- Open Access
Antibiotic use in a tertiary healthcare facility in Ghana: a point prevalence survey
Antimicrobial Resistance & Infection Control volume 7, Article number: 15 (2018)
The global rise and spread of antibiotic resistance is limiting the usefulness of antibiotics in the prevention and treatment of infectious diseases. The use of antibiotic stewardship programs guided by local data on prescribing practices is a useful strategy to control and reduce antibiotic resistance. Our objective in this study was to determine the prevalence and indications for use of antibiotics at the Korle-Bu Teaching Hospital Accra, Ghana.
An antibiotic point prevalence survey was conducted among inpatients of the Korle-Bu Teaching Hospital between February and March 2016. Folders and treatment charts of patients on admission at participating departments were reviewed for antibiotics administered or scheduled to be administered on the day of the survey. Data on indication for use were also collected. Prevalence of antibiotic use was determined by dividing the number of inpatients on antibiotics at the time of survey by the total number of patients on admission.
Of the 677 inpatients surveyed, 348 (51.4%, 95% CI, 47.6–55.2) were on treatment with antibiotics. Prevalence was highest among Paediatric surgery where 20/22 patients (90.9%, 95% CI, 70.8–98.9) were administered antibiotics and lowest among Obstetrics patients with 77/214 (36%, 95% CI, 29.5–42.8). The indications for antibiotic use were 245/611 (40.1%) for community-acquired infections, 205/611 (33.6%) for surgical prophylaxis, 129/611 (21.1%) for healthcare associated infections and 33/611 (5.4%) for medical prophylaxis. The top five antibiotics prescribed in the hospital were metronidazole 107 (17.5%), amoxicillin-clavulinic acid 82 (13.4%), ceftriaxone 17(12.1%), cefuroxime 61 (10.0%), and cloxacillin 52 (8.5%) respectively. Prevalence of meropenem and vancomycin use was 12(2%) and 1 (.2%) respectively. The majority of patients 181 (52%) were being treated with two antibiotics.
This study indicated a high prevalence of antibiotic use among inpatients at the Korle-Bu Teaching Hospital. Metronidazole was the most commonly used antibiotic; mainly for surgical prophylaxis. There is the need to further explore factors contributing to the high prevalence of antibiotic use and develop strategies for appropriate antibiotic use in the hospital.
The discovery of antibiotics in the twentieth century immensely changed medical practice. It allowed for treatment of life threatening conditions and the conduct of complex medical procedures with a reduced risk of infections. Over time, global overuse of antibiotics has emerged as a major problem [1, 2], with up to 50% of patients reported to receive unnecessary antibiotics .
Excessive use of antibiotics leads to the development of complications such as antibiotic related diarrhoea and healthcare associated infections [4, 5]. It is also a significant contributor to the development and spread of multidrug resistant bacteria, currently regarded as global public health crisis [6,7,8,9]. Antibiotic overuse is driven by prescribing habits of practitioners, which are dynamic and likely to change over time. These habits are affected by multiple factors including pathogen related factors such as changing resistance profiles [6,7,8,9], prescriber related factors [10, 11] and external factors such as pressure from the pharmaceutical industry [10,11,12]. It has been suggested that antibiotic consumption will increase with rising incomes in developing countries and better access to medical insurance [6, 13]. Thus efforts to promote rational antibiotic use and infection control in these regions are paramount . Accurate information on the use of antibiotics are crucial to address the problem of antibiotic overuse and resistance . In Africa, there are few published studies on antibiotic use among inpatients [14,15,16]. At the Korle-Bu Teaching Hospital (KBTH), Accra Ghana, a survey conducted in 2000 showed a 53% prevalence of antibiotic use among inpatients with metronidazole being the most commonly used antibiotic . Unpublished data from a point prevalence study carried out in the Medical department of the same institution in 2012 showed that 67.9% of inpatients had been prescribed antibiotics.
Continuous evaluation of antibiotic use is important to preserve the effectiveness of antibiotics and minimize patient harm . The WHO recommends surveillance of antibiotic use as a strategy for improving antibiotic use among patients and also for controlling antibiotic resistance . Repeated point prevalence surveys of antibiotic use have been shown as a useful and cost effective way of evaluating antibiotic use in hospital [18, 19]. This study reports the results from a point prevalence survey of systemic antibiotic use conducted in 2016 among inpatients at the KBTH. The aim was to determine the prevalence of antibiotic use and indications for their use.
Study setting and design
The Korle-Bu Teaching Hospital is a 2000-bed tertiary referral hospital situated in Accra, Ghana with about 200 admissions per day . The hospital covers all medical specialties and provides referral healthcare services to an estimated population of 24 million Ghanaians. The hospital has an estimated average bed occupancy rate of 66.1% (i.e., n = 1321 patients per 2000 beds) . Acute care services provided by the hospital KBTH include internal medicine, general surgery, neurosurgery, orthopaedics, plastic surgery, opthalmology, ear, nose and throat, obstetrics and gynaecology, neonatal and adult intensive care, paediatrics, chest unit and cardiothoracic surgery. The point prevalence study involved the survey of inpatients records from hospital folders and was conducted in selected units of KBTH between February and March 2016. The survey instrument used in the study was adapted with modifications from the European survey of antimicrobial resistance . Only folders of inpatients on admission before 8 am on the day of the survey were included in the study. The departments included in this study were General Surgery, Orthopaedics, Paediatric Surgery, Genitourinary, Neurosurgery, Child Health (except the neonatal intensive care unit where rehabilitation works were ongoing), Medicine, Obstetrics and Gynaecology. These departments have the highest number of patient admissions per day. Wards with patients not matching the inclusion criteria and those with only day cases were excluded. As per study protocol, we excluded the Plastic Surgey & Burns Unit where patients are routinely administered long-term antibiotics on admissions.
A multidisciplinary team of doctors and an infectious disease specialists conducted the survey at selected units. Training and piloting of the study instrument was conducted for the survey team prior to the start of the study. Briefly, the training session chaired by the lead investigator introduced survey personnel to the objectives of the study; the purpose of each item on the data collection tool including definition of terms and indicator codes; methods for assessment of individual patient data; and the roles and responsibilities of each survey personnel. The session was concluded with a 1-day pilot point-prevalence survey in a Medical ward. This session was conducted a week prior to study inception to allow for corrective action. The point prevalence survey was conducted from 8 am to 8 pm daily within a 2-week period. Data collection from each unit was completed within the 12-h period. The survey team performed retrospective data collection using standardized case report forms which primarily comprise a patient-level structured template for documenting antimicrobial use on the day of survey (Additional file 1). They reviewed patients’ folders and treatment charts and collected information on antibiotic use only for the survey date. Folders of patients undergoing same day treatment or surgery were excluded. Relevant data elements such as age, sex, ward, and total number of patients on admission on survey day were retrieved. Other information collected included antibiotics administered and route of administration, their dosages, dosing intervals and number of missed doses. In addition, patients’ clinical diagnosis and indications for antibiotic use (hospital- or community-acquired) were recorded. In every case, the survey team decided on clinical grounds whether the patient was infected or not according to guideline definitions . Briefly, an active infection on the survey day was defined by the presence of signs and symptoms. Patients were considered infected even when signs and symptoms were no longer present but the patient was still receiving treatment for that infection on the date of the survey. The signs and symptoms were also reviewed to ascertain the indication for treatment (hospital-acquired, community-acquired, surgical prophylaxis and medical prophylaxis). The team referred to medical and nursing records and other relevant charts to determine whether the infection is a healthcare related. Clinical diagnosis of infections 48 h after admission was described as hospital-acquired infections. Infections occurring within 48 h of admission were categorized as community-acquired. The WHO anatomical therapeutic classification (ATC) of medicines was used for classifying drugs .
Data handling and statistical analysis
Data was entered into MS Access® and exported into statistical package for social sciences (SPSS version 21) for cleaning and analysis. The prevalence of antibiotic use was defined as a percentage of the total number of patients on any systemic antibiotic at the time of survey against the number of patients on admission. Descriptive statistics (e.g., cross-tabulations, frequencies, and proportions) were used to examine data on antibiotic use. Proportions were compared using Chi-square tests.
A total 677 in-patient folders were reviewed from participating units/departments. The majority of included patients were admitted at the Obstetrics unit (n = 214), Child Health (n = 111), Medicine (106), Orthopaedics (n = 84), General Surgery (n = 55), Gynaecology (n = 38), Neurosurgery (n = 23), Urology (n = 24) and Paediatric Surgery (n = 22). The median age of included patients was 39 years and 54.2% were females. Adults (age > 15 years) comprised 71%, followed by children (29 days to 15 years old; 19.9%) and neonates (0–28 days; 9.1%).
Prevalence and type of antibiotic use
Table 1 shows the prevalence of antibiotic use in the participating hospital. In all, 348 (51.4%, 95% CI, 47.6–55.2%) of admitted patients received one or more antibiotics at the time of survey. Parenteral formulations constituted the significant majority of all antibiotic prescriptions (59.9%, n = 366/611). They were administered in 32.8% (n = 222/677) of admitted patients. Significantly fewer patients (18.8%, n = 127/677) received oral antibiotics. Across hospital units, the proportion of patients on antibiotics ranged from 36% (95% CI, 29.5–42.8) in Obstetrics to 90.9% (95% CI, 70.8–98.9) in Paediatric surgery. Of 348 patients on antibiotics, 127 (36.0%, 95% CI, 31.5–41.8) were on one antibiotic, 181 (52.0%, 95% CI, 46.6–57.4) were on two antibiotics, 38 (10.9%, 95% CI, 7.9–14.8) were on three antibiotics whilst 2 (0.6%, 95% CI, 0.1–2.3) were on 4 antibiotics (Fig. 1). The median number of antibiotics per patient was 2. A total of 611 antibiotic prescriptions were recorded. The top five percentage use by drug classes (ATC level 5) were as follows: penicillin based drugs (24.9%, n = 152), nitroimidazoles (17.5%, n = 107), 3rd generation cephalosporins (13.8%, n = 84), 2nd generation cephalosporins (10.0%, n = 61), and aminoglycosides (8.8%, n = 54). The five most commonly used generic antibiotics (Table 2) were metronidazole (17.5%, n = 107), amoxicillin-clavulanic acid (13.4%, n = 83), ceftriaxone (12.1%, n = 74), cefuroxime (10.0%, n = 61), and cloxacillin (8.5%, n = 50). The obstetrics unit accounted for the highest use of metronidazole (50.5%, n = 54) and amoxicillin-clavulanic acid (58.5%, n = 48) respectively. Figure 2 compares the top five antibiotic prescriptions at KBTH in 2000  and 2017. In 2000, the most common antimicrobial in use at KBTH was metronidazole 212(44%), followed by ampicillin/amoxicillin 199(41.6%), gentamicin 168(34%) and cloxacillin 135(28%). In 2017, only metronidazole and cloxacillin remain in the top five antibiotics prescribed, albeit with significantly reduced percentage use. Cloxacillin recorded the least reduction (19.5%) in percentage antibiotic use, followed by metronidazole (26.5%), gentamicin (26.6%), amoxicillin (40.0%) and ampicillin (41.1%).
Indications for antibiotic use
Overall, 245 (40.1%) of 611 prescriptions were administered for community-acquired infections, 128 (21.0%) for hospital-acquired infections, 205 (33.6%) for surgical prophylaxis and 33 (5.4%) for medical prophylaxis (Table 3). The most prescribed antibiotic for surgical prophylaxis (n = 205) was metronidazole (32.2%, n = 66), followed by amoxicillin-clavulanic acid (25.9%, n = 53) and cefuroxime (13.7%, n = 28). For community-acquired infections, the three commonly prescribed antibiotics were ceftriaxone (18.0%, n = 44), cloxacillin and gentamicin (10.6%, n = 26). Of the 128 antibiotics used for hospital-acquired infections, the top three drugs were ceftriaxone (12.5%, 16.0), metronidazole (12.5%, 16.0), and cloxacillin (11.7%, n = 15). The proportion of antibiotic use by anatomic site is presented in Table 4. About a sixth (16.0%, n = 101) of all antibiotic prescriptions were for undefined reasons. The majority of antibiotics were prescribed for genitourinary and obstetric systems (25.2%, n = 154), and skin, soft tissue, bones and joints (19.4%, n = 119). The three most prescribed antibiotics for the former were metronidazole (40.3%, n = 62/154), amoxicillin- clavulanic acid (37.0%, n = 57/154), and cefuroxime (5.2%, n = 8/154). Clindamycin (30.3%, n = 36/119), cefuroxime (22.6%, n = 27/119) and ciprofloxacin (10.9%, n = 13/119) were the most indicated antibiotics for skin, soft tissue, bones and joints.
We conducted a point prevalence survey of antibiotic use among inpatients of the KBTH in Ghana. The study identified a high prevalence of antibiotic use with nearly 51% of inpatients receiving antibiotics. The antibiotics were mainly used for treatment of community-acquired infections (40.1%) and surgical prophylaxis (33.6%). The prevalence level reported in this study is comparable to a prevalence rate of 53% recorded in a previous study among inpatients at KBTH in 2000 . These rates may represent a relatively stable antibiotic use prevalence over the period.
The prevalence rate is however lower than 59.9% prevalence of antibiotic use recorded among out patients in primary healthcare facilities in Ghana . It is also lower than 64.6 and 67.4%, which are the prevalence rates recorded in hospitals in Benin and Vietnam, countries with similar developmental profiles as Ghana [14, 24]. The prevalence of antibiotic use in this study is however comparable to the prevalence of 49.9%  recorded in acute care hospitals in the United States of America; and higher than antibiotic prescribing rates in Europe, which range between 30.1–35% [21, 25]. Our indicated prevalence is also lower than that reported in the ARPEC study (36.7%) which surveyed children from 226 hospitals in 41 countries across six continents .
High rates of antibiotic use are usually associated with inappropriate use of antibiotics and the development of antibiotic resistance and healthcare associated infections [4, 8, 26]. In Vietnam and Turkey, antibiotics were deemed to be prescribed inappropriately in 30.8 and 46.7% of cases [12, 24]. High rates of antibiotic use observed at the KBTH may be due to lack of antibiotic formulary or uniform standard protocols for managing infections for the hospital, despite presence of a national standard treatment guidelines . Although this study was not designed to evaluate the appropriateness of antibiotic use, it is expected that with high prevalence of antibiotic use, a significant proportion of the use in KBTH may be inappropriate or unnecessary. This finding thus presents an opportunity to reduce antibiotic consumption in the hospital.
The prevalence of antibiotic use was highest among paediatric surgical patients (90.6%) and lowest among obstetric patients (36.0%). This fact could be explained by the high use of prophylactic antibiotics among paediatric surgical patients. The majority of patients (52%) were on two antibiotics. This is comparable to findings from the survey conducted in 2000, where 42.6% of patients in the hospital were on two antibiotics . A significant proportion of prescribed antibiotics (59.9%) were administered via the parenteral route. Highest use of parenteral antibiotics was found in the neurosurgical unit, child health and paediatric surgery unit. Similar rates especially among children has been reported in other studies . Such high usage of parenteral antibiotics may be associated with unsafe needle use . Although the prevalence of antibiotic use in the hospital seems to be stable, the agents used are changing. In the year 2000 the top five agents were metronidazole, followed by ampicillin/amoxicillin, gentamicin and cloxacillin . In this study, 26 different antibiotics were used among inpatients with metronidazole, amoxicillin-clavulanic acid, ceftriaxone, cefuroxime and cloxacillin contributing to more than 50% of all antibiotics prescribed. These agents were mainly used for surgical prophylaxis and treatment of community-acquired infections. The apparent change in agents over the years may point to increasing reports of antibiotic resistance from Ghana over the past decades [29,30,31]. Use of carbapenems (2.0%) and glycopeptides (0.2%) in the hospital were recorded to be low. These low rates may reflect the unavailability of these agents on the national health insurance scheme essential drug list and their association with high out-of-pocket purchase cost. It is however important to maintain low use of such agents in the hospital in the long term to avoid development of carbapenem resistant Enterobacteriaceae and vancomycin resistant enterococcus. Both pathogens are associated with very poor clinical outcomes [8, 32].
The majority (40%) of antibiotics were prescribed for community-acquired infections. Community- acquired infections were commonly treated with ceftriaxone (18%), with infections of the respiratory tract being in the majority (32.4%). This reflects a common clinical practice of using ceftriaxone as a first line agent for community-acquired pneumonia. However, only moderate penicillin resistance has been reported among Streptococcus pneumoniae isolates in Ghana [33, 34]. Frequent use of ceftriaxone may be a contributory factor to the high prevalence of extended spectrum beta-lactamase (ESBL) producing organisms seen at the KBTH . The most commonly used antibiotics were metronidazole and amoxicillin-clavulanic acid and the main indication was surgical prophylaxis. This was mainly accounted for by patients from the obstetrics and gynaecology department. Surgical prophylaxis in this group of patients is effective in reducing post-operative complications . It is common practice in the hospital to give long term antibiotics to patients undergoing caesarean section as prophylaxis, although it has been found not to be beneficial . High usage of anti-anaerobic antibiotics like metronidazole is associated with elimination of gut anaerobes leading to the growth promotion of nosocomial pathogens . This may promote the development of hospital-acquired infections such as vancomycin resistant enterococcus infections . This study supplements data on antibiotic use in the KBTH and Ghana. It sets a bench mark for which other studies may be compared with and highlights areas for possible improvement in antibiotic use if stewardship programmes are to be implemented.
Our study has some limitations. It is a one site study and results may not be extrapolated to other health facilities. The prevalence of antibiotic use may be under estimated since the survey was not conducted in every unit of the hospital. However, based on 62.5%  bed occupancy of the hospital and number of patients surveyed we believe our data is a good reflection on the current state of antibiotic use in the hospital.
In this point prevalence survey, we found a high prevalence of antibiotic use among inpatients of the KBTH with a relatively high prevalence among paediatric patients. There is high use of metronidazole and amoxicillin-clavulanic acid and low percentage use of vancomycin and meropenem. Majority of the antibiotics were used treatment of community-acquired infections and surgical prophylaxis. Attempts aimed at reducing antibiotic use in the hospital should be focused on the use of the top five antimicrobial agents as well as antibiotics used for surgical prophylaxis. There is also the need to further explore the factors contributing to the high prevalence of antibiotic use and the changing epidemiology of antibiotic use in the hospital.
Anatomical therapeutic classification
Central nervous system
Genitourinary and obstetrics
Korle-Bu Teaching Hospital
Skin, soft tissue, bone and joints
World Health Organization
Meyer E, Gastmeier P, Deja M, Schwab F. Antibiotic consumption and resistance: data from Europe and Germany. Int J Med Microbiol. 2013;303:388–95.
Van Boeckel TP, Gandra S, Ashok A, Caudron Q, Grenfell BT, Levin SA, et al. Global antibiotic consumption 2000 to 2010 : an analysis of national pharmaceutical sales data. Lancet Infect Dis. 2014;14:742–50. Available from: https://doi.org/10.1016/S1473-3099(14)70780-7
Hecker MT, Aron DC, Patel NP, Lehmann MK, Donskey CJ. Unnecessary use of antimicrobials in hospitalized patients: current patterns of misuse with an emphasis on the antianaerobic spectrum of activity. Arch Intern Med. 2003;163:972–8.
World Health Organization. Report on the Burden of Endemic Health Care-Associated Infection Worldwide. Geneva: World Health Organisation. 2011. p. 1–88.
Flanders SA, Saint S. WHy does antimicrobial overuse in hospitalized patients persist? JAMA Intern Med. 2014;174:661–2.
WHO. Antimicrobial Resistance Global Report on Surveillance. Geneva: World Health Organisation. 2014. p. 1–101.
Okeke IN, Laxminarayan R, Bhutta ZA, Duse AG, Jenkins P, O’Brien TF, et al. Antimicrobial resistance in developing countries. Part I: recent trends and current status. Lancet infect. Dis. 2005;5:481–93.
Iosifidis E, Antachopoulos C, Tsivitanidou M, Katragkou A, Farmaki E, Tsiakou M, et al. Differential correlation between rates of antimicrobial drug consumption and prevalence of antimicrobial resistance in a tertiary Care Hospital in Greece. Infect Control Hosp Epidemiol. 2008;29:615–22.
Holmes AH, Moore LS, Sundsfjord A, Steinbakk M, Regmi S, Karkey A, et al. Understanding the mechanisms and drivers of antimicrobial resistance. Lancet. 2016;387:176–87.
Hersh AL, Shapiro DJ, Pavia AT, Shah SS. Antibiotic prescribing in ambulatory pediatrics in the United States. Pediatrics. 2011;128:1053–61.
Vazquez-Lago JM, Lopez-Vazquez P, Lopez-Duran A, Taracido-Trunk M, Figueiras A. Attitudes of primary care physicians to the prescribing of antibiotics and antimicrobial resistance: a qualitative study from Spain. Fam Pract. 2012;29:352–60.
Camcioglu Y, Alhan E, Salman N, Somer A, Hatipog N, Celik U, et al. Inappropriate antimicrobial use in Turkish pediatric hospitals : a multicenter point prevalence survey. 2010;
Magill SS, Edwards JR, Beldavs ZG, et al. PRevalence of antimicrobial use in us acute care hospitals, may-september 2011. JAMA. 2014;312:1438–46.
Ahoyo T, Bankolé H, Adéoti F, Gbohoun A, Assavèdo S, Amoussou-Guénou M, et al. Prevalence of nosocomial infections and anti-infective therapy in Benin: results of the first nationwide survey in 2012. Antimicrob Resist Infect Control. 2014;3:17.
Versporten A, Sharland MF, Bielicki J, Drapier NB, Vankerckhoven V, Goossens H, et al. The antibiotic resistance and prescribing in European children project: a neonatal and pediatric antimicrobial web-based point prevalence survey in 73 hospitals worldwide. Pediatr Infect Dis J. 2013;32(6):e242–53.
Versporten A, Bielicki J, Drapier N, Sharland M, Goossens H, ARPEC project group. The worldwide antibiotic resistance and prescribing in European children (ARPEC) point prevalence survey: developing hospital-quality indicators of antibiotic prescribing for children. J Antimicrob Chemother. 2016;71:1106–17.
Newman MJ. Nosocomial and community acquired infections in Korle Bu teaching hospital, Accra. West Afr J Med. 2009;28:300–3.
Retamar P, Martín ML, Molina J, del Arco A. Evaluating the quality of antimicrobial prescribing: is standardisation possible? Enferm. Infecc Microbiol Clin. 2013;31(Suppl 4):25–30.
Willemsen I, Groenhuijzen A, Bogaers D, Stuurman A, van Keulen P, Kluytmans J. Appropriateness of antimicrobial therapy measured by repeated prevalence surveys. Antimicrob Agents Chemother. 2007;51:864–7.
Korle Bu Teaching Hospital. 2012 Annual Report. Accra: Korle-Bu Teaching Hospital; 2013.
Ansari F, Erntell M, Goossens H, Davey P, Ii E, Care H, et al. The European surveillance of antimicrobial consumption ( ESAC ) point-prevalence survey of antibacterial use in 20 European hospitals in 2006. Clin Infect Dis. 2009;49:1496–504.
WHO Collaborating Centre for Drug Statistics Methodology. Guidelines for ATC classification and DDD assignment. Oslo: WHO Collaborating Centre for Drug Statistics Methodology; 2013.
Ahiabu M-A, Tersbol BP, Biritwum R, Bygbjerg IC, Magnussen P. A retrospective audit of antibiotic prescriptions in primary health-care facilities in eastern region, Ghana. Health Policy Plan. 2015;31(2):250–8.
Thu TA, Rahman M, Cof S, Mbbs H, Sakamoto J, Hung NV. Antibiotic use in Vietnamese hospitals: a multicenter point-prevalence study. Am J Infect Control. 2012;40:840–4.
ECDC. Point prevalence survey of healthcare-associated infections and antimicrobial use in European acute care hospitals. European Centre for Disease Prevention: Stockholm; 2013.
Goossens H. Antibiotic consumption and link to resistance. Clin Microbiol Infect 2009;15:12–5.
Ministry of Health. Ghana standard treatment guidelines. 6th ed; 2010.
Chowdhury AA, Roy T, Faroque A, Bachar SC, Asaduzzaman M, Nasrin N, et al. A comprehensive situation assessment of injection practices in primary health care hospitals in Bangladesh. BMC Public Health. 2011;11:779.
Enweronu-Laryea CC, Newman MJ. Changing pattern of bacterial isolates and antimicrobial susceptibility in neonatal infections in Korle-Bu teaching hospital, Ghana. East Afr Med J. 2007;84:164–7.
Newman MJ, Frimpong E, Donkor ES, Opintan JA, Asamoah-Adu A. Resistance to antimicrobial drugs in Ghana. Infect Drug Resist. 2011;4:215–20.
Groß U, Amuzu SK, de Ciman R, Kassimova I, Groß L, Rabsch W, et al. Bacteremia and antimicrobial drug resistance over time, Ghana. Emerg Infect Dis. 2011;17:1879–82.
Kirst HA, Thompson DG, Nicas TI. Historical yearly usage of Vancomycin. Antimicrob Agents Chemother. 1998;42:1303–4.
Dayie NT, Arhin RE, Newman MJ, Dalsgaard A, Bisgaard M, Frimodt-Møller N, et al. Penicillin resistance and serotype distribution of Streptococcus Pneumoniae in Ghanaian children less than six years of age. BMC Infect Dis. 2013;13:490.
Dayie NT, Arhin RE, Newman MJ, Dalsgaard A, Bisgaard M, Frimodt-Møller N, et al. Multidrug-resistant Streptococcus Pneumoniae isolates from healthy Ghanaian preschool children. Microb Drug Resist. 2015;21:636–42.
Obeng-Nkrumah N, Twum-Danso K, Krogfelt KA, Newman MJ. High levels of extended-Spectrum Beta-Lactamases in a major teaching Hospital in Ghana: the need for regular monitoring and evaluation of antibiotic resistance. Am J Trop Med Hyg. 2013;89:960–4.
Smaill FM, Grivell RM. Antibiotic prophylaxis versus no prophylaxis for preventing infection after cesarean section. Cochrane Database Syst. 2014;10:CD007482.
Donskey CJ, Chowdhry TK, Hecker MT, Hoyen CK, Hanrahan JA, Hujer AM, et al. Effect of antibiotic therapy on the density of Vancomycin-resistant Enterococci in the stool of colonized patients. N Engl J Med. 2000;343:1925–32.
Edmond MB, Ober JF, Weinbaum DL, Pfaller MA, Hwang T, Sanford MD, et al. Vancomycin-resistant Enterococcus faecium bacteremia: risk factors for infection. Clin Infect Dis. 1995;20:1126–33.
We thank Drs. Elizabeth Agyare, Emily Boakye-Yiadom, Goldie Collinwood Williams and Okyere-Dankwa Kontor for their help with data collection. We thank the staff and patients of the departments and units where the data was collected.
The study received no external funding.
Availability of data and materials
Data is available upon request.
Ethics approval and consent to participate
The study received ethical approval from the Institutional Review Board of the Korle-Bu Teaching Hospital (KBTH-IRB/005/2015).
Consent for publication
Not applicable. This study does not contain any individual persons data. Only hospital folders were reviewed in this study.
The authors declare no competing interests.
Springer Nature remains neutral with regard to jurisdictional claims in published maps and institutional affiliations.
About this article
Cite this article
Labi, A., Obeng-Nkrumah, N., Nartey, E.T. et al. Antibiotic use in a tertiary healthcare facility in Ghana: a point prevalence survey. Antimicrob Resist Infect Control 7, 15 (2018). https://0-doi-org.brum.beds.ac.uk/10.1186/s13756-018-0299-z
- Point prevalence
- Antibiotic stewardship