12% between centres. NINSS highlighted MRSA as being the most common staphylococcal pathogen in general and orthopaedic surgery, but MRSA only accounts for approximately 20% of SSIs following coronary artery surgery. Approximately 20% of the SSIs caused by staphylococci were due to coagulase–negative staphylococci. Multiple antibiotic resistance is common in these groups, hence monotherapy may be inadequate for some of these potential pathogenic combinations and combination treatment will be necessary. However, widespread use of multiple agents may encourage emergence of highly resistant organisms and therefore cannot currently be recommended for routine use. Tissue concentrations of antibiotics can be affected by dilution and perfusion changes during cardiopulmonary bypass (CPB). Antibiotic concentrations should remain consistently above minimum inhibitory concentrations. There is evidence from a small-scale study that single doses of cefuroxime or vancomycin provide adequate serum concentrations for the duration of surgery up to 8 h, and
177 that additional doses for CPB are not necessary.14 Generally there are little pharmacokinetic data for antibiotic concentrations during cardiac surgery. However, large-scale, prospective, randomized controlled trials of nearly 2000 patients at one centre have shown that the use of single agents, in single dose regimens do not result in increased infection rates and are associated with reduced cost.15,16 Furthermore, there is no demonstrable difference in effectiveness of first, second or third-generation cephalosporins.17 We found in this survey nearly half of the units in the UK using multiple agents for more than 24 h despite evidence that this is unnecessary, may cause toxicity, encourage bacterial resistance and is less cost-effective. These factors are often difficult to quantify. We have calculated the annual cost of the antibiotic regimens currently used by respondents to this survey as accurately as possible, using prices as listed in the British National Formulary and activity levels as listed in the National Adult Cardiac Surgery Database. This cost is approximately £7 million per annum. If this trend were extrapolated to all UK cardiac surgical cases it would give an estimated cost of over £9 million per annum as the annual NHS expenditure for antibiotic prophylaxis for cardiac surgery the in the UK. This cost may actually be less than estimated due to locally negotiated price reductions, but by comparison if a single dose cephalosporin was used, this cost could be cut to less than £200 000 per annum for the entire NHS. The precise regimen for prophylaxis should be based on local information about pathogens and their susceptibility to antimicrobial drugs. The policy should be developed and audited jointly by surgeons, microbiologists and infection control teams. In addition to antibiotic prophylaxis, prevention of infection requires close attention to other factors such as treatable risk factors in the patient, good surgical technique, strict theatre discipline and scrupulous standards of infection control by all staff. In conclusion, there is a wide variation in infection control practice in adult cardiac units throughout the UK. Rationalization of preoperative screening and use of prophylactic antibiotics, by adopting nationally agreed practice guidelines, could significantly reduce costs and potentially reduce the incidence of resistant organisms.
Acknowledgements We thank all the ACTA members who completed this survey.
178
J.B. Kendall et al.
Appendix 1. UK cardiac units 1. 2. 3. 4. 5. 6. 7. 8. 9. 10. 11. 12. 13. 14. 15. 16. 17. 18. 19. 20. 21. 22. 23. 24. 25. 26. 27. 28. 29. 30. 31. 32. 33. 34. 35. 36.
Aberdeen Belfast Birmingham (Queen Elizabeth) Blackpool Brighton Bristol Cambridge (Papworth) Cardiff Coventry (Walsgrave) Edinburgh Glasgow (HCI) Glasgow (Royal) Glasgow (Western) Hull Leeds Leicester Liverpool London (Brompton & Harefield) London (Chest & Barts) London (Guys & St Thomas’) London (King’s) London (Middlesex) London (Royal Free) London (St George’s) London (St Mary’s) Manchester (MRI) Manchester (Wythenshawe) Newcastle (Freeman) Nottingham Oxford Plymouth Sheffield South Cleveland Southampton Stoke (North Staffordshire) Swansea
References 1. Fekety F, Cluff L, Sabiston D, Seidl L, Smith J, Thoburn R. A study of antibiotic prophylaxis in cardiac surgery. J Thorac Cardiovasc Surg 1969;57:757—763.
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