‘Effective European surveillance must have the agreement and active involvement of all participants’, concluded a European Union (EU) conference on the need for surveillance of resistant microorganisms (the microbial threat), held in September 1998 in Denmark (1). Patterns of antibiotic resistance differ widely between member states of the EU (2,3). Studies suggest that policies and guidelines on antibiotic usage may affect the prevalence of resistance (4,5). From an epidemiological and methodological standpoint it is very difficult to compare antimicrobial resistance rates because of differences in antimicrobial agents tested, sampling policies, susceptibility test systems used, and breakpoints adopted.

 To obtain more comparable and reliable data, the Directorate General V (DGV) of the European Commission is funding a European antimicrobial resistance surveillance system (EARSS). This system, in which all member states of the EU, plus Iceland, Norway, and Switzerland are taking part (table 1), is coordinated by the Rijksinstituut voor de Volksgezondheid en Milieu (RIVM); the National Institute of Public Health and the Environment of the Netherlands. More than 400 laboratories expressed willingness to take part in this European communicable disease network. This report describes its objectives and organisation.

Austria (AT)

H. Mittermayer / W. Koller

Belgium (BE)

H. Goossens / F. van Loock

Denmark (DK)

T. Soerensen / D. Monnet

Finland (FI)

P. Huovinen / O. Lyytikäinen

France (FR)

P. Courvalin / H. Aubry-Damon / J. Drucker

Germany (DE)

W. Witte / F. Tieman

Greece (GR)

N. Legakis / A. Vatopoulos

Iceland (IS)

K. Kristinsson / H. Briem

Ireland (IE)

L. Fenelon / D. O’Flanagan

Italy (IT)

G. Cornaglia / M.L. Moro

Luxembourg (LU)

R. Hemmer

Netherlands (NL)

H. de Neeling / W. Goettsch

Norway (NO)

E. Hoiby / P. Aavitsland

Portugal (PT)

M. Caniça / M. Paixão

Spain (ES)

F. Baquero / J. Campos

Sweden (SE)

O. Cars / B. Olsson-Liljequist

Switzerland (CH)

K. Mühlemann / J. Bille

United Kingdom  (UK)

D. Livermore / M. Wale

Collaborators :

OMS : R.Williams / J. Stelling

ESCMID : I. Phillips / M. Struelens

Project leader

M.J.W. Sprenger

Project coordinator

S.L.A.M. Bronzwaer

EARSS is an international network of national surveillance systems, which aims to aggregate comparable and reliable antimicrobial resistance data to benefit public health across Europe. Taking into account laboratory methods as well as epidemiological principles, EARSS will explore the feasibility of analysing regional differences, assessing risk factors, and providing electronic feedback in a study of 18 months duration. Microbiologists and epidemiologists from participating countries aim to collect quantitative susceptibility data on penicillin and cephalosporins for community acquired Streptococcus pneumoniae from blood and cerebrospinal fluid; and to collect data on methicillin resistance for Staphylococcus aureus from blood cultures.

Each participating country has appointed a national representative microbiologist and a representative epidemiologist. These representatives will also work together to analyse the data for other epidemiological studies. One of the representatives from each country acts as the national coordinator. His/her main task is to coordinate activities of the participating laboratories; arrange distribution and collection of questionnaires on susceptibility testing; and to collect and forward resistance data each quarter for international collation. Standardisation and microbiological quality control methods are being developed in consultation with the European Society of Clinical Microbiology and Infectious Diseases (ESCMID). EARSS is a component of the network-of-networks being established by the World Health Organization (WHO) for global surveillance.

EARSS recommended that the national coordinators should select enough laboratories in their countries to cover at least 20% of the total population. For community acquired pathogens the catchment population of the laboratories (the number of people living in the area they serve) will be considered as the denominator. The 400 or so laboratories participating in EARSS will cover well over 20% of the population in many countries (figure 1). Most of these laboratories are first-line clinical laboratories, rather than reference laboratories. Academic and non-academic hospitals are represented, and the spectrum extends from nursing homes to tertiary referral hospitals.

EARSS collects the following information by means of isolate record forms and questionnaires:

• information about an isolate and its susceptibility test results
• information about patients
• information about the laboratory methods used and denominator data
• data about the hospital(s) served by the laboratory used to generate the denominator.

Isolate record form. This form collects information about patients and isolates. EARSS requires the following information: sex, month and year of birth, date of specimen collection, name or code of hospital, hospital department, origin of patient, isolate specimen number, laboratory code, and antibiotic susceptibility testing results as specified in the protocol. Furthermore, the isolate record form allows other optional data to be collected: patient identifier (ID), clinical diagnosis, and susceptibility for other antibiotics.

Questionnaire on susceptibility testing. This questionnaire asks about test methods used, and collects denominator data from a laboratory and from the hospital(s) it serves. The facilities the hospital offers (intensive care unit, renal, transplant, cardiac surgery) and the number of bed days are requested. For nosocomial pathogens the number of bed days will be considered as the denominator. Data on patients and isolates can be related to information about the laboratory and hospital by means of a unique laboratory code that will be filled out on all isolate record forms and questionnaires. The authors are aware that the catchment population estimated by a laboratory may overestimate the true catchment population. True catchment populations can be calculated using postal codes of the patients from whom isolates are obtained. To preserve confidentiality this must be done at a national level.

To prevent duplicate isolates from being reported, laboratories are asked to send information only about the first isolate of each strain from each patient. These are referred to as ‘patient-isolates’. To be able to correct for duplicate isolates, the isolate record form asks for patient ID/code. This is marked as optional information, since in many countries there are legal limitations on the inclusion of patient identifiers. For the same reason we do not ask for date of birth, but month and year of birth. A code is needed, however, to exclude duplicates at the national level. If a patient identifier cannot be used in a particular country, we ask laboratories to use another (encrypted) code for a specific patient. In countries without legal limitations the national coordinator will use the patient identifier to exclude repeat isolates, removing the identifier before sending data to the central database.

Participating laboratories are offered two methods of data entry: electronic and on paper. Details vary from country to country, but if a laboratory opts for electronic data transfer they can use an existing laboratory information system or make use of Whonet (and/or Whonet-Baclink). WHO revised the existing microbiology laboratory database software Whonet4 for EARSS. Laboratories that do not process data electronically will forward the isolate record forms to their national coordinator, who will enter the data and send them each quarter to the RIVM in ASCII format. On receipt, the data will be checked for syntax errors (for example, dates and test results), and linked to denominator information collected by means of the questionnaire on susceptibility testing. After this validation, tables, figures, and geographical maps can be generated and published on an internet site. The aggregated data sets will also be used for more complex epidemiological studies, for example investigating relationships between geographical locations and antibiotic resistance.

Sufficient and timely feedback is essential for all surveillance systems. As well as information letters and a newsletter, data will be shared using the electronic infrastructure ‘Interchange of Data between Administrations’ (IDA) network of the EU. Within IDA an internet application will be developed to enable participating laboratories to export their ASCII data to the central EARSS database and to obtain selected information from the central database.

Quarterly feedback will be given on:

• the total number of S. aureus cases in blood and the proportion that are methicillin resistant (MRSA)
• prevalence of MRSA cases in blood per 100 patients
• incidence of MRSA cases in blood per 1000 patient days
• prevalence of oxacillin (penicillin) resistance of S. pneumoniae cases in blood and cerebrospinal fluid
• quarterly incidence of penicillin resistant S. pneumoniae cases in blood and cerebrospinal fluid per million population during the study.

About 400 laboratories will take part by sending data via national coordinators to the central EARSS database. Data collection began in some countries on 1 October 1998, and the first results are expected in April 1999. An EARSS manual that is downloadable from the website has been prepared, and a printed booklet is being distributed to participating laboratories.

In developing the protocol and questionnaire, the challenge was to balance scientific validity and feasibility. A first result is that consensus has been reached by leading microbiologists and epidemiologists on the protocol and logistical framework. EARSS is already acting as a catalyst for national surveillance systems.

For more information: see the EARSS website (http://www.earss.rivm.nl), contact the project coordinator Stef Bronzwaer (info.earss@rivm.nl), or a national coordinator by means of an email addresses on the website.

1. Thamdrup Rosdahl V, Borge Pederson K. Report from the invitational EU conference on ‘the microbial threat’. September 1998. (http://www.microbial.threat.dk)

2. Rahal K, Wang F, Schindler J, Rowe B, Cookson B, Houvinen P, et al. Reports on surveillance of antimicrobial resistance in individual countries. Clin Infect Dis 1997; 24 (Suppl 1): S69-75.

3. Kresken M, Wiedemann B. Development of resistance in the past decade in central Europe. J Antimicrob Chemother 1986; 18(suppl C): 235-42.

4. Seppala H, Klaukka T, Vuopio-Varkila J, Muotiala A, Helenius H, Lager K, et al. The effect of changes in the consumption of macrolide antibiotics on erythromycin resistance in group A streptococci in Finland. N Engl J Med 1997; 337: 441-6.

5. Pradier, C, Dunais H, Carsenti-Etesse, Dellamonica P. Pneumococcal resistance in Europe. Eur J Clin Microbiol Infect Dis 1997; 16: 644-7.