Audit of Antibiotic Prescribing in Two Governmental Teaching Hospitals in,Usman Hadi

8/10/2019 Audit of Antibiotic Prescribing in Two Governmental Teaching Hospitals in,Usman Hadi

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O R I G I N A L A R T I C L E 10.1111/j.1469-0691.2008.02014.x

Audit of antibiotic prescribing in two governmental teaching hospitals inIndonesiaU. Hadi1, D. O. Duerink2, E. S. Lestari3, N. J. Nagelkerke4, M. Keuter5, D. Huis int Veld5,E. Suwandojo1, E. Rahardjo6, P. van den Broek2 and I. C. Gyssens7,8,9 on behalf of the study group

Antimicrobial Resistance in Indonesia: Prevalence and Prevention (AMRIN)*

1Department of Internal Medicine, Dr Soetomo Hospital School of Medicine, Airlangga University,SBY, Indonesia, 2Department of Infectious Diseases, Leiden University Medical Centre, Leiden,The Netherlands, 3Department of Clinical Microbiology, Dr Kariadi Hospital School of Medicine,Diponegoro University, SMG, Indonesia, 4Department of Community Medicine, United Arab EmiratesUniversity, Al Ain, UAE, 5Department of Internal Medicine, Nijmegen University Centre for InfectiousDiseases International Health (NUCI-IH), Radboud University Medical Centre, Nijmegen, TheNetherlands, 6Department of Anaesthesiology, Dr Soetomo Hospital School of Medicine, AirlanggaUniversity, SBY, Indonesia, 7Section of Infectious Diseases, Department of Medical Microbiology& Infectious Diseases and Department of Internal Medicine, Erasmus MC University Medical Centre,Rotterdam, 8Department of Medical Microbiology and Infectious Diseases, Canisius-Wilhelmina

Hospital and 9

Department of Internal Medicine, Nijmegen University Centre for Infectious Diseases(NUCI), Radboud University Medical Centre, Nijmegen, The Netherlands

A B S T R A C T

This article estimates the magnitude and quality of antibiotic prescribing in Indonesian hospitals andaims to identify demographic, socio-economic, disease-related and healthcare-related determinants ofuse. An audit on antibiotic use of patients hospitalized for 5 days or more was conducted in two teachinghospitals (A and B) in Java. Data were collected by review of records on the day of discharge. The methodwas validated through concurrent data collection in Hospital A. Multivariate logistic regression analysiswas performed to determine variables to explain antibiotic prescribing. Prescriptions were assessed bythree reviewers using standardized criteria. A high proportion (84%) of 999 patients (499 in Hospital A

and 500 in Hospital B) received an antibiotic. Prescriptions could be categorized as therapeutic (53%) orprophylactic (15%), but for 32% the indication was unclear. Aminopenicillins accounted for 54%, andcephalosporins (mostly third generation) for 17%. The average level of antibiotic use amounted to39 DDD100 patient-days. Validation revealed that 30% of the volume could be underestimated due toincompleteness of the records. Predictors of antibiotic use were diagnosis of infection, stay in surgical orpaediatric departments, low-cost nursing care, and urban residence. Only 21% of prescriptions wereconsidered to be definitely appropriate; 15% were inappropriate regarding choice, dosage or duration,and 42% of prescriptions, many for surgical prophylaxis and fever without diagnosis of infection, weredeemed to be unnecessary. Agreement among assessors was low (kappa coefficients 0.130.14). Despitemethodological limitations, recommendations could be made to address the need for improvingdiagnosis, treatment and drug delivery processes in this setting.

Keywords Antibiotic policy, antibiotic use, Asia, prescribing practice, quality

Original Submission: 25 September 2007; Revised Submission:1 February 2008; Accepted: 31 March 2008

Edited by J.-C. Desenclos

Clin Microbiol Infect2008; 14: 698707I N T R O D U C T I O N

Antimicrobial resistance is increasing worldwide,in Gram-positive as well as Gram-negative bacte-ria [1,2]. Antibiotic use contributes to the emer-gence of antimicrobial resistance by selectivepressure [3]. In developing countries, antibiotics

Corresponding author and reprint requests: U. Hadi, Depart-ment of Internal Medicine, Dr Soetomo Hospital School ofMedicine Airlangga University, Jl. Manyar Tirtomoyo II21,Surabaya 60118, IndonesiaE-mail: [email protected]

*MembersoftheAMRINstudygrouparegivenintheAppendix.

2008 The AuthorsJournal Compilation 2008 European Society of Clinical Microbiology and Infectious Diseases


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are prescribed for 4497% of patients in hospital,often unnecessarily or inappropriately [48]. Sev-eral socio-economic and behavioural factors arethought to contribute to the inappropriate use ofantibiotics and, consequently, to the increased

incidence of bacterial resistance in developingcountries [9]. In Indonesia, pathogens have be-come resistant to many classes of antibiotics[10,11]. There are no reliable data concerning thequantity of antibiotic use and the appropriatenessof prescriptions in Indonesian hospitals.

In Indonesia, hospital care is delivered bypublic and private providers. Public hospitalsinclude large governmental teaching hospitals(Class A and Class B) and district hospitals. InClass A hospitals, all medical (sub)specialties areavailable. Public hospitals provide health services

to everyone at heavily subsidised prices. Healthinsurance schemes are mandatory for governmentemployees and health subsidies are available forthe poor [12]. However, up to 86% of thepopulation is not covered by any form of healthinsurance [12], and drugs for inpatients must bepurchased from a (hospital) pharmacy and paidfor in cash. The need to pay in cash also applies toall laboratory investigations.

The Antimicrobial Resistance in Indonesia:Prevalence and Prevention (AMRIN) study wasaimed at investigating antibiotic use and antimi-

crobial resistance inside and outside hospitals onthe island of Java, Indonesia. Recent antibiotic usewas the most important determinant of carriageof resistantEscherichia coliin the study populationscreened upon discharge from hospital [13], andhigh rates of resistance to ampicillin (73%),trimethoprimsulphamethoxazole (56%) chl-oramphenicol (43%) and ciprofloxacin (22%)were found among these E. coli isolates [14]. Inthis article, we describe the magnitude andquality of antibiotic use of this patient groupand we explore the contribution of demographic,socio-economic, healthcare-related and disease-related variables to antimicrobial prescribing. Wehypothesized that, as well as being driven bydiagnosis of infection, antibiotic consumptioncould also be determined by these variables.

P A T I E N T S A N D M E T H O D S

Population and healthcare setting

The study was performed in two Class A governmentalteaching hospitals. Dr Soetomo University Hospital in

Surabaya (Hospital A, 1432 beds) and Dr Kariadi UniversityHospital in Semarang (Hospital B, 900 beds) report c. 60 000and 26 000 admissions per year, respectively. Patients whowere hospitalized in the departments of internal medicine,surgery, obstetrics and gynaecology (O&G) and paediatrics for5 days or more were eligible for inclusion in the study on the

day of discharge. Only general wards of medicine and surgerywere included; specialized units (predominantly present inHospital A), renal units and intensive care units wereexcluded. Patients were hospitalized in three different nursingclasses ranging from I to III, class I being the most expensive. Innursing class I, patients were in a single room and antibioticswere prescribed by a senior doctor. In nursing class II, patientswere in two-bed rooms, and in class III, 2530 patients werehospitalized in a 2530-bed ward; the treating physician was aresident under senior supervision. In Hospital A, antibioticpolicy guidelines and protocols had been developed in 1992,but they had not been updated. In Hospital B, no documentsconcerning antibiotic policy were available.

Study design and inclusion procedure

Written informed consent was obtained from all participantsand caretakers of children before enrolment. The medicalethics committees of the hospitals approved of the studyprotocol (ethical clearance Nos. Panke.KKE2001 (Surabaya)and 11ECFKRSDK2001 (Semarang)). The patient selectionprocedure is shown in Fig. 1. Patients were selected on threefixed study days per week with a maximum of four patientsper day per department. Inclusion was discontinued when thepredetermined number of 125 patients per department wasreached. When more than four patients were discharged onone study day, the patients with the longest duration of staywere selected. Inclusion started at 8 a.m.

Data collection

On the day of discharge, data from the medical and nursingrecords were noted in case report forms in both hospitals bythe same team of physicians and a number of trained datacollectors (medical students or junior physicians). The patients,or caretakers of children, were interviewed to obtain data ondemographic and socio-economic variables. Data on antibioticuse were extracted from medical records. Data on prescrip-tions (type of antibiotic, dose, frequency, duration) wereobtained from the physicians notes. Data on consumptionwere obtained from the nurses notes in the same (standardformat) record. Medication charts with the actual record ofeach dose were not available. Antibiotic consumption wasdefined as the actual times and number of days that the

prescribed antibiotic was recorded as shown in these nursingrecords. Patients, physicians or nurses were not approachedwhen information was missing.

Antimicrobial drug use was expressed as a percentage ofpatients with at least one administered dose and as defineddaily doses (DDD)100 patient-days. The latter was calculatedfrom the consumption data using the Anatomical TherapeuticChemical classification index from the WHO CollaboratingCentre for Drugs Statistics Methodology 2003 (http://www.whocc.no/atcddd/; accessed 15 July 2006). We usedthe term prescription to indicate each time an antibiotic wasprescribed. Modifications in type of antibiotic, dose or routewere considered to be new prescriptions [15].

Hadi et al. Antibiotic prescribing in public hospitals in Indonesia 699

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Validation of the quantitative data

The retrospective data collection was validated through

concurrent data collection in Hospital A. Thus, a randomsample of c. 40 patients was selected (ten in each depart-ment for whom antibiotics had been prescribed on the dayof admission). An experienced pharmacist interviewed thepatients and nurses to gain information concerningantibiotic use on the previous day. The pharmacist alsochecked the nurses injection book, which was not part ofthe medical and nursing records, but did contain data onantibiotic administration. In cases of discrepanciesbetween the patients and nurses interviews, the pharma-cist made the final decision after obtaining consensusbetween the patient and nurse. In order to make blindcomparisons, the medical and nursing records were not

checked by the pharmacists. The nurses were not informedof the reason for the validation, and, to avoid influencingprescription behaviour, the treating physicians were not

approached by the pharmacist. These data on antibiotic usewere compared with the data extracted from the medicalrecords on the day of discharge by the researchers. In total,100 fully documented patient-days per department werecompared.

Variables

Demographic variables included hospital, sex, age (over18 years of age or 17 years and younger), living area (urbanor rural) and ethnicity. Socio-economic variables includedmonthly family income level (below or above poverty line)[16], employment (paid work for an employer on a regular

Inclusion procedure

by the AMRIN study team

Hospital A

July October 2001Departments Med, Surg,

Ob/Gyn, Paed discharged

n= 2283

Hospital B

January April 2002Departments Med, Surg,

Ob/Gyn, Paed discharged

n= 2663

Excluded

LOS < 5d

n= 1424

Excluded

LOS < 5d

n= 1565

Included

125 patients/department

n= 500

Included

125 patients/department

n= 500 (58%)

AMRIN inpatient

study population

Hospital B

Excluded

n= 1

protocol violation

n= 499 (45%)AMRIN inpatient

study population

Hospital A

Fig. 1. Study design of the Antimicrobial Resistance in Indonesia: Prevalence and Prevention (AMRIN) study. Med,medicine; Surg, surgery; ObGyn, obstetrics and gynaecology; Paed, paediatrics; LOS, length of stay.

700 Clinical Microbiology and Infection, Volume 14 Number 7, July 2008



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basis or having a regular income from a profession, e.g. farmer;housewives and students were not considered to be unem-ployed), education (primary school not completed vs. primaryschool education and higher), and health insurance. Depart-ment and nursing class were regarded as healthcare-relatedvariables and diagnosis of infection was chosen as the disease-

related variable.

Quality evaluation

The quality of antibiotic use was assessed according to themethod of Gyssenset al. [15]. Twenty records of patients whoused antibiotics were randomly selected from the 125 recordsof each department, totalling 160 records. Abstracts for reviewwere made using the clinical information from the records.Prescriptions were considered therapeutic if (a) the medicalrecord contained information that the antibiotic was pre-scribed for therapy, or (b) an infectious disease was diagnosed,or (c) clinical signs of infection, e.g. fever, were present on theday that antibiotic therapy was started. Antibiotics wereclassified as prophylactic if (a) the medical record stated that

the antibiotic was prescribed for prophylaxis or (b) theantibiotic was given for only 1 day relative to the timing of asurgical intervention. In all other cases, prescriptions weretermed as being of unknown indication.

Three clinicians, one from the relevant department, onefrom another department of the same hospital and one foreignexpert on infectious diseases, independently reviewed everyabstract form. The Indonesian reviewers were chosen on thebasis of seniority and not on the basis of experience inantimicrobial therapy, as these experts were not available. Theforeign expert had extensive experience with the evaluationmethod [17,18]. The Indonesian reviewers were trained by oneof the Dutch investigators (ICG) during a 2-day course. Everyprescription was evaluated with the help of a flow chart, andprescriptions were categorized as follows: definitely appropri-

ate; not indicated; inappropriate regarding dose, interval orroute; inappropriate regarding duration; inappropriate withrespect to efficacy, toxicity, broadness of spectrum or costs;and insufficient information [15]. The assessments of theindividual reviewers were summarized in a combined evalu-ation when at least two of the three reviewers evaluated theprescription as appropriate, not indicated or inappropriate.All other cases were classified as no agreement amongreviewers.

Statistical analysis

Individuals with experience of antibiotic use were comparedto individuals without experience of antibiotic use. Propor-tions were compared among groups using the standard chi-square test using a p value of


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Hospital B, inclusion of nursing class I patientswas not allowed. The mean (11.8 vs. 8.3 days)and median (9 vs. 6 days) duration of stay ofincluded patients was higher than that of non-included patients, indicating that the consump-

tion data primarily reflected antibiotic use inpatients with prolonged hospital stay.

Diagnoses on discharge

The most frequent diagnosis upon dischargewas infection; 278 cases (28%). In Hospital A,the number of infections was double that inHospital B (193 vs. 85, p


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collection by the pharmacist yielded 1101 doses,whereas only 775 administered doses wereretrieved from the nursing records of the samecalendar days for these patients. Three hundredand eighty-three (35%) doses were not written in

the record, and 57 of 775 (7%) doses prescribed inthe physicians notes of the medical records werereported by patients as not taken or by nurses asnot administered. Thirty-eight (67%) of thesedoses were metronidazole, cefotaxime, ceftriax-one, ciprofloxacin or clindamycin, i.e. the morecostly or less commonly prescribed antibiotics.Overall, the retrospective record review upondischarge revealed an underestimation of 326antibiotic doses, indicating that the actual antibi-otic use by the patients was probably about 30%higher.

Determinants of antibiotic use

Multivariate analysis of possible determinants forantibiotic use in hospitalized patients identifiedfour independent variables (Table 3). The mostimportant determinant for antibiotic use was thedepartment from which the patient was dis-charged. The likelihood of receiving an antibioticwhile hospitalised in the departments of surgery,O&G or paediatrics was four to five times that inthe department of internal medicine. Having

an infection was the second most importantdeterminant of antibiotic use. Variables thatindependently determined antibiotic use wereliving in an urban area and being nursed in aclass III bed facility.

Quality of antibiotic prescriptions

Overall, 160 medical records containing 1153antibiotic prescriptions were reviewed (Table 4).In only 2% of cases did two or more reviewersstate that the medical record did not provideenough information for an assessment of the(non-) indication or inappropriateness of antibi-otics. Approximately 60% of prescriptions wereclassified as incorrect, either unjustified (notindicated) or inappropriate, by at least two ofthe three reviewers. Combined assessmentresulted in 21% of definitely appropriateprescriptions, 28% in Hospital A and 16% inHospital B (p


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same number of prescriptions in the variousassessment categories (Fig. 2), mutual agreementwas low (kappa coefficient 0.13) because prescrip-tions were allocated to different categories. Theforeign experts judgement differed strongly from

that of the Indonesian reviewers (kappa coeffi-cients 0.13 and 0.14), particularly regarding theclassification of prescriptions as definitely appro-priate (Category I) and not indicated (Cate-gory V) (Fig. 2).

D I S C U S S I O N

This audit in two Indonesian governmentalhospitals showed that a high proportion (84%)of inpatients was treated with antibiotics. Theproportion of patients treated with antibiotics was

similar in both hospitals, despite the fact that inHospital A the number of patients diagnosedwith an infection was double that in Hospital B.In surgical and paediatric wards, almost allpatients were using antibiotics during their stay.As compared to reviews in teaching hospitalsreported in the literature, this figure is in thevery high range. Studies in low-income and

developing countries have reported that 4497%of admitted patients are treated with antibiotics[48]. In general wards of Western hospitals,2130% of patients were given antibiotics [17]. Ina recent point-prevalence survey of five European

university hospitals, only 1432% of patientswere given antibiotics [19]. In contrast to thishigh proportion of patients treated with antibiot-ics, a consumption of 39 DDD100 patient-dayswas calculated. This is a very low figure ascompared to other studies that used this unit ofmeasurement in teaching hospitals in developing[5,6] and Western [17,18] countries. There areseveral explanations for this relatively low con-sumption figure in the present study. A validationstudy in Hospital A revealed that 30% of thevolume could be underestimated due to incom-

pleteness of nursing records. Unlike in Westernhospitals, there was no actual record of each dosebeing administered on a medication chart.Second, children comprised one-third of the studypopulation for which the consumption was cal-culated in DDD. No specific DDD are availablefor children. A third possible explanation is thatthe dosages for cephalosporins and amphenicolsprescribed to adults were lower than the DDDfor these antibiotics. A fourth reason may be that,in this study, the day of admission and the day ofdischarge were both counted as days of exposure.

When the antibiotic use data are adjusted for theinclusion of children, admission and dischargedays are counted as 1 day of exposure, and the30% rate of underestimation is taken into account,antibiotic consumption is 62 DDD100 patient-days. Even after this correction, the volume ofantibiotic use in the Indonesian hospitals in thisstudy was low as compared to published data.For example, in a Brazilian tertiary hospital,antibiotic use was 84 DDD100 patient-days in1990 and increased to 125 in 1996 [6]. In a teachinghospital in Iran, antibiotic consumptionamounted to 102 DDD100 patient-days [5]. Con-sumption was also lower than in a report from theinternal medicine department of a Dutch univer-sity hospital, where antibiotic use increased from60 to 73 DDD100 patient-days after an inter-vention [18].

In this study, one important determinant of use,besides the clinical diagnosis of infection, washospitalization in a surgical department, eitherO&G or general surgery. In these departments,many doses of oral aminopenicillins, given post-

0

100

200

300

400

500

600

700

800

Categories

Numberofprescriptions Reviewer 1

Reviewer 2

Reviewer 3

Cat-I Cat-V Cat-other Cat-VI

Fig. 2. Quality assessment of antimicrobial drug prescrip-tions (n = 1153) by three reviewers. Reviewer 1 was asenior physician from the relevant department, reviewer 2was from another department, and reviewer 3 was aninfectious diseases expert from The Netherlands. Cat-I,category I, definitely appropriate; Cat-V, category V,unjustified, no indication; Cat-other, inappropriate forseveral reasons; Cat-VI, unevaluable due to insufficientinformation.




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operatively until discharge to patients withoutsigns of infection, were identified as unnecessaryprophylaxis in the quality evaluation. Anotherhealthcare-related variable, nursing class III, thatdetermined antibiotic use could also be inter-

preted as socio-economic (poor patient popula-tion), although the socio-economic variables oflow income and lack of health insurance were notindependent determinants of antibiotic use inhospital. Interestingly, nursing class was not asignificant indicator of hospital-acquired infectionin the same period in these hospitals [20]. Thisfinding may point to a difference in the prescrib-ing behaviour of the junior physicians in charge ofthe class III wards, as compared to that of seniorphysicians in charge of class I rooms. The onlypositive demographic determinant, living in an

urban area, may point towards a higher demandfor antibiotics on the part of patients who are citydwellers. The choice of antibiotics in the twohospitals was as strikingly similar as the highproportion of patients treated with antibiotics.Low-cost amoxycillin, ampicillin and ampheni-cols accounted for more than half of the prescrip-tions. In the absence of updated guidelines,economic and other, unidentified determinantsof prescribing in developing countries, such asfear of bad clinical outcomes and conformancewith peers [21], could be responsible for this

uniform prescribing behaviour.The quality evaluation confirmed over-pre-scription in surgical and O&G departments andidentified major room for improvement in surgi-cal prophylaxis, which is a frequently encoun-tered problem area in Western universityhospitals also [1719], and identified major roomfor improvement in surgical prophylaxis. Assess-ment reports of antibiotic prescriptions in hospi-tals in low-income or developing countries arescarce. Two studies that assessed the quality ofprescribing in a teaching hospital in Thailandreported 92% of prescriptions as being incorrectin 1985 [22] and 26% of prescriptions as beingincorrect in 2000 [23]. As compared with reportsfrom a Dutch university hospital before anintervention in 1992, the quality of antibioticprescribing in the two Indonesian hospitals wasnot particularly low. Using the same auditmethodology, 15% of the prescriptions wereassessed as appropriate, 39% as unjustified and46% as inappropriate at the baseline before anintervention [17].

In this study, agreement among reviewers waslower than in the studies in a Dutch universityhospital, in which the foreign expert was one ofthe reviewers [17,18]. Disagreement with theIndonesian reviewers was probably due to the

completely different frame of reference. Steinet al.described similar assessor disagreements duringtheir survey in Zimbabwe, illustrating the diffi-culties encountered when applying acceptedguidelines for antibiotic use to developing coun-tries [24]. More puzzling was the strong disagree-ment among the Indonesian reviewers. A possibleexplanation is that, in the absence of specifictraining in infectious diseases, they had no agreedstandards against which to judge prescribingbehaviour, and they had very different back-grounds as surgeons, gynaecologists, paediatri-

cians or internists; also, local medical culture, e.g.peer influence, may have played a role [21]. Thelimited agreement among reviewers could prob-ably be increased by longer and better training inevidence-based clinical practice to improve exper-tise, although this would not result in full agree-ment [17]. Assessment of adherence to guidelines,rather than reviewers opinions, does not guaran-tee high kappa coefficients [25].

There are several limitations of this study. First,the study was designed to concurrently detectnasal and rectal carriage of resistant bacteria in

the study population [13]. This required theinclusion of patients admitted for 5 days or moreprior to discharge. Therefore, the consumptionfigures are not fully comparable with otherreports. Nevertheless, this information can beconsidered very relevant, because the group oflong-stay patients was the most vulnerable, con-sidering that antibiotic use is related to theacquisition of multidrug-resistant bacteria andtheir infectious consequences. Also, a possiblerole of case-mix in explaining the striking differ-ence in consumption between the current studypopulations and those of Western countriescannot be entirely excluded. Second, the datacollection concerning antibiotic use relied onretrospective review of medical records on theday of discharge. Although this method is com-monly used in developing countries [48], thelevel of use could not be measured accurately inthis study, due to the absence of accurate med-ication charts and the poor quality of medicationrecord-keeping in the hospitals. The irregular anddelayed dispensing of antibiotics in the hospitals




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appeared to be influenced by the fact that mosthospitalized patients were obliged to pay cash forthe prescribed drugs at a (hospital) pharmacy,rather than an unstable supply of drugs to thehealthcare facility. Concurrent review with daily

interviews, as during the validation, would ren-der the collection more accurate, but was consid-ered not to be feasible for 1000 patients. Incontrast, measurement of the proportion ofpatients that received antibiotics, deduced fromphysicians notes, was accurate. Similarly, theclinical information from the medical records wassufficient for quality assessment. In the Dutchuniversity hospital, up to 10% of prescriptionscould not be evaluated [17,18], mostly because ofthe complexity of the cases. Third, the data werecollected during different seasons, resulting in a

different case-mix. However, the uniformity ofthe data collection method, using the sametrained data collectors in both hospitals, is animportant asset of the study. Finally, the findingscannot be generalized for Indonesia. Hospi-tals A and B are probably representative of othergovernmental teaching hospitals, but not of themany private hospitals that deliver healthcare to awealthy proportion of the Indonesian population.It is of note that, in Indonesia, senior physicians inpublic hospitals can offer private services afteroffice hours and practise in both types of institu-

tion [12]. We cannot exclude the possibility thatantibiotic use in private hospitals differs substan-tially from that in governmental hospitals due tosocio-economic and cultural factors.

In conclusion, the drug utilization method forquantitative and qualitative assessment devel-oped in Western hospitals may need to be adaptedfor the Indonesian hospital setting. Some method-ological issues could be resolved by conductingconcurrent point-prevalence measurements ofobserved use and by employing more experiencedassessors. However, this audit revealed the needfor strong commitment on the part of the medicalcommunity to major improvements in medicaldiagnoses and medication record-keeping, in thetraining of those who review the process ofprescribing, and in the clinical and diagnosticpractice guidelines for surgical prophylaxis andsepsis. Feedback of results set the stage foracceptance of recommendations for hospital-widepractice and future interventions, including reor-ganization of the drug distribution policy ofhospital pharmacies, introduction of appropriate

medication charts, and better use of microbiolog-ical diagnostic facilities.

A C K N O W L E D G E M E N T S

The data collectors, S. Werter, K. Cheung, E. B. Santoso, H.Susatyo, A. Achyar, S. Wibisono, Bramantono, Yeni, Upik,Irma, P. Hadi, Vera, R. de Jong and R. van der Meulen, aregratefully acknowledged.

T R A N S P A R E N C Y D E C L A R A T I O N

Financial support was provided by the Royal NetherlandsAcademy of Arts and Sciences, within the framework of theScientific Programme IndonesiaNetherlands (SPIN 1). Theauthors declare no conflict of interest in relation to this study.

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A P P E N D I X

Dr Soetomo Hospital School of MedicineAirlangga University Surabaya, Indonesia:

W. Gardjito; E. P. Kolopaking; K. Wirjoatmodjo;D. Roeshadi; E. Suwandojo; H. Parathon; U. Hadi;N. Zairina; E. Isbandiati; K. Deborah; K. Kunt-aman; N. M. Mertaniasih; M. Purwanta.

Dr Kariadi Hospital School of MedicineDiponegoro University Semarang, Indonesia:

A. Soejoenoes; B. Riyanto; H. Wahjono;M. Adhisaputro; B. Triwara; J. Syoeib; E. S.Lestari; B. Wibowo; M. A. U. Sofro; H. Farida;M.M.D.E.A.H. Hapsari; T. L. Nugraha.

Leiden University Medical Centre, Leiden,The Netherlands:

P. J. van den Broek; D. O. Duerink.Erasmus University Medical Centre,

Rotterdam, The Netherlands:H. A. Verbrugh; I. C. Gyssens.

Radboud University Medical Centre,Nijmegen, The Netherlands:M. Keuter.



Documents

Audit of Antibiotic Prescribing in Two Governmental Teaching Hospitals in,Usman Hadi