key: cord-0715766-wdlfllcc authors: Kitano, Taito; Brown, Kevin A; Daneman, Nick; MacFadden, Derek R; Langford, Bradley J; Leung, Valerie; So, Miranda; Leung, Elizabeth; Burrows, Lori; Manuel, Douglas; Bowdish, Dawn M E; Maxwell, Colleen J; Bronskill, Susan E; Brooks, James I; Schwartz, Kevin L title: The Impact of COVID-19 on Outpatient Antibiotic Prescriptions in Ontario, Canada; An Interrupted Time Series Analysis date: 2021-10-30 journal: Open Forum Infect Dis DOI: 10.1093/ofid/ofab533 sha: da41d4149a713410953d2a69aa5de0f4c9c72841 doc_id: 715766 cord_uid: wdlfllcc BACKGROUND: The coronavirus disease 2019 (COVID-19) pandemic has potentially impacted outpatient antibiotic prescribing. Investigating this impact may identify stewardship opportunities in the ongoing COVID-19 period and beyond. METHODS: We conducted an interrupted time series analysis on outpatient antibiotic prescriptions and antibiotic prescriptions/patient visits in Ontario, Canada, between January 2017 and December 2020 to evaluate the impact of the COVID-19 pandemic on population-level antibiotic prescribing by prescriber specialty, patient demographics, and conditions. RESULTS: In the evaluated COVID-19 period (March–December 2020), there was a 31.2% (95% CI, 27.0% to 35.1%) relative reduction in total antibiotic prescriptions. Total outpatient antibiotic prescriptions decreased during the COVID-19 period by 37.1% (95% CI, 32.5% to 41.3%) among family physicians, 30.7% (95% CI, 25.8% to 35.2%) among subspecialist physicians, 12.1% (95% CI, 4.4% to 19.2%) among dentists, and 25.7% (95% CI, 21.4% to 29.8%) among other prescribers. Antibiotics indicated for respiratory infections decreased by 43.7% (95% CI, 38.4% to 48.6%). Total patient visits and visits for respiratory infections decreased by 10.7% (95% CI, 5.4% to 15.6%) and 49.9% (95% CI, 43.1% to 55.9%). Total antibiotic prescriptions/1000 visits decreased by 27.5% (95% CI, 21.5% to 33.0%), while antibiotics indicated for respiratory infections/1000 visits with respiratory infections only decreased by 6.8% (95% CI, 2.7% to 10.8%). CONCLUSIONS: The reduction in outpatient antibiotic prescribing during the COVID-19 pandemic was driven by less antibiotic prescribing for respiratory indications and largely explained by decreased visits for respiratory infections. Health care services have been impacted by the coronavirus disease 2019 (COVID- 19) pandemic. As a result of public health measures, the epidemiology of some communicable diseases and the number and type of contacts with the health care system have changed, which may result in associated changes in antibiotic prescribing behaviors [1] [2] [3] [4] . Many community clinics shifted to provide more virtual care during the pandemic [5, 6] . The pandemic may have also affected patients' behavior for seeking health care, and certain patient subgroups faced more substantial barriers to accessing in-person or virtual care than other groups [7] . These factors may have impacted antibiotic prescribing in the community. Outpatient antibiotic prescribing has decreased during the pandemic in multiple jurisdictions [8] [9] [10] [11] . However, few studies have explored possible explanatory factors, including the volume of patient visits and diagnoses [8, 11] . For example, a systematic review raised concerns about the potential for higher antibiotic prescribing rates in virtual visits than in faceto-face visits [12] . Outpatient antibiotic prescribing may also be associated with the prescriber's specialty, patient diagnosis, and patient demographics (eg, age and sex) [13, 14] . Evaluating factors influencing antibiotic prescribing during the COVID-19 pandemic may provide insights into stewardship opportunities and provide intervention targets in the post-COVID-19 period. Our objectives were to evaluate the impact of the COVID-19 pandemic on outpatient antibiotic prescriptions and antibiotic prescriptions/patient visits and to identify which factors, including prescriber's specialty, patient demographics, and patient conditions, may have influenced variations in prescribing behavior. This was a retrospective cohort study evaluating outpatient antibiotic prescriptions in Ontario, Canada, between January 2017 and December 2020. We conducted an interrupted time series (ITS) analysis to evaluate the impact of the COVID-19 pandemic on antibiotic prescriptions. Ontario initially declared a state of emergency on March 17, 2020 [15] . We defined the period between March and December 2020 as the COVID-19 period, while the period between January 2017 and February 2020 was defined as the pre-COVID-19 period. The Geographic Prescription Monitor (GPM) database from IQVIA was used for the monthly absolute number of antibiotic prescriptions. The GPM database was created from ~60% of prescriptions dispensed by outpatient pharmacies in the province. IQVIA then uses insurance claims and sales data in a proprietary geospatial projection algorithm to project 100% of antibiotic prescribing [16] . IQVIA is a source of data containing a variety of prescription drug databases, including antibiotic prescribing. This IQVIA database and extrapolation algorithm have been previously validated [17] . This database was linked by month to aggregated outpatient visit data based on Ontario Health Insurance Plan (OHIP) billings from ICES (formerly the Institute for Clinical Evaluative Sciences). These data sets were linked using unique encoded identifiers and analyzed at ICES. ICES is an independent nonprofit research institute whose legal status under Ontario's health information privacy law allows it to collect and analyze health care and demographic data, without consent, for health system evaluation and improvement. The patient visits were divided into face-to-face and virtual visits. Virtual visits included both video and telephone interactions. The primary outcomes of interest were the monthly absolute number of total outpatient antibiotic prescriptions and total outpatient antibiotic prescriptions per 1000 patient visits. Outpatient antibiotic prescriptions included all pharmacy prescriptions for oral antibiotics in Ontario, excluding inpatient antibiotic prescriptions. The visit data were obtained from family physicians and physician subspecialists (ie, all non-family medicine physician subspecialties) via the linked ICES databases; therefore, analyses using antibiotic prescriptions per 1000 patient visits were restricted to antibiotics prescribed by family physicians and physician subspecialists only (both the numerator and the denominator of antibiotic prescriptions/1000 visits are restricted by family physicians and physician subspecialists only). As secondary outcomes, we also divided antibiotics into 13 classes according to the anatomical therapeutic classification of the World Health Organization (Supplementary Table 1 ) [18] and grouped them by approximate indication (antibiotics indicated for respiratory, urinary tract, and skin and soft tissue infections) based on the most common indications for use [16] . The overall magnitude of the impact of COVID-19 on outpatient antibiotic prescribing was presented as the adjusted relative change. Covariates in this study included prescriber specialty (family physician, subspecialist physician, dentist, and other nonphysician, nondentist prescribers [ie, nurse practitioners, midwives, nonphysician lab directors, optometrists, osteopaths, chiropractors, and chiropodists]), patient age and sex (male <18 years, female <18 years, male 18-64 years, female 18-64 years, male 65 years or older, or female 65 years or older), type of visit (face-to-face or virtual), and diagnosis. Prescriber's specialty, patient age, and sex grouping for antibiotic prescriptions were obtained from IQVIA, while patient age and sex grouping for patient visits and the type of visit were obtained from ICES. Diagnosis was based on OHIP billing codes. In this study, they were categorized as respiratory infection, urinary tract infection, or skin and soft tissue infection. The ICES data were only available for physicians (family physicians and subspecialist physicians). The characteristics in the pre-COVID-19 period and the COVID-19 period were compared using nonparametric tests to calculate unadjusted relative changes. The unadjusted relative change refers to the relative change in each outcome in the COVID-19 period compared with the pre-COVID-19 period (without accounting for the nature of time series data). Mann-Whitney U tests and Spearman's rank correlation tests were conducted to calculate unadjusted P values. The impact of the COVID-19 pandemic was measured by the adjusted relative change in the number of antibiotic prescriptions, number of patient visits, and rate of antibiotic prescriptions/1000 patient visits. For the ITS analysis of the number of antibiotic prescriptions and patient visits, we used negative binomial regression models, with the number of antibiotic prescriptions or patient visits as the outcome given the overdispersion of our data. For the ITS analysis of antibiotic prescriptions/1000 patient visits, the log of patient visits as an offset term was added to the negative binomial regression models. A level change model was used to evaluate the adjusted relative change in each observed outcome during the COVID-19 period compared with the expected outcome. Model outputs were presented as adjusted relative change with 95% CIs and were calculated by comparing the overall expected and overall observed number of antibiotic prescriptions during the COVID-19 period in the level change model. A level and slope change model was also investigated to evaluate a potential gradual impact on the health care system during the COVID-19 period and to produce the expected monthly outcome assuming no impact of the COVID-19 pandemic. In the level and slope change model, the slope change refers to average monthly adjusted relative change in the outcome during the COVID-19 period. Therefore, while adjusted relative changes with 95% CIs that represent the overall magnitude of the impact during the COVID-19 period were calculated by the level change model, the monthly expected outcomes during the COVID-19 period were plotted in figures using the level and slope model. The ITS models were adjusted for seasonality with a categorical variable of calendar month as well as secular trends over all study months. The subgroup analyses were conducted by stratifying the outcomes by antibiotic class, by patient age and sex groupings, by prescriber's specialty (family physicians vs subspecialists), and by diagnostic condition (respiratory, urinary, and skin and soft tissue infections in Supplementary Table 2) [19] . We plotted the monthly observed outcomes and compared them with the expected outcomes created by the level and slope change model with the assumption of no COVID-19 pandemic in the period following March 1, 2020. The difference in the number of antibiotic prescriptions during the COVID-19 period (observed vs expected) was calculated to evaluate the magnitude of the effect of COVID-19 on antibiotic prescriptions. All statistical analyses were conducted using Stata 14.1 (College Station, TX, USA). ICES is a prescribed entity under Ontario's Personal Health Information Protection Act (PHIPA). Section 45 of PHIPA authorizes ICES to collect personal health information, without consent, for the purpose of analysis or compiling statistical information with respect to the management, evaluation, or monitoring of the allocation of resources to or planning for all or part of the health system. Projects that use data collected by ICES under section 45 of PHIPA and use no other data are exempt from research ethic board (REB) review. The use of the data in this project was authorized under section 45 and approved by ICES' Privacy and Legal Office. During the study period between January 2017 and December 2020, there were 306 742 226 outpatient visits and 32 663 825 total outpatient oral antibiotic prescriptions written. Table 1 shows that the average number of monthly total antibiotic prescriptions was 731 325 in the pre-COVID-19 period (from January 2017 to February 2020) and 487 346 during the COVID-19 period (from March to December 2020). In contrast, the average number of monthly total visits, for any reason, was 6 509 795 in the pre-COVID-19 period and 5 937 003 during COVID-19. Virtual visits accounted for 1.2% of total visits in the pre-COVID-19 period and 51.6% in the COVID-19 period (Table 1) . There was a marked discrepancy between the observed and expected numbers of monthly total antibiotic prescriptions in the COVID-19 period (Figure 1 ; Supplementary Table 3 ). The observed total number of antibiotic prescriptions from March to December 2020 was 2 211 822 fewer than the expected number of total antibiotic prescriptions (-31.2%; 95% CI, -35.1% to -27.0%; P < .001 of adjusted relative change). The largest discrepancy between the observed and expected total numbers of antibiotic prescriptions by prescriber specialty was observed for family physicians, at -37.1% (95% CI, -41.3% to -32.5%; P < .001 of adjusted relative change), followed by all non-family medicine subspecialist physicians (-30.7%; 95% CI, -35.2% to -25.8%; P < .001), other nonphysician, nondentist prescribers (-25.7%; 95% CI, -29.8% to -21.4%; P < .001), and dentists (-12.1%; 95% CI, -19.2% to -4.4%; P = .003) ( Figure 2 ). Although the reduction in the number of antibiotic prescriptions from family physicians and subspecialists was sustained during the COVID-19 period, the number of antibiotic prescriptions among dentists recovered in the next 3 months to a level similar to the pre-COVID-19 period. The reduction in the observed antibiotic prescriptions, compared with the expected antibiotic prescriptions during the COVID-19 period, was larger in children aged 0-17 (adjusted relative change in males, -62.8%; 95% CI, -68.4% to -56.3%; P < .001; adjusted relative change in females, -57.4%; 95% CI, -63.1% to -50.9%; P < .001) than in adults aged 18-64 (adjusted relative change in males, -28.0%; 95% CI, -31.3% to -24.4%; P < .001; adjusted relative change in females, -25.4%; 95% CI, -21.9% to -28.8%; P < .001) and adults aged ≥65 (adjusted relative change in males, -25.5%; 95% CI, -29.3% to -21.6%; P < .001; adjusted relative change in females, -24.2%; 95% CI, -27.8% to -20.5%; P < .001) (Supplementary Figure 1) . We observed the largest reductions in macrolides (adjusted relative change, -59.6%; 95% CI, -64.7% to -53.6%; P < .001), second-or third-generation cephalosporins (-45.9%; 95% CI, -51.1% to -40.2%; P < .001), and penicillins without a betalactamase inhibitor (-40.5%; 95% CI, -45.9% to -34.5%; P < .001) (Supplementary Figure 2) . We observed the largest reductions for antibiotics indicated for respiratory infections (adjusted relative change, -43.7%; 95% CI, -48.6% to -38.4%; P < .001). Antibiotics indicated for urinary tract infections had a -9.9% adjusted relative change (95% CI, -12.5% to -7.3%; P < .001), and antibiotics indicated for skin and soft tissue infections had a -11.1% adjusted relative change (95% CI, -13.5% to -8.7%; P < .001) (Supplementary Figure 3) . The monthly absolute number of outpatient visits showed a significant decrease initially in the COVID-19 period compared with the pre-COVID-19 period, but subsequently and soft tissue infection (adjusted relative change, -9.7%; 95% CI, -13.7% to -5.5%; P < .001) returned to prepandemic levels, following an initial drop at the beginning of the pandemic (Supplementary Figure 7 , Supplementary Table 4 ). As demonstrated in Figure 3 and Supplementary Table 5 , the total antibiotic prescriptions/1000 patient visits showed a significant reduction during the COVID-19 period (adjusted The pre-COVID-19 period is between January 2017 and February 2020. The COVID-19 period is between March and December 2020. The visit data were obtained from family physicians and subspecialists. Antibiotics prescribed by family physicians and subspecialists were only included to calculate antibiotic prescription/1000 visits. The monthly absolute number of antibiotic prescriptions and patient visits is presented as mean ± SD. The monthly rate of antibiotic prescriptions per 1000 patient visits is presented as mean. While unadjusted relative change refers to the relative change in each outcome in the COVID-19 compared with the pre-COVID-19 period (without accounting for the nature of time series data), adjusted relative changes with 95% CIs were obtained from the levels of the level change model in the interrupted time series analysis described in the "Methods" section. Abbreviation: COVID-19, coronavirus disease 2019. a Other prescribers included nurse practitioners, pharmacists, nonphysician lab directors, optometrists, osteopaths, chiropractors, and chiropodists. relative change, -27.5%; 95% CI, -33.0% to -21.5%; P < .001). For subgroup analyses ( Supplementary Figures 8 and 9) , a reduction in antibiotic prescriptions/1000 patient visits during the COVID-19 period was observed both in family physicians (adjusted relative change, -28.9%; 95% CI, -34.7% to -22.6%) and in subspecialist physicians (adjusted relative change, -22.2%; 95% CI, -26.5% to -17.7%). The adjusted relative changes were -6.8% (95% CI, -10.8% to -2.7%; P = .001) in antibiotics indicated for respiratory infections/1000 visits with respiratory infections, -11.0% (95% CI, -14.3% to -7.6%; P < .001) in antibiotics indicated for urinary tract infections/1000 visits with urinary tract infections, and -4.7% (95% CI, -8.2% to -1.1%; P = .012) in antibiotics indicated for skin and soft tissue infections/1000 visits with skin and soft tissue infections, respectively. The adjusted relative changes were -5.5% (95% CI, -8.1% to 2.8%; P < .001) in antibiotics indicated for any of respiratory, urinary tract, or skin and soft tissue infections/1000 visits with any diagnosis of respiratory, urinary tract, or skin and soft tissue infections (Supplementary Figure 10) . The study highlights the significant reduction (-31.2%; 95% CI, -35.1% to -27.0%; adjusted relative change) in total outpatient antibiotic prescriptions issued during the COVID-19 period in Ontario, Canada. The magnitude of the reduction in the number of antibiotic prescriptions was larger in children, in antibiotics for respiratory infections, and for family physician prescribers. Although the number of total visits recovered from May 2020 onward, the trend of reduced total antibiotic prescriptions was sustained, which led to a reduction in total antibiotic prescriptions/1000 visits. The reduced total antibiotic prescriptions observed during the COVID-19 period may be explained, in part, by the reduced visits for respiratory infections (adjusted relative change, -49.9%) due to the implementation of public health measures in Ontario, including school closures, restrictions on gatherings, hand hygiene, mask wearing, and physical distancing [20, 21] . The visits for respiratory infections showed a sustained reduction throughout the COVID-19 period, while visits with urinary tract infections and skin and soft tissue infections in the later COVID-19 period returned to prepandemic levels. The actual rate of prescribing of antibiotics indicated for respiratory infections for visits with respiratory infections declined by only 6.8% during the COVID-19 period; thus a change in prescribing rate does not fully explain the 43.7% reduction in antibiotics indicated for respiratory infections. These observations suggest that the sustained reduction in antibiotic prescription during the COVID-19 period was driven by the reduction of respiratory infections rather than by altered prescribing rates among those with infections. Similarly, the data also suggest that there was no increase in prescribing related to the shift to virtual care. Difficult access to medical visits (including both in-person and virtual case visits) could potentially be another reason for the reduced antibiotic prescriptions [22] . Virtual care may present diagnostic challenges; however, several studies have identified similar or reduced antibiotic prescribing practices compared with in-person care [9, [23] [24] [25] . However, our study could not evaluate the direct causality between the increasing trend of virtual visits and the reduction of antibiotic prescriptions. While various impacts of the first wave of COVID-19 in March 2020 on outpatient antibiotic prescriptions have been reported, from a sustained reduction to a transient increase in antibiotic prescribing [26] [27] [28] , our study showed a remarkable reduction of antibiotic prescriptions in March 2020. This may be explained by a variety of reasons, including differences in the overall number of COVID-19 cases or intensity of mitigation measures, epidemiology of infectious diseases, and access to health care services in the first wave of the COVID-19 pandemic. Patients with COVID-19 may often receive antibiotics. A recent study reported increased prescriptions of amoxicillinclavulanate during the COVID-19 pandemic related to prescribing in patients with COVID-19 [9] . A retrospective study initially reported a potential positive impact of azithromycin on COVID-19 outcome, which was negated by randomized trial data [29, 30] . We observed a marked reduction in macrolide prescribing during the COVID-19 period, similar to a report published by the Centers for Disease Control and Prevention [28] . The observed large reduction in macrolide use is likely related to frequent use for respiratory indications, which are often viral and, as such, macrolides are unnecessary [31] . Ongoing monitoring of antibiotic prescribing in the community is important to monitor trends given the dynamic feature of the COVID-19 pandemic. In our study, the magnitude of the reduced antibiotic prescriptions was lower among dentists compared with family physicians or subspecialist physicians. An Australian study demonstrated a reduction of antibiotic prescriptions among dentists [32] , while a UK study showed an increased trend of dental antibiotic prescriptions [33] . Early in the pandemic, there was decreased access to dental care and likely increased antibiotic prescribing for dental conditions. This highlights that access to appropriate dental care likely influences overall outpatient antibiotic prescribing and subsequently is an important component of outpatient antimicrobial stewardship. While a reduction of antibiotic prescriptions was observed during the COVID-19 period for all patient age and sex groups, the magnitude of the reduced impact was larger in children compared with older adults. This potentially reflects the larger reduction in respiratory infections among children in the COVID-19 period. Schools in Ontario were closed for a considerable period of time beginning in March 2020 [34] . School closure and a subsequent reduction in respiratory infections may explain the larger antibiotic reduction among children [35] [36] [37] [38] . Given the fact that there was only a small reduction in respiratory antibiotic prescriptions/1000 visits with respiratory infections in our study, one possible explanation is that antibiotic prescribing behaviors may not have changed substantially between the pre-COVID-19 and COVID-19 periods, and the reduction of antibiotic prescribing may have been driven by there being fewer, predominately viral, respiratory infections [39] [40] [41] . Therefore, we may expect antibiotic prescribing to increase back to pre-COVID-19 pandemic levels without further intervention. On the other hand, the reduction in antibiotic prescribing during the COVID-19 period also may provide a reasonable approximate target for outpatient stewardship interventions if unnecessary antibiotics for viral infections have been the issue [42] . An important strength of this study was the use of ITS analysis with linked prescription and aggregate physician visit data, allowing us to evaluate the magnitude of changes in antibiotic prescriptions (and whether these changes were sustained) not only for total antibiotic prescriptions, but also by key patient and prescriber strata. This allowed for a greater understanding of why antibiotic prescribing may have changed. There are a few limitations to this study. First, we could not evaluate the magnitude of impact of increased virtual visits during the COVID-19 period because we could not link the individual types of visits to the antibiotic prescriptions. Second, we could not obtain individual data regarding COVID-19. A study of UK family physicians revealed that ~30% of patients with SARS-CoV-2 infections received at least 1 antibiotic prescription [11] . Third, the geospatial projection algorithm of the IQVIA data was not validated during the COVID-19 period. Finally, while data from other jurisdictions support that a reduction in respiratory infections drove the observed change in visit behavior, this study did not examine infectious etiology directly [43, 44] . In conclusion, our study showed a significant reduction in overall outpatient antibiotic prescribing during the COVID-19 pandemic in Ontario. The sustained reductions in observed antibiotic prescriptions appear to have been driven by implementation of public health measures that reduced respiratory infection transmission [20, 21, 45] . However, we observed a modest reduction in antibiotic prescriptions/visits with respiratory infection. This may suggest that antibiotic prescribing behaviors did not change or improve during the COVID-19 period. Further study is needed to understand the implications of these changes in antibiotic prescribing on antimicrobial resistance. 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The opinions, results and conclusions reported in this paper are those of the authors and are independent from the funding sources. No endorsement by ICES, CIHI, or the Ontario MOH and MLTC is intended or should be inferred.Financial support. This study was supported by ICES, which is funded by an annual grant from the Ontario Ministry of Health (MOH) and the Ministry of Long-Term Care (MLTC). Parts of this material are based on data and/or information compiled and provided by the Canadian Institute for Health Information (CIHI).Potential conflicts of interest. All authors: no reported conflicts of interest. All authors have submitted the ICMJE Form for Disclosure of Potential Conflicts of Interest. Conflicts that the editors consider relevant to the content of the manuscript have been disclosed.