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Determinants of antibiotic prescribing for upper respiratory tract infections in an emergency department with good primary care access: a qualitative analysis

Published online by Cambridge University Press:  08 March 2019

Y. Y. Chan
Affiliation:
Department of Clinical Epidemiology, Office of Clinical Epidemiology, Analytics, and Knowledge, Tan Tock Seng Hospital, Singapore, Singapore
M. A. Bin Ibrahim
Affiliation:
Department of Clinical Epidemiology, Office of Clinical Epidemiology, Analytics, and Knowledge, Tan Tock Seng Hospital, Singapore, Singapore
C. M. Wong
Affiliation:
Department of Clinical Epidemiology, Office of Clinical Epidemiology, Analytics, and Knowledge, Tan Tock Seng Hospital, Singapore, Singapore
C. K. Ooi
Affiliation:
Department of Emergency Medicine, Tan Tock Seng Hospital, Singapore, Singapore
A. Chow*
Affiliation:
Department of Clinical Epidemiology, Office of Clinical Epidemiology, Analytics, and Knowledge, Tan Tock Seng Hospital, Singapore, Singapore
*
Author for correspondence: A. Chow, E-mail: Angela_Chow@ttsh.com.sg
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Abstract

Upper respiratory tract infections (URTIs) account for substantial attendances at emergency departments (EDs). There is a need to elucidate determinants of antibiotic prescribing in time-strapped EDs – popular choices for primary care despite highly accessible primary care clinics. Semi-structured in-depth interviews were conducted with purposively sampled physicians (n = 9) in an adult ED in Singapore. All interviews were analysed using thematic analysis and further interpreted using the Social Ecological Model to explain prescribing determinants. Themes included: (1) reliance on clinical knowledge and judgement, (2) patient-related factors, (3) patient–physician relationship factors, (4) perceived practice norms, (5) policies and treatment guidelines and (6) patient education and awareness. The physicians relied strongly on their clinical knowledge and judgement in managing URTI cases and seldom interfered with their peers’ clinical decisions. Despite departmental norms of not prescribing antibiotics for URTIs, physicians would prescribe antibiotics when faced with uncertainty in patients’ diagnoses, treating immunocompromised or older patients with comorbidities, and for patients demanding antibiotics, especially under time constraints. Participants had a preference for antibiotic prescribing guidelines based on local epidemiology, but viewed hospital policies on prescribing as a hindrance to clinical judgement. Participants highlighted the need for more public education and awareness on the appropriate use of antibiotics and management of URTIs. Organisational practice norms strongly influenced antibiotic prescribing decisions by physicians, who can be swayed by time pressures and patient demands. Clinical decision support tools, hospital guidelines and patient education targeting at individual, interpersonal and community levels could reduce unnecessary antibiotic use.

Type
Original Paper
Creative Commons
Creative Common License - CCCreative Common License - BY
This is an Open Access article, distributed under the terms of the Creative Commons Attribution licence (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted re-use, distribution, and reproduction in any medium, provided the original work is properly cited.
Copyright
Copyright © The Author(s) 2019

Introduction

Upper respiratory tract infections (URTIs) or the common cold are illnesses presenting with acute inflammation of the nasal or pharyngeal mucosa but without other specifically defined respiratory conditions such as streptococcal tonsillitis, pneumonia and asthma [Reference Kenealy and Arroll1]. URTIs are one of the most cited reasons for antibiotic use [Reference Kenealy and Arroll1]. However, antibiotic therapy for URTIs, which are predominantly of viral aetiology, has not been shown to provide any clinical efficacy [Reference Kenealy and Arroll1]. Excessive and unnecessary use of antibiotics for the treatment of URTIs is prevalent in the USA where over 30% of adults presenting with uncomplicated URTIs and 75% with acute bronchitis were prescribed antibiotics [Reference Fleming-Dutra2Reference Fauci and Marston4]. From 2001 to 2010, 126 million (12.2%) emergency department (ED) visits in the USA were for acute respiratory tract infections, with almost half (47.9%) of the antibiotic-inappropriate infections being administered antibiotics [Reference Donnelly and Baddley5]. Adults had the highest rate of antibiotic use for antibiotic-inappropriate acute respiratory infections (URTIs, influenza and viral pneumonia), with 500 per 1000 visits by adults aged 20–64 years and 666 per 1000 visits by those aged 65 years or older from 2009–2010 [Reference Donnelly and Baddley5]. In the UK, despite clinical guidelines advising against the use of antibiotics for URTIs [6], about 47% were prescribed antibiotics in general practices [Reference Ashworth7].

Inappropriate use of antibiotics subject patients to unnecessary adverse effects of antibiotics and drives antimicrobial resistance [Reference Karras8]. Antibiotic misuse is the most important preventable cause of antimicrobial resistance in both hospital and ambulatory settings [Reference Costelloe9Reference MacDougall and Polk11]. Although antimicrobial stewardship has been widely promoted in hospitals [Reference Roberts12, Reference Trinh and Klinker13], it has focused largely on inpatient settings and has excluded EDs [Reference Sanchez14, Reference Cortoos15]. The US Centers for Disease Control and Prevention has recently highlighted the importance of antibiotic stewardship in EDs [Reference Bernstein16].

Globally, research in EDs has shown that besides patients’ clinical factors, clinical decision-making by ED physicians are challenged by non-clinical factors such as frequent overcrowding [Reference Lee17, Reference Schafermeyer and Asplin18], rapid turnover of patients and staff, a shift-based workplace [Reference May19] and concerns of failure to diagnose and treat [Reference Avorn and Solomon20]. Physicians prescribe antibiotics to avoid uncertainty and risks of deterioration of the patient's health status [Reference Broom, Broom and Kirby21, Reference Pines22], when pressed for time [Reference Avorn and Solomon20, Reference Broom, Broom and Kirby21, Reference Kumar, Little and Britten23, Reference Ong24], when they perceived patients to be of a lower socio-economic status [Reference Ong24, Reference Studdert25], when they perceived that patients expected antibiotics [Reference Studdert25, Reference Stearns26] or to increase patient satisfaction [Reference Stearns26, Reference Malterud27].

In Singapore, URTI is the leading condition managed at primary care clinics, accounting for one-quarter of consultations [28]. Despite the presence of highly accessible primary care clinics in the community, URTIs accounted for a substantial proportion of attendances at EDs and were associated with frequent ED attendances [Reference Paul29]. Approximately 24% of adult patients with URTIs in EDs were inappropriately prescribed antibiotics [Reference Aabenhus30]. Despite this substantial proportion of inappropriate antibiotic prescribing there is a lack of qualitative studies in countries with highly accessible primary care clinics that can help provide an in-depth and comprehensive understanding of the determinants of antibiotic prescribing in the ED. To date, only one study has attempted to examine factors associated with antibiotic decision-making by ED physicians using qualitative methods [Reference May19]. The study was conducted in the USA where EDs served as safety nets for vulnerable populations with limited access to primary care [Reference Hsia, Kellermann and Shen31]. The findings might not be applicable in countries such as Canada, France, UK, Saudi Arabia, Australia and Singapore, where there is good primary care coverage [Reference Pines32].

Qualitative methods are increasingly used as a complement to quantitative methods and can help uncover the antibiotic prescribing influences for URTI that are unique to EDs in areas with highly accessible primary care clinics and guide the development of context-appropriate interventions to reduce inappropriate antibiotic use [Reference May19, Reference Malterud27, Reference Charani33].

We, therefore, conducted an exploratory qualitative study at the ED of a large adult tertiary-care hospital in Singapore which is a developed country with advanced emergency services [Reference Wen34] and highly accessible primary care clinics [35], to understand the determinants influencing antibiotic prescribing decisions among ED physicians who attend to adults presenting with URTI.

Methods

Study design

In-depth interviews (IDIs) were conducted with purposively sampled physicians working in the busiest adult ED in Singapore. The ED at the 1600-bed Tan Tock Seng Hospital attended to an average of 450 patients daily. Physicians were the only healthcare providers who prescribed medications for patients. A semi-structured interview guide (Table 1) was developed and piloted with two senior physicians for comprehensiveness and acceptability for use. The interview guide explored participants’ knowledge and behaviours towards URTI treatment, perceived norms of managing URTIs, and views on antibiotic resistance. Demographic data of participants such as age, gender, country of basic medical training, years of clinical practice and current position were also collected.

Table 1. Interview guide questions

Data collection

IDIs were conducted between March and May 2016. Prior to the commencement of the IDIs, a list of physicians working in the ED was obtained from the hospital's Medical Affairs Office. After consultation with the study team's co-investigator who is based in the ED, it was revealed that junior physicians were usually assigned to attend to URTI cases in the ED. As such, the study team purposively sent out email invitations to resident physicians, senior residents and medical officers to participate in the study. This enabled the study team to interview information-rich participants who were able to provide in-depth insights into the factors that influenced antibiotic-prescribing decisions for URTI cases in the ED. The email invitations emphasised voluntary participation in the study. This was also reiterated by interviewers prior to the commencement of each interview. Participants gave written consent to participate in the study and for their interviews to be audio-recorded. Participants were not offered any incentives or reimbursements but were provided with some snacks and drinks during the IDIs. Two researchers trained in qualitative research conducted the IDIs. Each interview lasted approximately 90 minutes.

In addition to purposive sampling of participants who were able to provide in-depth insights into the phenomenon of interest, we ensured the adequacy of the study's sample size using the guiding principle of data saturation. Data saturation is defined as the point when no additional themes emerge, and data begin to repeat as data collection proceeds [Reference Namey36, Reference Hennink, Kaiser and Marconi37]. The sample size for the study was guided by Namey et al. [Reference Namey36], who found that the median number of interviews required to reach a threshold of 80% saturation was eight (range: 5–11 interviews). Hennink et al. [Reference Hennink, Kaiser and Marconi37] further examined 25 IDIs to assess the concept of data saturation and found that code saturation or the identification of the range of thematic issues was reached at nine interviews. We initially conducted seven IDIs and analysed these for themes and subthemes. Thereafter, we conducted two additional interviews to assess for thematic saturation. Analysis of data from additional interviews found no new emerging themes.

Analysis

Audio recordings were transcribed verbatim and reviewed for accuracy by a third study team member. After reading the transcripts, a preliminary codebook was developed and study team members independently coded a randomly selected transcript. Inter-rater reliability was ascertained by comparing and resolving any discrepancies in coding. Study team members repeated the process to arrive at a final codebook which was used to code the remaining transcripts. Codes were organised using QSR International's NVivo 10 software. These were subsequently summarised and analysed using applied thematic analysis [Reference Guest and MacQueen38]. Descriptive analyses were used to summarise the demographic data of the participants.

Results

Participant demographics

Nine physicians were included in the study, with a good distribution of age, experience and place of medical training. The demographics of the participants are shown in Table 2.

Table 2. Demographics of study participants

Determinants that influence antibiotic prescribing

Six key themes emerged as determinants influencing the clinical management of URTI, namely (1) clinical knowledge and judgement, (2) patient-related factors, (3) patient–physician relationship factors, (4) perceived practice norms, (5) policies and treatment guidelines and (6) patient education and awareness. These were further interpreted using the Social Ecological Model (SEM) as a conceptual framework. To understand why and when ED physicians prescribe antibiotics, it is necessary to understand the interactions between ED physicians and the environments they work in. The SEM allows the identification of social and organisational leverage points that can be targeted in interventions to help reduce inappropriate antibiotic prescribing [Reference McLeroy39]. Figure 1 shows the overview of the socio-ecological approach in understanding the determinants influencing antibiotic prescribing.

Fig. 1. A socio-ecological approach to understand the determinants influencing antibiotic prescribing among ED physicians.

Individual level

Clinical knowledge and judgement

At the individual level, physicians utilised their clinical knowledge and judgement when providing care for URTI patients. When deciding between symptomatic treatment and antibiotics, all participants relied strongly on their clinical knowledge and work experiences. They would prescribe symptomatic treatment for uncomplicated URTIs as they believed antibiotics were unnecessary and might instead cause adverse effects.

For simple URTI, if it's the first time I see the patient…that means the patient didn't see any doctor prior…I will give symptomatic relief for fever and cough. That would be like Paracetamol, cough suppressants, decongestants and lozenges. That's all. I'm not going to give antibiotics the first time because I believe it's viral. Participant 5

Additionally, all participants reported that they worked independently and were confident of their clinical decisions. They attributed their capabilities to prior training in practicing evidence-based medicine and guidance from senior physicians. Other major influences on prescribing decisions for URTIs were results of laboratory and radiologic investigations, and clinical practice guidelines.

You see…don't be bothered by other people's practice. From what I've been through here, what I see with this patient and that patient…they probably have the same histories. But you may not actually know how fast this infection will progress in each patient. If I have to give [antibiotics]…I have to give. I won't be bothered by what my colleagues will say because in the end, I am actually looking after the patient. Participant 9

Furthermore, antibiotic prescribing practices were influenced by patient-related factors such as age, comorbidities as well as avoiding uncertainty in diagnoses.

Patient-related factors

  1. i) Patient profiles – age, comorbidities and social support

Majority of the participants reported a lower threshold in prescribing antibiotics for elderly patients, especially those with comorbidities or were immunocompromised. The main reasons were to prevent any potential deterioration of the patient's illness or occurrence of secondary bacterial infections. The availability of social support for elderly patients was also taken into consideration.

So first thing…major factor is age. So if the patient is very elderly…I would say URTI is a diagnosis of exclusion. So I usually would investigate first by doing blood tests, x-rays to rule out lower respiratory tract infection and look at the clinical status of the patient. So the threshold for starting antibiotics would be lower for me in the older age groups. Simply because they deteriorate faster. Participant 7

  1. ii) Uncertainty avoidance

Participants would also prescribe antibiotics when they were uncertain of diagnoses or for fear of not providing timely and appropriate treatment. These included patients with borderline blood test results or were persistently symptomatic after a course of antibiotics, particularly in elderly persons with comorbidities.

Because sometimes as a primary care [doctor]… you may have the fear that he may never return again. There's a lot of ‘what ifs’ that you ask yourself as a primary care. What if this is the only time I see this patient? And what if he has something serious? What if I'm missing something? Participant 4

Interpersonal level

Prescribing practices were also influenced by the dynamics of the patient–physician relationship such as patient demands and time constraints.

Patient–physician relationship

  1. i) Patient demands

Most participants reported previous experiences of pressure to prescribe antibiotics from demanding patients or their family members, who perceived that antibiotics would relieve their symptoms and cure URTIs.

Sometimes they demand for antibiotics. Usually I try to counsel them. These are usually the young, and well-educated kind. If they insist, I would usually give it to them but tell them to not to take it first…to like keep it on standby in case the fever persists for like another few days…. Participant 1

  1. ii) Time constraints

Time constraints were cited as a critical factor in managing URTI patients. As such, the workload required effective time management to attend to all the patients within the work shift. A few participants shared the trade-offs between spending the time to educate patients on the appropriate use of antibiotics and acceding to demands to allow for more consultation time with other patients.

And of course we need to be realistic, time is also important. We're managing the whole queue. We're managing a lot of patients, and we can't spend an unlimited amount of time to deal with a difficult consult. We need to know…we need to decide on what is safe for the patient and what is a good balance. Participant 4

  1. iii) Conflict of interest

Participants shared about educating and convincing patients that antibiotics were not necessary for URTIs of viral aetiology. However, they had to manage patient expectations and achieve patient satisfaction.

I make sure I educate them. That in the end…next time…maybe the antibiotics won't be useful for them when they need it. But if they still insist then I'll prescribe it to them. I have educated you and you can take it at your own risk. Participant 1

Organisational level

Referring to the organisational and work culture within the ED, participants reported that they were accorded high levels of autonomy in providing care for URTI patients.

Perceived practice norms

All participants believed that symptomatic management was the standard of care for URTIs in the ED. However, patients were prescribed antibiotics when laboratory tests suggested a bacterial infection or as reserve treatment should symptoms worsen.

This ED [referring to the ED in this hospital] is symptomatic [in terms of providing treatment for URTI]. I mean that's what we teach our residents and medical officers. Most of the time we just give them the Piriton or the Loratidine and you know the phlegm-stoppers, the cough-stoppers, the fever-stoppers. It's very symptomatic in management. Participant 6

Furthermore, most participants seldom encountered misalignments in prescribing decisions with their peers or seniors. If decisions differed, three participants mentioned that they would question the senior physicians or their peers while one would defer to the senior physician's decision. When exceptional cases were flagged out, most participants felt these were useful case studies for learning.

I don't think people would interfere with your management of an URTI. I think they sort of try, if you're trying to bring it up…there may be something they want to learn also because obviously it's not just the normal run of the mill cases. Participant 2

Additionally, one participant observed that junior physicians were less confident than senior physicians in not prescribing antibiotics for URTI. He was concerned that junior physicians were more likely to succumb to external pressures and prescribe antibiotics unnecessarily.

I don't know whether this is backed by evidence. Anecdotally, I find that a higher proportion of junior doctors feel less confident about not prescribing antibiotics. I've also observed some of the resident physicians who I would classify as more experienced physicians giving antibiotics more readily than the consultants or registrars. Participant 4

Hospital policies and treatment guidelines

Participants reported no specific hospital policy on the management of URTI. Two participants pointed out that ED physicians were prudent in prescribing antibiotics, usually in the best interests of their patients. One participant expressed concerns that introducing hospital policies for antibiotic use in the ED could impede his work and hinder the exercise of appropriate clinical judgement.

I wouldn't think that hospital policy would help me. In fact, it is a shackle because it prevents me from exercising my own judgment. I know some people may consider that as a hospital policy or departmental policy, so as not to give [antibiotics] for the first presentation or whatever. I think that is more problematic than useful, so I don't like that. Participant 4

Some participants mentioned the existence of guidelines and resources for managing URTIs such as those from the American Family Physician Association, ‘UpToDate’ website, and the hospital's antibiotic stewardship guidelines. In contrast to hospital policies, participants expressed a strong preference for these guidelines as they could still exercise their clinical judgements. However, participants considered the scope of such guidelines to be too broad and believed that their clinical judgement was more valuable. Two participants acknowledged that the hospital's homegrown inpatient antibiotic computerised decision support system, ‘ARUS-C’ [Reference Chow and Lye40], might be useful for improving antibiotic prescribing in the ED setting, indicating preferences for prescribing guidelines based on local epidemiology.

Usually when you start working here, the intranet [hospital's internal website] will provide you with access to ‘UpToDate’ and usually you can search for everything inside. So you will get the latest trends on what they recommend, what their randomised trials are showing, what were the previous results, what would be the percentage and what would be the wrong approach or wrong management. And if you want to know further details, you can click on their link. It is useful, but you still need to apply your clinical judgment obviously. You cannot say ‘Oh okay…the UpToDate website is like this…so I will just treat all my patients this way. Every patient is unique and it may not be the same as what is in the textbook or whatever.’ Participant 5

Community level

Patient education and awareness

In response to suggestions on ways to address issues related to antibiotic resistance, all participants felt that it was critical to reinforce the appropriate use of antibiotic therapy among primary care providers, increase patient education and awareness on managing URTIs, and to address misconceptions regarding the use of antibiotics to treat URTIs. Three participants mentioned the use of educational leaflets to inform patients and their families on the treatment and management of URTI, to empower self-management of symptoms.

Because… I mean most clinicians are quite aware of the problem of antibiotic resistance. But the public in my opinion quite ignorant about this. I mean you look at the health seeking habits of Singaporeans. It is really like you know…for URTI, they will see one doctor. If not better, they go to another doctor. You know…they ‘doctor shop’. So I mean continuity of care is one issue. The other thing also is antibiotic resistance. The clinicians may not know what the previous doctor prescribed. If they prescribed something else, then… you know for one URTI they can receive two or three courses of antibiotics… which is really…really bad. So I think a lot of these issues require public education. Participant 7

A summary table consisting of all themes, subthemes and corresponding quotes, which are interpreted according to the SEM, are provided as a Supplementary Table.

Discussion

This study provided insights into the clinical and non-clinical determinants influencing antibiotic prescribing by ED physicians for adult URTIs in a country with highly accessible primary care clinics. The study also adopted a socio-ecological approach in understanding the determinants that interact to influence the ED physician's decision to prescribe antibiotics.

Integrating socio-behavioural sciences into the understanding of antibiotic prescribing practices can enable the effective planning and development of interventions to enhance clinical care for better patient outcomes [Reference Charani33]. This study revealed that antibiotic prescribing behaviours and practices among ED physicians were shaped by clinical and non-clinical determinants that spanned the interactive socio-ecological bands.

First, at the individual level, we observed that ED physicians had the autonomy in decision-making. Although the practice norms in the ED were for the symptomatic treatment of URTIs, physicians reported a lower threshold to prescribe antibiotics when faced with clinical factors such as older patients and comorbidities. Physicians were also uncertainty avoidant when presented with equivocal results from laboratory and radiologic investigations. These findings corroborated with the observations in other studies [Reference May19Reference Broom, Broom and Kirby21, Reference Aabenhus30]. Clinical decision support tools could address the uncertainties faced by the physician and improve antibiotic prescribing decisions in the ED [Reference May41]. At the interpersonal level, we observed that physicians tended to prescribe antibiotics for demanding patients and when constrained by time. Other studies similarly found that physicians were more likely to prescribe antibiotics if they believed that patients expected them [Reference Ong24], and that the fast-paced environment of ED encouraged unnecessary antibiotic use [Reference May19].

At the ED-specific organisational level, this study highlighted the deep-rooted culture of the ED of practicing evidence-based medicine. Guidance by senior physicians appeared to be a prominent factor for practice norms. Senior physicians were sources of information and role models in shaping one's approach towards antibiotic prescribing. Other studies have shown that supervisors and senior colleagues played a highly influential role in prescribing behaviours of hospital doctors in the early stages of their careers [Reference Cortoos15, Reference De Souza42]. Therefore, the provision of continuing education to senior physicians in the ED can enhance antibiotic prescribing practices in the ED [Reference Flodgren43]. We also noted that physicians’ perceived limited applicability of clinical practice guidelines and existing hospital clinical decision support systems on antibiotic prescribing for URTI, coupled with patients’ poor understanding on antibiotics use, could have contributed to over-prescribing in response to patient demands and time pressures. As physicians highly valued their clinical experience, implementation of any clinical guidelines in the hospital would necessarily have to be based on most up-to-date data on the local epidemiology of URTI and latest international evidence on the management of URTI.

Lastly, this study found that physician's decision to prescribe antibiotics was influenced at the community level by patient expectations for antibiotics in the treatment of URTI that were likely to have arisen from inadequate knowledge and misconceptions of antibiotics. Physicians felt that there was a critical need to educate the general population and patients on the proper use of antibiotics, and to create the awareness of antibiotic resistance. Patient education with a combination of messages providing information on self-management of symptoms and explanations on the inappropriateness of antibiotics for URTI could reduce antibiotic prescribing for URTI [Reference Mangione-Smith44]. Three study participants suggested the distribution of educational leaflets to patients as they waited outside the consultation rooms. This could be incorporated into the workflow of the ED.

This study adds to the limited published literature on understanding the determinants of antibiotic prescribing in ED settings. Our observations corroborated with the influencing factors described by May et al. [Reference May19], although in the context of a different healthcare system where primary care was highly accessible. Notably, access and quality of care received outside the ED consult, which emerged as a theme in the study by May et al. [Reference May19], was not observed in our study. While the other themes observed by May et al. [Reference May19] were similar to ours, we had used the SEM to illustrate the interdependence and interactive effects of the individual-, interpersonal-, organisational- and community-level factors. A quantitative study involving all physicians practicing in the ED is underway for triangulation of findings, and the expansion of the study to involve all major adult EDs in Singapore is being planned to gain deeper insights into the cultural- and organisational-level factors at EDs.

The study has several strengths. Researchers who were not related to the ED conducted the interviews, providing observations that were unlikely to be biased. They were familiar with the research topic and had received extensive training in qualitative research data collection techniques. Additionally, researchers started each interview by building rapport with participants and reassuring them of the confidentiality and anonymity of data. As such, participants were observed to be forthcoming and candid with responses, particularly when describing the ED's practice values and norms, challenges faced and the workplace culture. Hence, the study's findings were likely to be authentic.

The study is limited to ED physicians managing adult URTI patients, and hence findings might not be generalisable to ED physicians attending to paediatric patients. Despite not being generalisable to such settings, the study provided detailed descriptions of the phenomena experienced by ED physicians in the Results section and Supplementary Table so that readers can assess the transferability and applicability of the study findings to similar contexts and situations [Reference Korstjens and Moser45]. Nonetheless, the study has provided important insights into antibiotic prescribing that might guide antimicrobial stewardship in adult EDs with good primary care networks.

Conclusions

Organisational practice norms strongly influenced antibiotic prescribing decisions by physicians for adults presenting with URTI at the ED. Although physicians have a preference for evidence-based practice, they often prescribe antibiotics inappropriately when faced with time pressures and patient demands. Clinical decision support tools, hospital guidelines and patient education could be useful in reducing unnecessary antibiotic use.

Supplementary material

The supplementary material for this article can be found at https://doi.org/10.1017/S095026881800331X.

Acknowledgements

The study team would like to thank the physicians who participated in the study.

Author contributions

AC, CMW and OCK conceptualised and designed the research study. YYC and MABI conducted the semi-structured IDI. YYC, MABI and CMW analysed and interpreted the data. YYC, MABI and AC drafted the manuscript. All authors contributed substantially to its revisions. AC takes responsibility for the paper as a whole.

Financial support

This work was supported by the National Healthcare Group, Singapore (Clinician-Scientist Career Scheme [Mid]).

Conflict of interest

None.

Ethical standards

Ethical approval for this study was obtained from the Domain Specific Review Board of the National Healthcare Group, Singapore (Reference number: 2016/00078).

References

1.Kenealy, T and Arroll, B (2013) Antibiotics for the common cold and acute purulent rhinitis. The Cochrane Database of Systematic Reviews 6, CD000247.Google Scholar
2.Fleming-Dutra, KE et al. (2016) Prevalence of inappropriate antibiotic prescriptions among US ambulatory care visits. 2010–2011. Journal of American Medical Association 315, 18641873.Google Scholar
3.Ebell, MH and Radke, T (2015) Antibiotic use for viral acute respiratory tract infections remains common. American Journal of Managed Care 21, e567e575.Google Scholar
4.Fauci, AS and Marston, HD (2014) The perpetual challenge of antimicrobial resistance. Journal of American Medical Association 311, 18531854.Google Scholar
5.Donnelly, JP and Baddley, JW (2014) Antibiotic utilization for acute respiratory tract infections in US emergency departments. Antimicrobial Agents and Chemotherapy 58, 14511457.Google Scholar
6.National Prescribing Centre UK. The management of common infections in primary care – key points. Available at http://www.npc.co.uk/MeReC_Bulletins/MeReC_Bulletin_Vol17_No3_Intro.htm (Accessed 14 April 2018).Google Scholar
7.Ashworth, M et al. (2004) Why has antibiotic prescribing for respiratory illness declined in primary care? A longitudinal study using the general practice research database. Journal of Public Health 26, 268274.Google Scholar
8.Karras, D (2006) Antibiotic misuse in the emergency department. Academic Emergency Medicine 13, 331333.Google Scholar
9.Costelloe, C et al. (2010) Effect of antibiotic prescribing in primary care on antimicrobial resistance in individual patients: systematic review and meta-analysis. British Medical Journal 340, c2096.Google Scholar
10.Hicks, LA et al. (2011) Outpatient antibiotic prescribing and non-susceptible Streptococcus pneumoniae in the United States. 1996–2003. Clinical Infectious Diseases 53, 631639.Google Scholar
11.MacDougall, C and Polk, RE (2005) Antimicrobial stewardship programmes in health care systems. Clinical Microbiology Reviews 18, 638656.Google Scholar
12.Roberts, RR et al. (2009) Hospital and societal costs of antimicrobial-resistant infections in a Chicago teaching hospital: implications for antibiotic stewardship. Clinical Infectious Diseases 49, 11751184.Google Scholar
13.Trinh, TD and Klinker, KP (2015) Antimicrobial stewardship in the emergency department. Infectious Diseases and Therapy 4, 3950.Google Scholar
14.Sanchez, GV et al. (2016) Core elements of outpatient antibiotic stewardship. MMWR Recommendations and Reports 65, 112.Google Scholar
15.Cortoos, PJ et al. (2008) Opposing expectations and suboptimal use of a local antibiotic hospital guideline: a qualitative study. Journal of Antimicrobial Chemotherapy 62, 189195.Google Scholar
16.Bernstein, SL et al. (2009) The effect of emergency department crowding on clinically oriented outcomes. Academic Emergency Medicine 16, 110.Google Scholar
17.Lee, W (2005) Antibiotic prescribing for patients with upper respiratory tract infections by emergency physicians in a Singapore tertiary hospital. Hong Kong Journal of Emergency Medicine 12, 7076.Google Scholar
18.Schafermeyer, RW and Asplin, BR (2003) Hospital and emergency department crowding in the United States. Emergency Medicine (Fremantle) 15, 2227.Google Scholar
19.May, L et al. (2014) Multisite exploration of clinical decision making for antibiotic use by emergency medicine providers using quantitative and qualitative methods. Infection Control and Hospital Epidemiology 35, 11141125.Google Scholar
20.Avorn, S and Solomon, DH (2000) Cultural and economic factors that (mis)shape antibiotic use: the non-pharmacologic basis of therapeutics. Annals of Internal Medicine 133, 128135.Google Scholar
21.Broom, A, Broom, J and Kirby, E (2014) Cultures of resistance? A Bourdieusian analysis of doctors’ antibiotic prescribing. Social Science and Medicine 11, 8188.Google Scholar
22.Pines, JM et al. (2007) Emergency department operational changes in response to pay for performance and antibiotic timing in pneumonia. Academic Emergency Medicine 14, 545548.Google Scholar
23.Kumar, S, Little, P and Britten, N (2003) Why do general practitioners prescribe antibiotics for sore throat? Grounded theory interview study. British Medical Journal 326, 138.Google Scholar
24.Ong, S et al. (2007) Antibiotic use for emergency department patients with upper respiratory infections: prescribing practices, patient expectations, and patient satisfaction. Annals of Emergency Medicine 50, 213220.Google Scholar
25.Studdert, DM et al. (2005) Defensive medicine among high-risk specialist physicians in a volatile malpractice environment. Journal of American Medical Association 293, 26092617.Google Scholar
26.Stearns, CR et al. (2009) Antibiotic prescriptions are associated with increased patient satisfaction with emergency department visits for acute respiratory tract infections. Academic Emergency Medicine 16, 934941.Google Scholar
27.Malterud, K (2001) The art and science of clinical knowledge: evidence beyond measures and numbers. The Lancet 358, 397400.Google Scholar
28.Ministry of Health Singapore. Primary care survey 2010: Profile of primary care patients. Available at https://www.moh.gov.sg/content/dam/moh_web/Publications/Information%20Papers/2011/Primary%20Care%20Survey%202010%20-%20Profile%20of%20Primary%20Care%20Patients.pdf (Accessed 14 April 2018).Google Scholar
29.Paul, P et al. (2010) Predictors of frequent attenders of emergency department at an acute general hospital in Singapore. Emergency Medicine Journal 11, 843848.Google Scholar
30.Aabenhus, R et al. (2014) Biomarkers as point-of-care tests to guide prescription of antibiotics in patients with acute respiratory infections in primary care. The Cochrane Database of Systematic Reviews 11, CD010130.Google Scholar
31.Hsia, RY, Kellermann, AL and Shen, YC (2011) Factors associated with closures of emergency departments in the United States. Journal of American Medical Association 305, 19781985.Google Scholar
32.Pines, JM et al. (2011) International perspectives on emergency department crowding. Academic Emergency Medicine 18, 13581370.Google Scholar
33.Charani, E et al. (2011) Behavior change strategies to influence antimicrobial prescribing in acute care: a systematic review. Clinical Infectious Diseases 53, 651662.Google Scholar
34.Wen, LS et al. (2012) National inventory of emergency departments in Singapore. International Journal of Emergency Medicine 5, 38.Google Scholar
35.Ministry of Health Singapore. Healthcare Services and Facilities. Available at https://www.moh.gov.sg/content/moh_web/home/our_healthcare_system/Healthcare_Services.html (Accessed 14 April 2018).Google Scholar
36.Namey, E et al. (2016) Evaluating bang for the buck: a cost-effectiveness comparison between individual interviews and focus groups based on thematic saturation levels. American Journal of Evaluation 37, 425440.Google Scholar
37.Hennink, MM, Kaiser, BN and Marconi, VC (2017) Code saturation versus meaning saturation: how many interviews are enough? Qualitative Health Research 27, 591608.Google Scholar
38.Guest, G and MacQueen, KM (2011) Applied Thematic Analysis, 2nd Edn. California: Sage.Google Scholar
39.McLeroy, KR et al. (1988) An ecological perspective on health promotion programs. Health Education Journal 15, 351377.Google Scholar
40.Chow, AL and Lye, DC (2016) Patient and physician predictors of patient receipt of therapies recommended by a computerized decision support system when initially prescribed broad-spectrum antibiotics: a cohort study. Journal of American Medical Informatics Association 23, e58e70.Google Scholar
41.May, L et al. (2013) Antimicrobial stewardship in the emergency department and guidelines for development. Annals of Emergency Medicine 62, 6977.Google Scholar
42.De Souza, V et al. (2006) A qualitative study of factors influencing antimicrobial prescribing by non-consultant hospital doctors. Journal of Antimicrobial Chemotherapy 58, 840843.Google Scholar
43.Flodgren, G et al. (2007) Local opinion leaders: effects on professional practice and health care outcomes. The Cochrane Database of Systematic Reviews 1, CD000125.Google Scholar
44.Mangione-Smith, R et al. (2015) Communication practices and antibiotic use for acute respiratory tract infections in children. Annals of Family Medicine 13, 221227.Google Scholar
45.Korstjens, I and Moser, A (2018) Series: practical guidance to qualitative research. Part 4: trustworthiness and publishing. European Journal of General Practice 24, 120124.Google Scholar
Figure 0

Table 1. Interview guide questions

Figure 1

Table 2. Demographics of study participants

Figure 2

Fig. 1. A socio-ecological approach to understand the determinants influencing antibiotic prescribing among ED physicians.

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