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National electronic Library for Medicines Medicines Management Overview March 2012 ELECTRONIC PRESCRIBING (COMPUTERISED PRESCRIBER ORDER ENTRY) Annotated bibliography of publications in 2011 Contents Summary 1 Synopsis 2 Effect on outcomes 4 Summary Papers on electronic prescribing (computerised prescriber order entry) published in 2011 are summarised below under a range of headings: effect on outcomes; effect on medication errors and patient safety; other evaluations; system design; alert presentation; drug interaction processing; other usability aspects; implementation; general and miscellaneous. Effect on medication errors and patient safety 4 Other evaluations 17 System design 20 Alert presentation 21 Drug interaction processing 25 Other usability aspects 28 Implementation 33 General/Miscellaneous 34 Produced for the National electronic Library for Medicines by: Tom Burnham, Information Specialist, London and South East Medicines Information Service, Guy’s Hospital, London SE1 9RT Tel: 020 7188 5026 [email protected] W e i g h t m a n a g e m e n t m 1 Synopsis Papers on electronic prescribing (computerised prescriber order entry) published in 2011 are summarised below under a range of headings. Key findings are as follows: Effect on outcomes: An observational before and after study in the ICU of hospital in Saudi Arabia found no difference in key indicators (mortality, length of stay, use of mechanical ventilation) following the introduction of e-prescribing in the unit. Effect on medication errors and patient safety: Numerous studies were published in 2011 in a range of healthcare settings. The general conclusion seems to be that the introduction of e-prescribing is likely to reduce some types of prescribing (and probably dispensing) errors, particularly those associated with handwriting, legibility, transcription and use of abbreviations. Evidence regarding more significant types of error is equivocal, and some studies have found increased rates of certain types of error associated with e-prescribing systems, particularly in the period immediately following implementation. This is perhaps not surprising, as non-procedural errors will depend not just on the use of an e-prescribing system per se, but on the specific system used, the clinical decision support provided (if any) and the arrangements for prioritising and presenting alerts. Other evaluations: Studies report the degree of satisfaction of doctors, patients and pharmacists with e-prescribing systems. Training and implementation issues appear to have an important bearing. A study in Australia, comparing a number of commercial e-prescribing packages against pre-defined criteria, found important differences between systems. System design: One paper considered the different features required in an e-prescribing system for paediatric use from those required for adult patients. In another study, integrating disease-specific order subsets into a single general admission order set significantly improved the overall adoption of order sets by clinicians. Alert presentation: A common factor of studies of clinicians’ reaction to alerts provided by e-prescribing systems is that a high proportion are overridden. System design which avoids “alert fatigue” is thus important. Drug interaction processing: Considerable differences exist in the way eprescribing systems present potential drug interactions, and in the knowledge bases they use to identify them. Users appear to require a system which will grade drug interaction alerts by their (potential) severity, and make it more difficult to override the most serious alerts. Other usability aspects: Usability problems appear to be frequent in eprescribing systems (although they do not always affect users’ declared satisfaction). User-centred design is important. Poor usability is likely to 2 result in users developing “workarounds”, which will have an impact on the integrity of data and potentially on patient safety. Implementation: The papers listed describe implementation of eprescribing systems in various settings. It is preferable to involve users in the design and implementation, and to provide adequate training for all users. General: Several papers considering the future of e-prescribing are listed. It is noted that adoption has not been as rapid as expected in many countries, and that e-prescribing is not yet a mature technology. If the potential benefits of e-prescribing in terms of safety and efficiency are to be realised, it is important that systems should be able to communicate across the continuum of care. In practice, this happens to only a limited extent so far. 3 E-prescribing – effects on outcomes Impact of computerized physician order entry (CPOE) system on the outcome of critically ill adult patients: a before-after study HM Al-Dorzi, HM Tamim, AJ Cherfan, MA Hassan, S Taher, YM Arabi BMC Medical Informatics and Decision Making 19 Nov 2011;11:71 Background: Computerised physician order entry (CPOE) systems are recommended to improve patient safety and outcomes. However, their effectiveness has been questioned. Our objective was to evaluate the impact of CPOE implementation on the outcome of critically ill patients. Methods: This was an observational before-after study carried out in a 21bed medical and surgical intensive care unit (ICU) of a 900-bed tertiary care centre (King Abdulaziz Medical City-Riyadh, Saudi Arabia). It included all patients admitted to the ICU in the 24 months pre- and 12 months post-CPOE (Misys) implementation. Data were extracted from a prospectively collected ICU database and included: demographics, Acute Physiology and Chronic Health Evaluation (APACHE) II score, admission diagnosis and comorbid conditions. Outcomes compared in different preand post-CPOE periods included: ICU and hospital mortality, duration of mechanical ventilation and length of stay in ICU and hospital. These outcomes were also compared in selected high risk subgroups of patients (age 12-17 years, traumatic brain injury, admission diagnosis of sepsis and admission APACHE II higher than 23). Multivariate analysis was used to adjust for imbalances in baseline characteristics and selected clinically relevant variables. Results: There were 1638 and 898 patients admitted to the ICU in the specified pre- and post-CPOE periods, respectively (age 52+/-22 vs 52+/21 years, p = 0.74; APACHE II 24+/-9 vs 24+/-10, p = 0.83). During these periods, there were no differences in ICU (adjusted odds ratio (aOR) 0.98; 95% CI, 0.7 to 1.3) and in hospital mortality (aOR 1.00; 95% CI, 0.8 to 1.3). CPOE implementation was associated with similar duration of mechanical ventilation and of stay in the ICU and hospital. There was no increased mortality or stay in the high risk subgroups after CPOE implementation. Conclusions: The implementation of CPOE in an adult medical surgical ICU resulted in no improvement in patient outcomes in the immediate phase and up to 12 months after implementation. http://www.biomedcentral.com/content/pdf/1472-6947-11-71.pdf Effect on medication errors and patient safety Impact and determinants of commercial computerized prescriber order entry on the medication administration process I Abbass, S Mhatre, SS Sansgiry, J Tipton, C Frost Hospital Pharmacy May 2011;46(5):341-348 Purpose: The purpose of this study was to evaluate the impact of commercial computerised prescriber order entry (CPOE) on efficiency outcomes in an 864-bed community hospital. Methods: A retrospective study was developed to measure medication errors and medication order turnaround time in St. Luke's Episcopal Hospital located in the Texas Medical Center (USA). The study data were collected by stratified random sampling through a review of medication 4 orders submitted to the pharmacy using a paper-based order system and the CPOE system. Descriptive frequencies, chi-squared test, Wilcoxon matched-pairs sign rank test, and logistic regression and multiple regression analyses were conducted to examine the relationship among variables. Results: Of the 1110 total orders reviewed (563 paper-based and 547 CPOE), a total of 135 medication errors were found, with 10.5% in paperbased versus 1.6% in CPOE. The most prevalent errors in paper-based orders were inappropriate abbreviations (24.4%), incorrect doses (15.6%), occurrences of allergy (13.3%) and wrong administration frequency (9.6%). In CPOE orders, the errors were occurrences of allergy (10.4%), incorrect doses (2.2%) and drug interaction (0.7%). CPOE resulted in a 50% reduction of medication order turnaround time (median = 24 minutes CPOE vs 48 minutes paper orders). A potential medication error, unidentified prescribers within medication orders, urgency of medication order, and implementation of CPOE were the significant (P less than 0.05) determinants of medication order turnaround time. Conclusions: The implementation of a commercial CPOE system reduced medication errors and improved medication order turnaround times. http://thomasland.metapress.com/content/3145223846r88632/?p=18b55db0a1e 94e7fb9835dc3c40ba0bb&pi=8 Electronic prescribing within an electronic health record reduces ambulatory prescribing errors EL Abramson, Y Barron, K Quaresimo, R Kaushal Joint Commission Journal on Quality and Patient Safety Oct 2011;37(10):470478 Background: Health policy forces are promoting the adoption of interoperable electronic health records (EHRs) with electronic prescribing (e-prescribing). Despite the promise of EHRs with e-prescribing to improve medication safety in ambulatory care settings - where most prescribing occurs and where errors are common - few studies have demonstrated its effectiveness. A study was conducted to assess the effect of an e-prescribing system with clinical decision support, including checks for drug allergies and drug-drug interactions, that was integrated within an EHR on rates of ambulatory prescribing errors. Methods: In a prospective study using a nonrandomised, pre-post design with concurrent controls, 6 providers who used a commercial e-prescribing system were compared with 15 providers who remained paper-based from Sep 2005 to Jul 2008. Prescribing errors were identified by a standardised prescription and chart review. Results: Some 2432 paper prescriptions at baseline and 2079 prescriptions at one year were analysed. Error rates for e-prescribing adopters decreased 1.5-fold - from 26.0 errors per 100 prescriptions at baseline (95% CI, 17.4 to 38.9) to 16.0 errors per 100 prescriptions at one year (95% CI, 12.7 to 20.2; p = 0.09). Error rates remained unchanged for nonadopters (37.3 per 100 prescriptions at baseline, 95% CI, 27.6-50.2, versus 38.4 per 100 prescriptions at one year, 95% CI, 27.4 to 53.9; p = 0.54). Error rates for e-prescribing adopters were significantly lower than for nonadopters at one year (p less than 0.001). Illegibility errors were high at baseline and eliminated by e-prescribing. Conclusions: The preliminary findings from this small group of providers suggest that e-prescribing systems may decrease ambulatory prescribing errors, which are occurring at high rates among community-based providers. 5 http://www.ingentaconnect.com/content/jcaho/jcjqs/2011/00000037/00000010/ art00007 Transitioning between electronic health records: effects on ambulatory prescribing safety EL Abramson, S Malhotra, K Fischer, A Edwards, ER Pfoh, et al. Journal of General Internal Medicine Aug 2011;26(8):868-874 Background: Healthcare providers in the USA who previously used older electronic health records (EHRs) with electronic prescribing (e-prescribing) are transitioning to newer systems to be eligible for federal meaningful use incentives. Little is known about the safety effects of transitioning between systems. Objective: To assess the effect of transitioning between EHR systems on rates and types of prescribing errors, as well as provider perceptions about the effect on prescribing safety. Design, Participants: Prospective, case study of 17 physicians at an academic-affiliated ambulatory clinic from Feb 2008 to Aug 2009. All physicians transitioned from an older EHR with minimal clinical decision support (CDS) for e-prescribing to a newer EHR with more robust CDS. Main Measurements: Prescribing errors were identified by standardised prescription and chart review. A novel survey instrument was administered to evaluate providers' perceptions about prescribing safety. Results: We analysed 1298 prescriptions at baseline, 1331 prescriptions at 12 weeks post-implementation, and 1303 prescriptions at 1 year postimplementation. Overall prescribing error rates were highest at baseline (35.7 per 100 prescriptions; 95% CI, 23.2 to 54.8) and lowest 1 year post-implementation (12.2 per 100 prescriptions; 95% CI, 8.6 to 17.4) (p less than 0.001). Improvement in prescribing safety was mainly a result of reducing inappropriate abbreviation errors. However, rates for nonabbreviation prescribing errors were significantly higher at 12 weeks postimplementation than at baseline (17.7 per 100 prescriptions; 95% CI, 9.5 to 33.0, vs 8.5 per 100 prescriptions; 95% CI, 4.6 to 15.9) (p less than 0.001) and no different at baseline from 1 year (10.2 per 100 prescriptions; 95% CI, 6.2 to 18.6) (p = 0.337). Survey results complemented quantitative findings. Conclusions: Results from this case study suggest that transitioning between systems, even to those with more robust CDS, may pose important safety threats. Recognising the challenges associated with transitions and refining CDS within systems may help maximise safety benefits. http://www.springerlink.com/content/t5471w73527j4250/ Can new technologies reduce the rate of medication errors in adult intensive care? (Les nouvelles technologies permettent-elles de réduire les erreurs médicamenteuses en soins intensifs adultes?) E Benoit, J Beney Journal de Pharmacie de Belgique Sep 2011;(3):82-91 Technology to control the monitoring and administration of critical drugs to unstable patients is widespread in the intensive care environment. Since the early 2000s computerised physician order entry (CPOE), bar code assisted medication administration (BCMA), 'smart' infusion pumps (SIP), electronic medication administration records (eMAR) and automated dispensing systems (ADS) have been recommended to reduce medication errors. Some 10 years later, the extent to which they have been 6 adopted is increasing but is still modest. The objective of this study is to determine the impact of these technologies on the rate of medication errors (ME) in adult intensive care. CPOE permits a marked and significant reduction in ME, especially the least critical ones. Only by adding a clinical decision support system (CDSS), can CPOE achieve a reduction in serious errors. Used alone, it could even increase them. The available studies do not have sufficient power to demonstrate the benefits of SIP or BCMA on ME. However, practices such as overriding of alerts have been demonstrated with these devices. Power or methodology problems and conflicting results do not allow the ability of ADS to reduce the incidence of ME in intensive care to be established. Studies investigating such technologies are not very recent, are of limited number and show defects in their methodology, which does not allow us to determine whether they can reduce the incidence of MEs in the adult intensive care. Currently, the benefits appear to be limited which may be explained by the complexity of their integration into the care process. Special attention should be given to the communication between caregivers, the human-computer interface and the training of caregivers. http://www.apb.be/Content/default.asp?pageid=727 Can an electronic prescribing system detect doctors who are more likely to make a serious prescribing error? JJ Coleman, K Hemming, PG Nightingale, IR Clark, M Dixon-Woods, RE Ferner, RJ Lilford Journal of the Royal Society of Medicine May 2011;104(5):208-218 Objectives: We aimed to assess whether routine data produced by an electronic prescribing system might be useful in identifying doctors at higher risk of making a serious prescribing error. Design: Retrospective analysis of prescribing by junior doctors over 12 months using an electronic prescribing information and communication system. The system issues a graded series of prescribing alerts (low-level intermediate, and high-level), and warnings and prompts to respond to abnormal test results. These may be overridden or heeded, except for high-level prescribing alerts, which are indicative of a potentially serious error and impose a 'hard stop'. Setting: A large teaching hospital in the UK. Participants: All junior doctors in the study setting. Main outcome measures: Rates of prescribing alerts and laboratory warnings and doctors' responses. Results: Altogether 848,678 completed prescriptions issued by 381 doctors (median 1538 prescriptions per doctor, interquartile range (IQR) 328-3275) were analysed. We identified 895,029 low-level alerts (median 1033 per 1000 prescriptions per doctor, IQR 903-1205) with a median of 34% (IQR 31-39%) heeded; 172,434 intermediate alerts (median 196 per 1000 prescriptions per doctor, IQR 159-266), with a median of 23% (IQR 16-30%) heeded; and 11,940 high-level 'hard stop' alerts. Doctors vary greatly in the extent to which they trigger and respond to alerts of different types. The rate of high-level alerts showed weak correlation with the rate of intermediate prescribing alerts (correlation coefficient, r = 0.40; P less than 0.001); very weak correlation with low-level alerts (r = 0.12, P = 0.019); and showed weak (and sometimes negative) correlation with propensity to heed test-related warnings or alarms. The degree of correlation between generation of intermediate and high-level alerts is insufficient to identify doctors at high risk of making serious errors. Conclusions: Routine data from an electronic prescribing system should not be used to identify doctors who are at risk of making serious errors. 7 Careful evaluation of the kinds of quality assurance questions for which routine data are suitable will be increasingly valuable. http://jrsm.rsmjournals.com/content/104/5/208.abstract Using an enhanced oral chemotherapy computerized provider order entry system to reduce prescribing errors and improve safety CM Collins, KA Elsaid International Journal for Quality in Health Care Feb 2011;23(1):36-43 Objective: To reduce the probability of failure in the oral chemotherapy order, review and administration process and to reduce oral chemotherapy-related prescribing errors intercepted by clinical pharmacists prior to reaching the patient. Design: A before-and-after cohort study. Setting: A 719-bed multidisciplinary tertiary care institution in the USA with a paediatric division and an outpatient cancer centre. Participants: A multidisciplinary team characterised key elements of the oral chemotherapy process using healthcare failure modes and effects analysis (HFMEA). Interventions: Oral chemotherapy computerised provider order entry (CPOE) was developed and implemented. Main Outcome Measures: Pharmacist-intercepted oral chemotherapy prescribing errors over a 24-month period (before) and over a 6-month period (after) were analysed according to the error type (errors in clinical decision making, errors in transcription or errors related to prescribing policy). The incidence of prescribing errors prior to and following CPOE implementation was compared by calculating the odds ratio (OR) and the 95% confidence interval (CI). Results: HFMEA hazard analysis revealed 7 potential failure modes, with the highest hazard scores in the prescribing and administration components of the process. CPOE implementation significantly (P = 0.023) reduced prescribing error risk by 69% (OR = 0.31; 95% CI, 0.110.86) and eliminated certain types of errors that can lead to significant patient harm. Conclusions: Prescribing oral chemotherapy is a failure mode with significant risk of inducing patient harm. CPOE is effective in reducing prescribing errors of oral chemotherapy and should be considered part of a fail-safe process to improve safety. http://intqhc.oxfordjournals.org/content/23/1/36.abstract Impact of electronic prescribing support on the reduction of transcription errors at the administration stage (Impacto de la prescripción electrónica asistida en la reducción de los errores de transcripción a la hoja de administración) SE Garcia-Ramos, G Baldominos Utrilla Farmacia Hospitalaria Mar-Apr 2011;35(2):64-69 Objective: To assess the impact of administration errors when transcribing treatments to nurses' administration forms, and to estimate the impact of electronically assisted prescribing (EAP) in minimising these errors. Method: A prospective, observational study in hospitalised patients in Spain. Changes in treatment in the 24 hours before examination were analysed for a representative sample. Transcription errors were detected by checking for discrepancies between the doctors' prescriptions and the nurses' treatment administration forms. Error incidence was calculated overall, and by ward, type of error, administration route and 8 potential seriousness. The possible reduction in new errors per day if EAP were introduced in all wards was estimated. Results: Of the 416 prescriptions recorded, the overall percentage of transcription errors was 12.4%, 9.8% in medical units and 15.2% in surgical units. Most of the errors were made when a new medicine was added (29.4%) and the frequency of administration was changed (27.4%). With regard to their seriousness, 98% did not harm the patients, and 57.7% were listed as 'Category C'. Given that one change of treatment is made per patient per day, introduction of EAP would be predicted to prevent 64 new errors daily in the hospital. Conclusions: There are so many transcription errors that they should be taken into account when designing strategies to improve care quality. EAP is an efficient tool to eliminate errors associated with the transcription of prescriptions. http://www.sciencedirect.com/science/article/pii/S1130634310002217 Safety issues related to the electronic medical record (EMR): synthesis of the literature from the last decade, 2000-2009 L Harrington, D Kennerly, C Johnson Journal of Healthcare Management Jan-Feb 2011;56(1):31-43 Healthcare is a complex industry burdened by numerous and complicated clinical and administrative transactions that require many behavioural changes by patients, clinicians and provider organisations. While healthcare information technology (HIT) is intended to relieve some of the burden by reducing errors, several aspects of systems such as the electronic medical record (EMR) may actually increase the incidence of certain types of errors or produce new safety risks that result in harm. Healthcare leaders must appreciate the complexity surrounding EMRs and understand the safety issues in order to mandate sound EMR design, development, implementation and use. This article seeks to inform executives, clinicians and technology professionals what has been learned through published research on the safety of HIT systems during the last decade, focusing on computerised physician order entry (CPOE), clinical decision support systems (CDSS) and bar-coded medication administration (BCMA). http://www.ache.org/pubs/jhm561.cfm Online detection of potential duplicate medications and changes of physician behavior for outpatients visiting multiple hospitals using national health insurance smart cards in Taiwan M-H Hsu, Y-T Yeh, C-Y Chen, C-H Liu, C-T Liu International Journal of Medical Informatics Mar 2011;80(3):181-189 Objectives: Doctor shopping (or hospital shopping), which means changing doctors (or hospitals) without professional referral for the same or similar illness conditions, is common in Hong Kong, Taiwan and Japan. Due to the lack of infrastructure for sharing health information and medication history among hospitals, doctor-shopping patients are more likely to receive duplicate medications and suffer adverse drug reactions. The Bureau of National Health Insurance (BNHI) adopted smart cards (or NHIIC cards) as health cards in Taiwan. With their NHI-IC cards, patients can freely access different medical institutions. Because an NHI-IC card carries information about a patient's prescribed medications received from different hospitals nationwide, we used this system to address the problem of duplicate medications for outpatients visiting multiple hospitals. 9 Methods: A computerised physician order entry (CPOE) system was enhanced with the capability of accessing NHI-IC cards and providing alerts to physicians when the system detects potential duplicate medications at the time of prescribing. Physician responses to the alerts were also collected to analyse changes in physicians' behavior. Chisquared tests and two-sided z-tests with Bonferroni adjustments for multiple comparisons were used to assess statistical significance of differences in actions taken by physicians over the 3 months. Results: The enhanced CPOE system for outpatient services was implemented and installed at the paediatric and urology departments of Taipei Medical University Wan-Fang Hospital in Mar 2007. The 'Change Log' that recorded physician behaviour was activated during a 3-month study period from Apr to Jun 2007. In 67.93% of patient visits, the physicians read patient NHI-IC cards, and in 16.76% of the reads, the NHI-IC card contained at least one prescribed medication that was taken by the patient. Among the prescriptions issued by physicians, on average, there were 2.36% prescriptions containing at least one medication that might duplicate the prior prescriptions stored in NHI-IC cards. The rate of potential duplicate medication alerts for the paediatric department was higher than that for the urology department (2.78% vs 1.67%). However, the rate of revisions to prescriptions was higher in the urology department than the paediatric department. Overall, the rate of physicians reviewing and revising their prescriptions was 29.25%; the rate of physicians reviewing without revising their prescriptions was 43.62%; the rate of physicians turning off the alert screens right after the screens popped up (override) was 27.13%. Thus, physicians accepted alerts to review their prescriptions with patients in most situations (72.87%). Moreover, over the study period, the rate of total revisions made to prescriptions increased and the 'override' rate decreased. Conclusions: Our approach enhances the capability of CPOE systems using NHI-IC cards as a nationwide infrastructure to provide more complete patient health information and medication history sharing among hospitals in Taiwan. Thus, our system can provide a better prescribing tool to help physicians detect potential duplicate medications for frequent doctorshopping patients and hence enhance patient safety across hospital boundaries. However, the effectiveness of detecting duplicate medications with our approach is very much dependent on the completeness of NHI-IC cards, which in turn primarily depends on physicians using the cards when prescribing. http://www.ijmijournal.com/article/S1386-5056(10)00215-7/abstract Effect of e-prescribing systems on patient safety J Kannry Mount Sinai Journal of Medicine Nov-Dec 2011;78(6):827-833 E-prescribing systems enable electronic transmissions of prescriptions to pharmacies from the provider's office. The promise of e-prescribing in regard to patient safety is reduction in the time gap between point of care and point of service, reduction in medication errors, and improved quality of care. This article will give a brief overview of e-prescribing systems, what is known about these systems and their impact on patient safety, and what challenges remain. For purposes of this article, the term 'patient safety' will be used interchangeably with medication errors and adverse drug events. Although there is some evidence that e-prescribing alone and e-prescribing with medication decision support can reduce medication errors, there is also evidence that e-prescribing can be a source of medication errors. The need for more study is particularly relevant and timely, as the US Centers for Medicare and Medicaid Services is strongly 10 incentivising providers to use e-prescribing with medication decision support. Despite concerns about efficiency and dissatisfaction, the majority of providers believe e-prescribing provides for improved patient safety. Limited evidence suggests that e-prescribing with medication decision support can improve patient safety. http://onlinelibrary.wiley.com/doi/10.1002/msj.20298/abstract The comparative effectiveness of two electronic prescribing systems R Kaushal, Y Barron, EL Abramson American Journal of Managed Care Dec 2011;17(12-Spec.No.):SP88-SP94 Objectives: The increasingly widespread adoption of electronic health records (EHRs) is substantially changing the American healthcare delivery system. Differences in the actual effectiveness of EHRs and their component applications, including electronic prescribing (e-prescribing), is not well understood. We compared the effects of two types of eprescribing systems on medication safety as an example of how comparative effectiveness research (CER) can be applied to the study of healthcare delivery. Study Design and Methods: We previously conducted two nonrandomised, prospective studies with pre-post controls comparing prescribing errors among: (1) providers who adopted a standalone eprescribing system with robust technical and clinical decision support (CDS) and (2) providers who adopted an EHR with integrated eprescribing with less robust available CDS and technical support. Both studies evaluated small groups of ambulatory care providers in the same New York (USA) community using identical methodology including prescription and chart reviews. We undertook this comparative effectiveness study to directly compare prescribing error rates among the 2 groups of e-prescribing adopters. Results: The stand-alone system reduced error rates from 42.5 to 6.6 errors per 100 prescriptions (P less than 0.001). The integrated system reduced error rates from 26.0 to 16.0 per 100 prescriptions (P = 0.07). After adjusting for baseline differences, stand-alone users had a 4-fold lower rate of errors at 1 year (P less than 0.001). Conclusions: Despite improved work flow integration, the integrated eprescribing application performed less well, most likely due to differences in available CDS and technical resources. Results from this small study highlight the importance of CER that directly compares components of healthcare delivery. http://www.ajmc.com/publications/issue/2011/2011-12-vol17-SP The effect of computerized physician order entry and decision support system on medication errors in the neonatal ward: experiences from an Iranian teaching hospital A Kazemi, J Ellenius, F Pourasghar, S Tofighi, A Salehi, A Amanati, UGH Fors Journal of Medical Systems Feb 2011;35(1):25-37 Medication dosing errors are frequent in neonatal wards. In an Iranian neonatal ward, a 7.5-months study was designed in three periods to compare the effect of computerised physician order entry (CPOE) without and with decision support functionalities in reducing non-intercepted medication dosing errors in antibiotics and anticonvulsants. Before intervention (Period 1), error rate was 53%, which did not significantly change after the implementation of CPOE without decision support (Period 2). However, errors were significantly reduced to 34% after that the decision support was added to the CPOE (Period 3; P less than 0.001). 11 Dose errors were more often intercepted than frequency errors. Overdose was the most frequent type of medication errors and curtailedinterval was the least. Transcription errors did not reduce after the implementation of CPOE. Physicians ignored alerts when they could not understand why they appeared. A suggestion is to add explanations about these reasons to increase physicians' compliance with the system's recommendations. http://www.springerlink.com/content/93221001852844hq/fulltext.pdf Electronic prescription errors in an ambulatory pharmacy R Molitor, S Friedman Journal of Managed Care Pharmacy Nov-Dec 2011;17(9):714-715 Letter reporting an audit of all 300 e-prescriptions received at Evergreen Professional Center Pharmacy in Kirkland, Washington, USA, an outpatient hospital pharmacy, over the period from 24 May to 24 June 2011. This represented nearly 9% of all prescriptions received. These e-prescriptions were audited for legal and technical requirements as defined by Washington State law at the time of receipt. 16 categories were identified as potential sources of error, and errors or omissions were found in 11 of those categories. Errors included: sent to wrong pharmacy, some patient or provider information omitted, invalid quantities prescribed and errors in directions. The authors conclude that 'e-prescribing has the potential to decrease medical errors by eliminating poor handwriting, and could improve continuity of care through prescription documentation in electronic charts. However, with this technology still in its infancy, input errors should be anticipated and will need to be addressed by pharmacy staffs now, and into the near future before e-prescribing evolves into a process which is superior to current practice.' http://www.amcp.org/JMCP/2011/November-_December/13686/1033.html Addition of electronic prescription transmission to computerized prescriber order entry: effect on dispensing errors in community pharmacies TT Moniz, AC Seger, CA Keohane, D Lew Seger, DW Bates, JM Rothschild American Journal of Health-System Pharmacy 15 Jan 2011;68(2):158-163 Purpose: The addition of electronic prescription transmission to computeriaed prescriber order entry (CPOE) and its effect on dispensing errors in community pharmacies were evaluated. Methods: A controlled, before-and-after trial to measure the effect of electronic prescribing on dispensing errors in two control clinics and one eprescribing clinic already using CPOE was conducted between Jan and Nov 2006. Prescriptions documented within the CPOE system were reconciled with dispensed prescription information from participating pharmacy chains via a national pharmacy information exchange network. Dispensing errors were defined as discrepancies between the prescriber's written orders and the dispensed prescription information. Prescriptions filled at nonparticipating pharmacies were not analysed. Results: A total of 11,447 prescriptions were written in the control clinics and 29,575 were written in the e-prescribing clinic. During the intervention period, 2179 (22%) of 9905 intervention clinic prescriptions were electronically transmitted, including 621 (28%) available for analysis. There was no significant difference in the dispensing-error rates between the baseline and intervention periods for the control clinics. Similarly, the dispensing-error rates did not differ significantly for the e-prescribing clinic between the baseline and intervention periods for prescriptions that were 12 not electronically transmitted. The e-prescribing clinic's dispensing-error rate for electronically transmitted prescriptions during the intervention was significantly lower than its baseline dispensing-error rate (p = 0.03). Conclusions: Electronic transmission of prescription data from physicians' offices to a pharmacy nearly halved the risk of dispensing errors compared with generating the prescription with outpatient CPOE and printing it and giving it to the patient. http://www.ajhp.org/content/68/2/158.abstract Errors associated with outpatient computerized prescribing systems KC Nanji, JM Rothschild, C Salzberg, CA Keohane, K Zigmont, J Devita, TK Gandhi, AK Dalal, DW Bates, EG Poon Journal of the American Medical Informatics Association Nov 2011;18(6):767-773 Objective: To report the frequency, types, and causes of errors associated with outpatient computer-generated prescriptions, and to develop a framework to classify these errors to determine which strategies have greatest potential for preventing them. Materials and Methods: This is a retrospective cohort study of 3850 computer-generated prescriptions received by a commercial outpatient pharmacy chain across three US states over 4 weeks in 2008. A clinician panel reviewed the prescriptions using a previously described method to identify and classify medication errors. Primary outcomes were the incidence of medication errors; potential adverse drug events, defined as errors with potential for harm; and rate of prescribing errors by error type and by prescribing system. Results: Of 3850 prescriptions, 452 (11.7%) contained 466 total errors, of which 163 (35.0%) were considered potential adverse drug events. Error rates varied by computerised prescribing system, from 5.1% to 37.5%. The most common error was omitted information (60.7% of all errors). Discussion: About one in 10 computer-generated prescriptions included at least one error, of which a third had potential for harm. This is consistent with the literature on manual handwritten prescription error rates. The number, type and severity of errors varied by computerised prescribing system, suggesting that some systems may be better at preventing errors than others. Conclusions: Implementing a computerised prescribing system without comprehensive functionality and processes in place to ensure meaningful system use does not decrease medication errors. The authors offer targeted recommendations on improving computerised prescribing systems to prevent errors. http://jamia.bmj.com/content/18/6/767.abstract Implementation of an e-prescribing service: users' satisfaction and recommendations M Shams Canadian Pharmacists Journal Jul 2011;144(4):186-191 The aim of the present study was to measure the attitudes and satisfaction of various stakeholders about an electronic prescribing service (EPS), in order to generate best practice recommendations for further improvement. Relevant stakeholders included physicians from different specialties, pharmacy staff (pharmacists and assistant pharmacists), nurses and outpatients. Participants (n = 283) were randomly selected from several clinical settings in Muscat, Oman. They were asked to fill out a questionnaire to measure their satisfaction with the EPS, as well as their 13 attitude toward it, both before and after its integration with a computerised hospital information and management system (Al-Shifa). The overall level of satisfaction with the integrated EPS was high. Physicians, pharmacy staff and nurses highly agreed that the EPS reduced prescribing errors and they did not want to go back to the paper-based prescription system. Pharmacy staff and nurses viewed the EPS more positively and were more satisfied with it than were physicians (p less than 0.05). It was also found that 74% of patients who responded to the survey were either satisfied or very satisfied with the EPS and preferred it over paper-based prescriptions. In conclusion, the majority of stakeholders were generally satisfied with the current status of the EPS, but they also perceived a few key weaknesses. A total of 12 recommendations were offered to improve the EPS in clinical settings in the Sultanate of Oman. http://www.cpjournal.ca/doi/pdf/10.3821/1913-701X-144.4.186 Electronic prescribing reduces prescribing error in public hospitals R Shawahna, N-U Rahman, M Ahmad, M Debray, M Yliperttula, X Decleves Journal of Clinical Nursing Nov 2011;20(21-22):3233-3245 Aims and objectives: To examine the incidence of prescribing errors in a main public hospital in Pakistan and to assess the impact of introducing electronic prescribing system on the reduction of their incidence. Background: Medication errors are persistent in today's healthcare system. The impact of electronic prescribing on reducing errors has not been tested in the developing world. Design: Prospective review of medication and discharge medication charts before and after the introduction of an electronic inpatient record and prescribing system. Methods: Inpatient records (n = 3300) and 1100 discharge medication sheets were reviewed for prescribing errors before and after the installation of an electronic prescribing system on 11 wards. Results: Medications (13,328 and 14,064) were prescribed for inpatients, among which 3008 and 1147 prescribing errors were identified, giving an overall error rate of 22.6% and 8.2% during the periods with paper-based and electronic prescribing, respectively. Medications (2480 and 2790) were prescribed for discharge patients, among which 418 and 123 errors were detected, giving an overall error rate of 16.9% and 4.4% during paper-based and electronic prescribing, respectively. Conclusions: Electronic prescribing had a significant effect on the reduction of prescribing errors. Relevance to clinical practice: Prescribing errors are commonplace in public hospitals in Pakistan. The study evaluated the impact of introducing electronic inpatient records and electronic prescribing on the level of prescribing errors in a public hospital in Pakistan. http://onlinelibrary.wiley.com/doi/10.1111/j.1365-2702.2011.03714.x/abstract Electronic prescribing increases uptake of clinical pharmacologists' recommendations in the hospital setting AB Taegtmeyer, I Curkovic, K Rufibach, N Corti, E Battegay, GA Kullak-Ublick British Journal of Clinical Pharmacology Dec 2011;72(6):958-964 Aims: To determine whether electronic prescribing facilitates the uptake of clinical pharmacologists' recommendations for improving drug safety in medical inpatients. Methods: Electronic case records and prescription charts (either electronic or paper) of 502 patients hospitalised on medical wards in a large Swiss 14 teaching hospital between Jan 2009 and Jan 2010 were studied by four junior and four senior clinical pharmacologists. Drug-related problems were identified and interventions proposed. The implementation and time delays of these proposed interventions were compared between the patients for whom paper drug charts were used and the patients for whom electronic drug charts were used. Results: 158 drug-related problems in 109 hospital admissions were identified and 145 recommendations were made, of which 51% were implemented. Admissions with an electronic prescription chart (n= 90) were found to have 2.74 times higher odds for implementation of the change than those with a paper prescription chart (n= 53) (95% CI, 1.2 to 6.3; P = 0.018, adjusted for any dependency introduced by patient, ward or clinical team; follow-up for two cases missing). The time delay between recommendations being made and their implementation (if any) was minimal (median 1 day) and did not differ between the two groups. Conclusions: Electronic prescribing in this hospital setting was associated with increased implementation of clinical pharmacologists' recommendations for improving drug safety when compared with handwritten prescribing on paper. http://onlinelibrary.wiley.com/doi/10.1111/j.1365-2125.2011.04032.x/abstract Effects of therapeutic drug monitoring criteria in a computerized prescriber-order-entry system on the appropriateness of vancomycin level orders KA Traugott, PR Maxwell, K Green, C Frei, JS Lewis American Journal of Health-System Pharmacy 15 Feb 2011;68(4):347-352 Purpose: The effects of therapeutic drug monitoring (TDM) criteria in a computerized prescriber-order-entry (CPOE) system on the appropriateness of orders for vancomycin levels were evaluated. Methods: Vancomycin TDM criteria were developed and implemented in a CPOE system. These criteria were displayed via a pop-up alert message when vancomycin levels were ordered and included directions for appropriate timing and justification for routine monitoring. Data for two groups of adult inpatients who had vancomycin levels ordered before and after criteria implementation were compared. Medical records were retrospectively reviewed for these patients to collect information regarding patient demographics, vancomycin dosage and indication, concurrent antibiotics and nephrotoxic agents during vancomycin therapy, length of stay, duration of vancomycin therapy, and number of vancomycin levels drawn. The primary outcome was the percentage change in appropriate vancomycin levels ordered after criteria implementation. Results: A total of 200 patients were analysed, 100 in each group. The percentage of appropriate orders for vancomycin levels significantly increased after criteria implementation (from 58% to 68%, p = 0.02). The greatest effect on appropriateness occurred with the first level ordered (52% vs 70% in the pre-implementation and post-implementation groups, respectively; p = 0.01). The majority of inappropriate levels were due to improper timing of sample collections, accounting for 55% of the inappropriate levels evaluated. Conclusions: A significant increase in the number of appropriately ordered and drawn serum vancomycin levels occurred after implementation of TDM criteria in the hospital's CPOE system. The majority of orders that were deemed inappropriate were due to improper timing of laboratory collection. http://www.ajhp.org/content/68/4/347.abstract 15 Identifying, understanding and combating medication errors introduced by the computerisation of the medication circuit Connaître, comprendre et lutter contre les erreurs médicamenteuses induites par l’informatisation du circuit du médicament V Vialle, T Tiphine, Y Poirier, E Raingeard, D Feldman, J-C Freville Annales Pharmaceutiques Francaises May 2011;69(3):165-176 Introduction: The aim of the study is to identify medication errors related to computerised physician order entry (CPOE) in a hospital in France. Methods: The study covered a period of 1 year (2008 to 2009), during which medication supply to 378 beds was computerised. Medication errors were identified from notifications sent to the software supplier, feedback from health professionals and analysis of pharmacists' interventions made as a result of prescription errors due to computerisation. They were classified according to the French medication error dictionary of the French Society of Clinical Pharmacy. Results: 35 categories of medication errors were found. Most of them appeared during prescribing. Dosage and concentration errors, dose errors, omission errors and drug errors were the most frequent. Discussion and Conclusions: Three main causes were found: human factors, closely related to the software settings and the quality of user training; communication problems, related to the ergonomics; conception problems, related to the intuitiveness and complexity of the software. These results confirm the existence of medication errors introduced by computerised physician order entry systems. They highlight the need for initial and ongoing training of users, relevant and scalable setup and the use of mature and accredited software in order to minimise them. http://www.sciencedirect.com/science/article/pii/S0003450911000277 A clinical information system reduces medication errors in paediatric intensive care C Warrick, H Naik, S Avis, P Fletcher, B Dean Franklin, D Inwald Intensive Care Medicine Apr 2011;37(4):691-694 Purpose: To determine the effect of electronic prescribing (EP) with a clinical information system (Intellivue Clinical Information Portfolio, Philips, UK) on prescribing errors and omitted doses in a paediatric intensive care unit (PICU). Methods: Prospective audit of prescribing errors and omitted doses for 96hour periods in three epochs: (1) before implementation of EP, (2) 1 week and (3) 6 months later. Results: There was a non-significant reduction in prescribing errors: 8.8% (95% CI, 4.4-13.2) pre-implementation of EP versus 8.1% (4.4-11.8) 1 week after implementation and 4.6% (2.0-7.2) 6 months later. The prevalence of omitted doses decreased significantly 6 months following implementation, changing from 8.1% (5.8-10.4) pre-implementation to 10.6% (6.5-14.7) 1 week after implementation and 1.4% (0-2.8%) 6 months after implementation (P less than 0.05). Conclusions: EP within a clinical information system increases medication safety in a PICU. http://www.springerlink.com/content/r807p8l225318470/ Factors contributing to an increase in duplicate medication order errors after CPOE implementation TB Wetterneck, JM Walker, MA Blosky, RS Cartmill, P Hoonakker, MA Johnson, E Norfolk, P Carayon Journal of the American Medical Informatics Association Nov 2011;18(6):774-782 16 Objective: To evaluate the incidence of duplicate medication orders before and after computerised provider order entry (CPOE) with clinical decision support (CDS) implementation and identify contributing factors. Design: CPOE with duplicate medication order alerts was implemented in a 400-bed Northeastern USA community tertiary care teaching hospital. In a pre-implementation post-implementation design, trained nurses used chart review, computer-generated reports of medication orders, provider alerts and staff reports to identify medication errors in two intensive care units (ICUs). Measurement: Medication error data were adjudicated by a physician and a human factors engineer for error stage and type. A qualitative analysis of duplicate medication ordering errors was performed to identify contributing factors. Results: Data were collected for 4147 patient-days pre-implementation and 4013 patient-days post-implementation. Duplicate medication ordering errors increased after CPOE implementation (pre: 48 errors, 2.6% total; post: 167 errors, 8.1% total; p less than 0.0001). Most postimplementation duplicate orders were either for the identical order or the same medication. Contributing factors included: (1) provider ordering practices and computer availability, for example, two orders placed within minutes by different providers on rounds; (2) communication and handoffs, for example, duplicate orders around shift change; (3) CDS and medication database design, for example confusing alert content, high false-positive alert rate and CDS algorithms missing true duplicates; (4) CPOE data display, for example, difficulty reviewing existing orders; and (5) local CDS design, for example, medications in order sets defaulted as ordered. Conclusions: Duplicate medication order errors increased with CPOE and CDS implementation. Many work system factors, including the CPOE, CDS and medication database design, contributed to their occurrence. http://jamia.bmj.com/content/18/6/774.abstract Other evaluations Physicians' perception of CPOE implementation B Allenet, P Bedouch, S Bourget, M Baudrant, L Foroni, J Calop. J-L Bosson International Journal of Clinical Pharmacy Aug 2011;33(4):656-664 Objective: To identify perceptions held by physicians of the benefits of computerised physician order entry (CPOE) and factors influencing its successful implementation in the context of the increased presence of a clinical pharmacist on the ward. Setting A 2000-bed university hospital in France. Method: A cross-section opinion survey was conducted of all permanent physicians of the hospital to determine their perception of the benefits, or otherwise, of CPOE. A questionnaire, built upon the analysis of 10 preliminary semi-structured interviews with physicians, was sent to physicians by electronic and paper mail. It comprised three sections with a 4-level Likert scale: general perception of CPOE benefits (items 1.1-1.8); opinion about the introduction of the CPOE system in the hospital (item 2); opinion on the presence of a pharmacist on ward (item 3). A fourth section recorded the respondent's profile. Main outcome measures: Level of agreement on the items describing the general perception of CPOE benefits; opinion on the introduction of a CPOE system in the hospital; and opinion on the pharmacist's presence on ward. A Principal Component Analysis (PCA) was conducted on sections one and 17 two. Analysis of this PCA representation in terms of the respondents’ profile was performed. Results: 101 physicians (18%) participated in the survey. Most (83%) physicians favoured the implementation of CPOE (item 2). Among the advantages of CPOE, the greatest agreement concerned items related to safety and regulatory issues (from 80 to 76% agreement). Other items related to management issues were perceived as less tangible benefits (from 50 to 67% agreement). The increased presence of a pharmacist on the ward was supported by 94% of physicians. The PCA representation using profile items produced a 2-factor solution, accounting for 68% of the variance, with former experience of collaboration with a pharmacist (P = 0.002) and senior physician status (P = 0.013) positively influencing the perception of CPOE. Conclusions: Endorsement by senior physicians and the presence of a clinical pharmacist on the ward promote a positive attitude towards CPOE and facilitate its implementation. http://www.springerlink.com/content/k8t5307632n5387r/ Patients satisfied with e-prescribing in Sweden: a survey of a nationwide implementation T Hammar, S Nystrom, G Petersson, B Astrand, T Rydberg Journal of Pharmaceutical Health Services Research Jun 2011;2(2):97-105 Objective: To evaluate Swedish patients' attitudes towards e-prescribing, including the transfer of e-prescriptions, electronic storing of prescriptions and mail-order prescriptions. Methods: This study was a nationwide survey of attitudes among Swedish patients and was conducted as a postal questionnaire. The questionnaire was developed for the purpose of this study and aimed to evaluate respondents' views concerning e-prescribing, electronic storing of eprescriptions and mail-order prescriptions from aspects including safety, personal benefits and effectiveness. A study population of 1500 individuals meeting the inclusion criteria was randomly selected from a database of individuals in Sweden storing prescriptions electronically (n = 5,840,599). The response rate was 52% (739/1429). Key findings: The vast majority of the respondents had a positive attitude towards e-prescriptions (85%, 628/739) and electronic storing of prescriptions (86%, 633/739), and regarded e-prescriptions to be safe (79%, 584/739), creating benefits for them (78%, 576/739) and promoting faster dispensing (69%, 512/739). Significant differences in attitudes towards e-prescriptions and electronic storing of prescriptions were detected between age groups. Patients storing all their prescriptions electronically had a more positive attitude towards both e-prescriptions and electronic storing of prescriptions compared to patients who stated they had paper prescriptions. The most common suggestion (n = 27) for improvement was to extend the information given about the services. Conclusions: Our nationwide survey showed that a vast majority of Swedish patients had positive attitudes towards e-prescriptions and electronic storing of prescriptions. However, a need for extended information regarding e-prescribing was identified. http://onlinelibrary.wiley.com/doi/10.1111/j.1759-8893.2011.00040.x/abstract Doctors' orders - if they're electronic, do they improve patient satisfaction? A complements/substitutes perspective CC Queenan, CM Angst, S Devaraj Journal of Operations Management Nov 2011;29(7-8):639-649 18 Doctors' orders entered with Computerized Physician Order Entry (CPOE) systems are designed to enhance patient care by standardising routines that are intended to improve quality of healthcare. As with other health information technology (IT) performance studies, literature shows conflicting results regarding the CPOE-performance relationship. By adopting a more nuanced perspective and employing not just adoption but extent of use of CPOE, we first examine whether or not CPOE use improves patient satisfaction. Next, given that CPOEs are implemented in the backdrop of other hospital IT infrastructure, we examine how IT infrastructure impacts the relationship between CPOE use and satisfaction, testing both a complementary and substitution perspective. Finally, we examine the differential impact of CPOE use between academic and nonacademic hospitals. Using data from 806 hospitals throughout the USA, we find a positive relationship between extent of CPOE use and patient satisfaction. Contrary to extant research, our results suggest this relationship is stronger in non-academic hospitals. We also find evidence that a hospital's IT infrastructure substitutes for CPOE use in its effect on patient satisfaction. http://www.sciencedirect.com/science/article/pii/S0272696311000556 Pharmacists' views on integrated electronic prescribing systems: associations between usefulness, pharmacological safety, and barriers to technology use B Rahimi, T Timpka European Journal of Clinical Pharmacology Feb 2011;67(2):179-184 Purpose: Integrated electronic prescribing systems (IEPSs) are expected to improve efficiency and safety in the management of pharmaceuticals throughout the healthcare sector. In Sweden (population 9 million), more than 25 million e-prescriptions each year are processed in the National IEPS. We set out to examine the introduction of an IEPS into pharmacists' practice with regard to impact on work efficiency and pharmacological safety. Methods: A questionnaire was distributed to all pharmacists (n = 74) in a Swedish municipality (population 145,000), where an IEPS had recently been introduced. The response rate was 70%. Results: The IEPS was in general perceived to have expedited the processing of prescriptions and reduced the risk for prescription errors as well as the handing over of erroneous medications to patients. We found that there was a positive correlation between usefulness of the IEPS system for work efficacy and pharmacological safety, respectively (r = 0 .524, p less than 0.001) and a negative correlation between the usefulness of the IEPS for work efficacy and perception of barriers to technology use (r = -0.010, p less than 0.05). We also found that there was a negative correlation between IEPS usefulness for pharmacological safety and that barriers to IEPS technology use were experienced (r = 0.031, p less than 0.05). Conclusions: The results indicate that reduction of system unavailability due to technical issues will increase the perceived usefulness of IEPSs for pharmacists with regard to both work efficacy and pharmacological safety. We conclude that the introduction of an IEPS was well received by pharmacists; however, barriers to full acceptance remained, in particular, system unavailability due to technical problems. http://www.springerlink.com/content/bt43730j4p4h3468/ Setting a standard for electronic prescribing systems J Reeve, M Sweidan 19 Australian Prescriber Feb 2011;34(1):2-4 In Australia, electronic prescribing (e-prescribing) systems in general practice were first developed in the early 1990s by a few innovative GPs who wrote software for their own use. The uptake of e-prescribing systems was accelerated in 1999 because of Commonwealth government incentive payments of Aus$ 10,000 to practices that acquired an e-mail address and used e-prescribing software to write the majority of their prescriptions. Currently more than 90% of general practitioners use one of the 20 or so commercial systems that are available to write prescriptions, order pathology and other tests, record medical progress notes or communicate with other healthcare providers. The National Prescribing Service (NPS) has evaluated 7 commonly used systems against a predefined set of criteria (J Reeve, M Sweidan, unpublished, 2011). It found that features to support safety and quality were highly variable between systems and there were some significant gaps. Clinical decision support features were ranked the most important for safety and quality, but in 5 of the systems fewer than 50% of these features were fully implemented (e.g. there were no alerts for harmful doses or new safety warnings). One of the main reasons for this is the lack of clinical information resources in a format which is suitable for decision support. When systems included decision support, it was often unclear where the information was derived from and whether it was up to date. Another important safety issue identified was that most systems did not clearly differentiate between similar-named medicines during prescribing, increasing the risk of selecting the wrong drug from a list of products. The findings of this evaluation highlight the need for guidance or standards to ensure that essential functionality and safety features are included in all e-prescribing systems. (19 refs.) http://www.australianprescriber.com/upload/pdf/articles/1154.pdf System Design Using a computerized provider order entry system to meet the unique prescribing needs of children: description of an advanced dosing model JM Ferranti, MM Horvath, J Jansen, P Schellenberger, T Brown, CM DeRienzo, A Ahmad BMC Medical Informatics and Decision Making 21 Feb 2011;11:14 Background: It is well known that the information requirements necessary to safely treat children with therapeutic medications cannot be met with the same approaches used in adults. Over a 1-year period, Duke University Hospital (N Carolina, USA) engaged in the challenging task of enhancing an established computerised provider order entry (CPOE) system to address the unique medication dosing needs of pediatric patients. Methods: An advanced dosing model (ADM) was designed to interact with our existing CPOE application to provide decision support enabling complex paediatric dose calculations based on chronological age, gestational age, weight, care area in the hospital, indication, and level of renal impairment. Given that weight is a critical component of medication dosing that may change over time, alerting logic was added to guard against erroneous entry or outdated weight information. Results: Paediatric CPOE was deployed in a staggered fashion across 6 care areas over a 14-month period. Safeguards to prevent miskeyed 20 values became important in allowing providers the flexibility to override the ADM logic if desired. Methods to guard against over- and underdosing were added. The modular nature of our model allows us to easily add new dosing scenarios for specialised populations as the paediatric population and formulary change over time. Conclusions: The medical needs of paediatric patients vary greatly from those of adults, and the information systems that support those needs require tailored approaches to design and implementation. When a single CPOE system is used for both adults and paediatrics, safeguards such as redirection and suppression must be used to protect children from inappropriate adult medication dosing content. Unlike other pediatric dosing systems, our model provides active dosing assistance and dosing process management, not just static dosing advice. http://www.biomedcentral.com/content/pdf/1472-6947-11-14.pdf Improving the utilization of admission order sets in a computerized physician order entry system by integrating modular disease specific order subsets into a general medicine admission order set RL Munasinghe, C Arsene, TK Abraham, M Zidan, M Siddique Journal of the American Medical Informatics Association May 2011;18(3):322326 Case description: We evaluated the effects of integrating order subsets for the most common medical diagnoses into a general medical admission order set of our electronic medical records (EMR) in order to improve order set integration by clinicians. Methods of Implementation: We identified the most common primary and secondary diagnoses for patients admitted to our medical service and developed order subsets comprising only the orders necessary for the management of these individual diagnoses. Using the capabilities of our computerised physician order entry (CPOE), we nested these order subsets into the general order set and evaluated the resulting change in order set utilisation by our clinicians. Example and Observations: The total number of order sets used by clinicians in all departments increased 5-fold during the 16-month period following the implementation of the integrated order sets in Jul 2008. A before and after time series was used to analyse the trend in increased order set usage and showed an effect of the intervention (p = 0.023). Discussion: Integration of disease-specific order subsets into a single general admission order set significantly improved the overall adoption of order sets by clinicians. This provides health care systems with the opportunity to improve patient safety and implement evidence based care in clinical practice. http://jamia.bmj.com/content/18/3/322.abstract Alert Presentation Alternatives to potentially inappropriate medications for use in e-prescribing software: triggers and treatment algorithms AL Hume, BJ Quilliam, R Goldman, C Eaton, KL Lapane BMJ Quality and Safety Oct 2011;20(10):875-884 Objective: To describe the development of evidence-based electronic prescribing (e-prescribing) triggers and treatment algorithms for potentially inappropriate medications (PIMs) for older adults. 21 Design: Literature review, expert panel and focus group. Setting: Primary care with access to e-prescribing systems. Participants: Primary care physicians using e-prescribing systems receiving medication history. Interventions: Standardised treatment algorithms for clinicians attempting to prescribe PIMs for older patients. Main outcome measure: Development of 15 treatment algorithms suggesting alternative therapies. Results: Evidence-based treatment algorithms (implemented in RCopia software, DrFirst, Inc., Rockville, Maryland, USA) were well received by primary care physicians. Providing alternatives to PIMs would make it easier for physicians to change decisions at the point of prescribing. Conclusions: Prospectively identifying older persons receiving PIMs or with adherence issues and providing feasible interventions may prevent adverse drug events. http://qualitysafety.bmj.com/content/20/10/875.abstract Characteristics of clinical decision support alert overrides in an electronic prescribing system at a tertiary care paediatric hospital YH Jani, N Barber, ICK Wong International Journal of Pharmacy Practice Oct 2011;19(5):363–366 Electronic prescribing (EP) systems are advocated as a solution to minimise medication errors. Benefits in patient safety are often as a result of some clinical decision support (CDS) within the system. The aim of the study was to look at the characteristics of the CDS alerts generated within a commercially available EP system in use at a tertiary care paediatric hospital in the UK. It was a retrospective review that looked at characterisation of CDS alerts recorded in the EP system over 1 year. A total of 16,182 conflict alerts were recorded when ordering 26 836 items, of which 3507 (13 alerts per 100 prescription orders (95% CI, 12.8 to 13.6)) were visible to the user. 89% (3119/3507) of all visible alerts were overridden by the user at point of prescribing. Drug-allergy conflict alerts were the most accepted, and exact drug duplication alerts the least. To conclude, a high incidence of alerts were overridden, which is undesirable but consistent with that reported in the literature. The underlying algorithms for alert generation in many EP systems are not specific and need to be reviewed. http://onlinelibrary.wiley.com/doi/10.1111/j.2042-7174.2011.00132.x/abstract Provider and pharmacist responses to warfarin drug-drug interaction alerts: a study of healthcare downstream of CPOE alerts AM Miller, MS Boro, NE Korman, JB Davoren Journal of the American Medical Informatics Association Dec 2011;18(Suppl.):i45-i50 Objective: To categorise the appropriateness of provider and pharmacist responses to warfarin critical drug-drug interaction (cDDI) alerts, assess responses and actions to the cDDI, and determine the occurrence of warfarin adverse drug events (ADE) after alerts. Design: An 18-month, retrospective study of acute care admissions at a single US Veterans Affairs medical centre using computerised provider order entry (CPOE). 22 Measurements: Patients included had at least one warfarin cDDI alert. Chart reviews included baseline laboratory values and demographics, provider actions, patient outcomes, and associated factors, including other interacting medications and number of simultaneously processed alerts. Results: 137 admissions were included (133 unique patients). Amiodarone, vitamin E in a multivitamin, sulfamethoxazole and levothyroxine accounted for 75% of warfarin cDDI. Provider responses were clinically appropriate in 19.7% of admissions and pharmacist responses were appropriate in 9.5% of admissions. There were 50 ADE (36.6% of admissions) with warfarin; 80% were rated as having no or mild clinical effect. An increased number of non-critical alerts at the time of the reference cDDI alert was the only variable associated with an inappropriate provider response (p = 0.01). Limitations: This study was limited by being a retrospective review and the possibility of confounding variables, such as other interacting medications. Conclusions: The large number of CPOE alerts may lead to inappropriate responses by providers and pharmacists. The high rate of ADE suggests a need for improved medication management systems for patients on warfarin. This study highlights the possibility of alert fatigue contributing to the high prevalence of inappropriate alert over-ride text responses. http://jamia.bmj.com/content/18/Suppl_1/i45.full.pdf+html How to improve the delivery of medication alerts within computerized physician order entry systems: an international Delphi study D Riedmann, M Jung, WO Hackl, E Ammenwerth Journal of the American Medical Informatics Association Nov 2011;18(6):760-766 Objectives: To determine what information can be helpful in prioritising and presenting medication alerts according to the context of the clinical situation. To assess the usefulness of different ways of delivering medication alerts to the user. Design: An international Delphi study with two quantitative rounds. 69 researchers with expertise in computerised physician order entry (CPOE) systems were asked to estimate the usefulness of 20 possible context factors, and to assess the potential impact of 6 innovative ways of delivering alert information on adverse drug event (ADE) rates. Results: Participants identified the following top 5 context information items (in descending order of usefulness): (1) severity of the effect of the ADE the alert refers to; (2) clinical status of the patient; (3) probability of occurrence of the ADE the alert refers to; (4) risk factors of the patient; and (5) strength of evidence on which the alert is built. The ways of delivering alert information with the highest estimated ADE reduction potential are active alerting, proactive prescription simulation and a patient medication module that gives patient-oriented alert information. Limitations: Most participants had a research-oriented focus; therefore the results may not reflect the opinions of CPOE users or CPOE implementers. Conclusions: The study results may provide CPOE system developers and healthcare institutions with information on how to design more effective alert mechanisms. http://jamia.bmj.com/content/18/6/760.abstract Impact of implementing alerts about medication black-box warnings in electronic health records DT Yu, DL Seger, KE Lasser, AS Karson, JM Fiskio, AC Seger, DW Bates Pharmacoepidemiology and Drug Safety Feb 2011;20(2):192-202 23 Background: The US Food and Drug Administration issues black-box warnings (BBWs) regarding medications with serious risks, yet physician adherence to the warnings is low. Methods: We evaluated the impact of delivering BBW-based alerts about drug-drug, drug-disease and drug-laboratory interactions for prescription medications in outpatients in an electronic health record with clinical decision support. We compared the frequency of non-adherence to all BBWs about drug-drug, drug-disease and drug-laboratory interactions for 30 drugs/drug classes, and by individual drugs/drug groups with BBWs between the pre- and post-intervention periods. We used multivariate analysis to identify independent risk factors for non-adherence to BBWs. Results: There was a slightly higher frequency of non-adherence to BBWs after the intervention (4.8% vs 5.1%; p = 0.045). In multivariate analyses, after adjustment for patient and provider characteristics and site of care, medications prescribed during the pre-intervention period were less likely to violate BBWs compared to those prescribed during the postintervention period (OR 0.67; 95% CI, 0.47-0.96). However, black-box warning violations did decrease after the intervention for BBWs about drug-drug interactions (6.1% vs 1.8%, p less than 0.0001) and drugpregnancy interactions (5.1% vs 3.6%, p = 0.01). Conclusions: Ambulatory care computerised order entry with prescribing alerts about BBWs did not improve clinicians' overall adherence to BBWs, though it did improve adherence for specific clinically important subcategories. http://onlinelibrary.wiley.com/doi/10.1002/pds.2088/abstract Potential safety gaps in order entry and automated drug alerts: a nationwide survey of VA physician self-reported practices with computerized order entry JR Spina, PA Glassman, B Simon, A Lanto, M Lee, F Cunningham, CB Good Medical Care Oct 2011;49(10):904-910 Objective: Understanding provider perceptions of and experiences with order entry and order checks (drug alerts) in an electronic prescribing system may help improve medication safety technology. Design: Cross-sectional, national survey of US Veterans Administration physicians practising in various specialties. Measurement: A 35-question instrument was divided into 4 content domains. Response options included dichotomous, numerical, multiple choices and Likert-like scales. Statistical methods included logistic regression. Results: The adjusted response rate was 1543 of 3588 (43%). Almost all providers (90%) felt that the VA electronic prescribing system, including its order checks, improved prescribing safety to some degree. Most respondents (72%) reported that they always or almost always document outside medications in a clinic note, although only 44% always or almost always entered outside medications in the non-VA medication data field. Most physicians (88%) who encountered serious allergic or adverse drug reactions reported either notifying a pharmacist or entering the information in the allergies/adverse reactions field. Generalists and physicians with higher numbers of prescriptions were more likely to enter relevant data into the electronic medical record (or notify a pharmacist, in the case of adverse reactions). In addition, 48% of providers described critical drug-drug interaction alerts as very useful; medical specialists found these less useful, whereas surgical specialists found these more useful when compared with generalists. Limitations: The survey was conducted within a single healthcare system. 24 Conclusions: Computerised provider order entry and related order checks are perceived to improve prescribing safety; however, provider entry of some relevant information into the appropriate electronic fields may not be optimal. http://journals.lww.com/lwwmedicalcare/Abstract/2011/10000/Potential_Safety_Gaps_in_Order_Entry_and_A utomated.5.aspx Drug Interaction Processing Critical drug-drug interactions for use in electronic health records systems with computerized physician order entry: review of leading approaches DC Classen, S Phansalkar, DW Bates Journal of Patient Safety Jun 2011;7(2):61-65 Medications represent the most common intervention in health care; despite their benefits, they also lead to an estimated 1.5 million adverse drug events and tens of thousands of hospital admissions each year. Although some are not preventable given what is known today, many types are, and one key cause which is preventable is drug-drug interactions (DDIs). Most electronic health record systems include programs that can check and prevent these types of interactions as a routine part of medication ordering. Studies suggest that these systems as implemented often do not effectively screen for these DDIs. A major reason for this deficiency is the lack of any national standard in the USA for the critical DDIs that should be routinely operationalised in these complex systems. The authors review the leading critical DDI lists from multiple sources including several leading health systems, a leading commercial content provider, the Leapfrog CPOE Testing Standard, and the new Office of the National Coordinator (ONC) DDI List. Implementation of strong DDI checking is one of the important steps in terms of realising the benefits of electronic prescribing with respect to safety. Hopefully, the ONC list will make it easier for organisations to ensure they are including the most important interactions, and the Leapfrog List may help these organisations develop an operational DDI list that can be practically implemented. In addition, this review has identified 7 common DDIs that can be the starting point for all organisations in this area of medication safety. http://journals.lww.com/journalpatientsafety/Abstract/2011/06000/Critical_Drug _Drug_Interactions_for_Use_in.1.aspx Evaluation of medication safety in the discharge medication of 509 surgical inpatients using electronic prescription support software and an extended operational interaction classification T Frolich, O Zorina, AO Fontana, GA Kullak-Ublick, A Vollenweider, S Russmann European Journal of Clinical Pharmacology Dec 2011;67(12):1273-1282 Purpose: Our aim was to study drug interactions and dose adjustments in patients with renal impairment in the discharge medication of surgical inpatients and to evaluate the strengths and limitations of clinical decision support software (CDSS) for this task. Methods: This was a cross-sectional study involving 509 surgical patients of a primary care hospital. We developed a customised interface for the CDSS MediQ, which we used for automated retrospective identification of 25 drug interactions in the patients' discharge medication. The clinical relevance of the interactions was evaluated based on the Zurich Interaction System (ZHIAS) that incorporates the operational classification of drug interactions (ORCA). Prescriptions were further analysed for recommended dose adjustments in patients with a glomerular filtration rate below 60 mL/min. Results: For the total of 2729 prescriptions written for the 509 patients enrolled in the study, MediQ generated 2558 interaction alerts and 1849 comments. Among these were 10 'high danger' and 551 'average danger' alerts that we reclassified according to ORCA criteria. This reclassification resulted in 10 contraindicated combinations, 77 provisionally contraindicated combinations and 310 with a conditional and 164 with a minimal risk of adverse outcomes. The ZHIAS classification also provides categorical information on expected adverse outcomes and management recommendations, which are presented in detail. We identified 56 prescriptions without a recommended dose adjustment for impaired renal function. Conclusions: CDSS identified a large number of drug interactions in surgical discharge medication, but according to ZHIAS criteria only a minor fraction of these appeared to involve a substantial risk to the patient. CDSS should therefore aim at reducing over-alerting and improve usability in order to become more efficacious in terms of the prevention of adverse drug events in clinical practice. http://www.springerlink.com/content/un408r6675038073/ Electronic drug interaction alerts in ambulatory care: the value and acceptance of high-value alerts in US medical practices as assessed by an expert clinical panel SN Weingart, AC Seger, N Feola, et al. Drug Safety Jul 2011;34(7):587-593 Computerised physician order entry systems are known to improve patient safety in acute-care hospitals. However, as clinicians frequently override drug interaction and allergy alerts, their value in ambulatory care remains uncertain. This study examined whether ambulatory care clinicians were more likely to accept drug-drug interaction alerts that an expert panel judged to be of high clinical value and concluded that expert judgement should be taken into account when developing electronic decision support. (14 refs.) http://www.ingentaconnect.com/content/adis/dsf/2011/00000034/00000007/art 00005 Drug interaction alerts in software - what do general practitioners and pharmacists want? KH Yu, M Sweidan, M Williamson, A Fraser Medical Journal of Australia 5-19 Dec 2011;195(11/12):676-680 Objective: To explore Australian general practitioners' and pharmacists' preferences in relation to content, format and usability of drug interaction alerts in prescribing and dispensing software. Design, Participants and Setting: Surveys that sought opinions on drug interaction decision support were mailed to a random sample of GPs and community pharmacists (1000 of each) in Jun 2010. Main Outcome Measures: Usefulness of various components of drug interaction information; preferred format of drug interaction alerts; levels of agreement on the value of various usability features; aspects of drug interaction decision support users would most like to change. 26 Results: Surveys were returned by 219 GPs and 170 pharmacists. Of the 191 GPs and 138 pharmacists included in the analysis, the vast majority considered severity, clinical effects and management advice to be mostly or sometimes useful in drug interaction alerts. The most popular drug interaction alert format - favoured by 131 GPs (69%) and 115 pharmacists (83%) - was one with headings and one or two succinct bullet points under each. The vast majority of respondents also wanted to be able to differentiate drug interaction alerts by severity, and a majority agreed that it should be made more difficult to override alerts for severe interactions and that it should be mandatory to provide a reason for doing so. Conclusions: GPs and pharmacists want drug interaction alert information to be relevant, useful, concise, and easy to read and comprehend. Software vendors and knowledge providers could improve drug interaction decision support by making changes to the content and format of drug interaction alerts according to these recommendations. http://www.mja.com.au/public/issues/195_11_121211/yu10206_fm.html Development and preliminary evidence for the validity of an instrument assessing implementation of human-factors principles in medication-related decision-support systems I-MeDeSA M Zachariah, S Phansalkar, HM Seidling, PM Neri, KM Cresswell, J Duke, M Bloomrosen, LA Volk, DW Bates Journal of the American Medical Informatics Association Dec 2011;18(Suppl.):i62-i72 Background: Medication-related decision support can reduce the frequency of preventable adverse drug events. However, the design of current medication alerts often results in alert fatigue and high over-ride rates, thus reducing any potential benefits. Methods: The authors previously reviewed human-factors principles for relevance to medication-related decision support alerts. In this study, instrument items were developed for assessing the appropriate implementation of these human-factors principles in drug-drug interaction (DDI) alerts. User feedback regarding nine electronic medical records was considered during the development process. Content validity, construct validity through correlation analysis and inter-rater reliability were assessed. Results: The final version of the instrument included 26 items associated with 9 human-factors principles. Content validation on three systems resulted in the addition of one principle (Corrective Actions) to the instrument and the elimination of 8 items. Additionally, the wording of 8 items was altered. Correlation analysis suggests a direct relationship between system age and performance of DDI alerts (p = 0.0016). Interrater reliability indicated substantial agreement between raters (kappa = 0.764). Conclusions: The authors developed and gathered preliminary evidence for the validity of an instrument that measures the appropriate use of humanfactors principles in the design and display of DDI alerts. Designers of DDI alerts may use the instrument to improve usability and increase user acceptance of medication alerts, and organisations selecting an electronic medical record may find the instrument helpful in meeting their clinicians' usability needs. http://jamia.bmj.com/content/18/Suppl_1/i62.abstract 27 Development and validation of a survey instrument for assessing prescribers' perception of computerized drug-drug interaction alerts K Zheng, K Fear, BW Chaffee, CR Zimmerman, et al. Journal of the American Medical Informatics Association Dec 2011;18(Suppl.):i51-i61 Objective: To develop a theoretically informed and empirically validated survey instrument for assessing prescribers' perception of computerised drug–drug interaction (DDI) alerts. Materials and Methods: The survey is grounded in the unified theory of acceptance and use of technology and an adapted accident causation model. Development of the instrument was also informed by a review of the extant literature on prescribers' attitude toward computerized medication safety alerts and common prescriber-provided reasons for overriding. To refine and validate the survey, we conducted a two-stage empirical validation study consisting of a pretest with a panel of domain experts followed by a field test among all eligible prescribers at our institution. Results: The resulting survey instrument contains 28 questionnaire items assessing six theoretical dimensions: performance expectancy, effort expectancy, social influence, facilitating conditions, perceived fatigue and perceived use behaviour. Satisfactory results were obtained from the field validation; however, a few potential issues were also identified. We analysed these issues accordingly and the results led to the final survey instrument as well as usage recommendations. Discussion: High override rates of computerised medication safety alerts have been a prevalent problem. They are usually caused by, or manifested in, issues of poor end user acceptance. However, standardized research tools for assessing and understanding end users' perception are currently lacking, which inhibits knowledge accumulation and consequently forgoes improvement opportunities. The survey instrument presented in this paper may help fill this methodological gap. Conclusions: We developed and empirically validated a survey instrument that may be useful for future research on DDI alerts and other types of computerized medication safety alerts more generally. http://jamia.bmj.com/content/18/Suppl_1/i51.abstract Other Usability Aspects Does user-centred design affect the efficiency, usability and safety of CPOE order sets? J Chan, KG Shojania, AC Easty, EE Etchells Journal of the American Medical Informatics Association May 2011;18(3):276281 Background: Application of user-centred design principles to computerised provider order entry (CPOE) systems may improve task efficiency, usability or safety, but there is limited evaluative research of its impact on CPOE systems. Objective: We evaluated the task efficiency, usability, and safety of three order set formats: our hospital's planned CPOE order sets (CPOE Test), computer order sets based on user-centred design principles (User Centred Design) and existing pre-printed paper order sets (Paper). Participants: 27 staff physicians, residents and medical students. Setting: Sunnybrook Health Sciences Centre, an academic hospital in Toronto, Canada. 28 Methods: Participants completed four simulated order set tasks with three order set formats (two CPOE Test tasks, one User Centred Design, and one Paper). Order of presentation of order set formats and tasks was randomised. Users received individual training for the CPOE Test format only. Main Measures: Completion time (efficiency), requests for assistance (usability) and errors in the submitted orders (safety). Results: 27 study participants completed 108 order sets. Mean task times were: User Centred Design format 273 sec, paper format 293 sec (p = 0.73 compared to UCD format), and CPOE Test format 637 sec (p less than 0.0001 compared to UCD format). Users requested assistance in 31% of the CPOE Test format tasks, whereas no assistance was needed for the other formats (p less than 0.01). There were no significant differences in number of errors between formats. Conclusions: The User Centred Design format was more efficient and usable than the CPOE Test format even though training was provided for the latter. We conclude that application of user-centred design principles can enhance task efficiency and usability, increasing the likelihood of successful implementation http://jamia.bmj.com/content/18/3/276.abstract Usability evaluation of order sets in a computerised provider order entry system J Chan, KG Shojania, AC Easty, EE Etchells BMJ Quality and Safety Nov 2011;20(11):932-940 Background: Computerised provider order entry (CPOE) is an important patient safety intervention that has encountered significant barriers to implementation. The usability of a CPOE system plays a significant role in its acceptance. The authors conducted a heuristic evaluation of a CPOE order set system to uncover existing usability issues prior to implementation. Methods: A heuristic evaluation methodology was used to evaluate the usability of a CPOE test order set system. There are 10 heuristic principles, such as error prevention, to help users identify and recover from errors. Evaluators included a staff physician with extensive clinical experience, and three engineers with expertise in heuristic evaluation methodology. The results of the heuristic evaluation were used to create a user centred design prototype. Results: 92 unique heuristic violations were found for the CPOE test order set system, including 35 identified by the clinician and at least one engineer, and 57 of the 92 violations (62%) found only by the clinician. All evaluators identified at least one violation of each of the 10 usability heuristics in their analysis of the CPOE system. A user centred design prototype was created to demonstrate changes that could improve usability. Interpretation: The CPOE test order set system had many usability heuristic violations. Many violations were found by a clinician with knowledge of the heuristic evaluation process. Implementation of the CPOE system was deferred and a new user centred design prototype was developed for future study. The authors recommend conducting heuristic evaluations early in the process of designing, selecting and implementing CPOE systems. http://qualitysafety.bmj.com/content/20/11/932.abstract Transmitting and processing electronic prescriptions: experiences of physician practices and pharmacies 29 JM Grossman, DA Cross, ER Boukus, GR Cohen Journal of the American Medical Informatics Association 2011; doi:10.1136/amiajnl-2011-000515 (published early online 18 Nov 2011) Objective: A core feature of e-prescribing is the electronic exchange of prescription data between physician practices and pharmacies, which can potentially improve the efficiency of the prescribing process and reduce medication errors. Barriers to implementing this feature exist, but they are not well understood. This study's objectives were to explore recent experiences of physician practices and pharmacies in the USA with electronic transmission of new prescriptions and renewals, and identify facilitators of and barriers to effective electronic transmission and pharmacy e-prescription processing. Design: Qualitative analysis of 114 telephone interviews conducted with representatives from 97 organisations between Feb and Sep 2010, including 24 physician practices, 48 community pharmacies and three mail-order pharmacies actively transmitting or receiving e-prescriptions via Surescripts. Results: Practices and pharmacies generally were satisfied with electronic transmission of new prescriptions but reported that the electronic renewal process was used inconsistently, resulting in inefficient workarounds for both parties. Practice communications with mail-order pharmacies were less likely to be electronic than with community pharmacies because of underlying transmission network and computer system limitations. While e-prescribing reduced manual prescription entry, pharmacy staff frequently had to complete or edit certain fields, particularly drug name and patient instructions. Conclusions: Electronic transmission of new prescriptions has matured. Changes in technical standards and system design and more targeted physician and pharmacy training may be needed to address barriers to erenewals, mail-order pharmacy connectivity, and pharmacy processing of e-prescriptions. http://jamia.bmj.com/content/early/2011/11/17/amiajnl-2011-000515.full Determination of the effectiveness of two methods for usability evaluation using a CPOE medication ordering system R Khajouei, A Hasman, MWM Jaspers International Journal of Medical Informatics May 2011;80(5):341-350 Objectives: To assess the effectiveness of two usability evaluation methods, cognitive walkthrough (CW) and think aloud (TA), for identifying usability problems and to compare the performance of CW and TA in identifying different types of usability problems. Methods: A CW was performed by two usability evaluators and 10 physicians were recruited to perform a TA usability testing of a CPOE system (Medicator). The severity of identified usability problems was determined and the usability problems were categorised based on the User Action Framework (UAF). The potential of usability problems to cause medication errors was also determined. The thoroughness, validity and effectiveness of the two methods were compared. Results: 57 unique usability problems of different severity, spread over the four phases of interaction as defined by the UAF, were identified. The effectiveness of the TA method for identifying usability problems was 0.08 higher than that of the CW (0.70 vs 0.62). The thoroughness (the extent to which a method can identify existing usability problems) of the TA was higher for the 'Planning' and 'Assessment' phases and lower for the 'Translation' phase (as defined by UAF). The thoroughness of TA for 30 identifying problems that may potentially result in medication errors was higher than that of CW (0.81 vs 0.68). The number of usability problems identified by each of the methods was significantly less than the total number of real usability problems detected in Medicator (p less than 0.001). The observed differences between the number of real usability problems identified by CW and TA (38 vs 41), the difference between the average severity of the detected problems by CW and TA (2.37 vs 2.41), and the difference for identifying problems potentially resulting in medication errors (15 vs 18) were not statistically significant (p greater than 0.4). Conclusions: This study shows that although TA showed a slightly better effectiveness, there is no significant difference between the performance of the CW and the TA methods in terms of number of usability problems identified and the mean severity of these problems. Since no single evaluation method will uncover all of the usability problems a combination of methods is advised as the most appropriate approach, especially if usability problems can lead to potentially fatal outcomes. http://www.sciencedirect.com/science/article/pii/S1386505611000505 Clinicians' satisfaction with CPOE ease of use and effect on clinicians' workflow, efficiency and medication safety R Khajouei, PC Wierenga, A Hasman, MWM Jaspers International Journal of Medical Informatics May 2011;80(5):297-309 Objectives: To study the satisfaction of end-users of a computerised physician order entry (CPOE) system concerning ease of use and the effect on users' workflow, efficiency and medication safety and to seek users' opinions regarding required improvements of the system. Usability evaluation had shown that this system, which was in use for almost a decade, contained a number of severe usability problems. So another objective of the study was to determine whether there was a direct relation between user satisfaction and the results of a usability evaluation of the system. Methods: Two survey questionnaires were distributed to CPOE system users (physicians and nurses) working in inpatient departments of a university hospital in the Netherlands. Questionnaires included items that were rated using a 5-point Likert scale. Multiple choice questions with space for free text additions also were used to collect qualitative data concerning the use of the CPOE system and the users' opinion concerning system requirements for improvement. Data were analysed using descriptive statistics and by the use of Mann–Whitney U and Kruskal Wallis tests. Results: 217 physicians and 587 nurses were eligible to participate in this study (response rate 49% and 56% respectively). Physicians were satisfied with the CPOE ease of use (median 3.8, interquartile range (IQR) 3.3-4), and the effect on workflow (median 3.7, IQR 3.3-4), medication safety (median 3.75, IQR 3-4) and efficiency (median 4, IQR 3-4). Nurses also had a positive attitude towards CPOE ease of use (median 3.6, IQR 34) and its effect on workflow (median 3, IQR 3-3.6), medication safety (median 3, IQR 2.5-3.5) and efficiency (median 3.5, IQR 3-4). Users mainly indicated that the system needs: supplementary functionalities (e.g. alerts for allergies), improvement of current functionalities, integration with other hospital information systems and improvement of information presentation (e.g. a clear medication overview). Users did not use some current functionalities because of lack of awareness of the functionalities or having difficulty in using them. 31 Conclusions: Users of this CPOE system, which has been used for almost a decade, were satisfied with the system's ease of use and its effect on efficiency, workflow and medication safety although the system showed many usability problems and lacked some functionalities. In this case study, therefore, there seems no direct relation between the results of the usability evaluation performed earlier and user satisfaction as determined in the current study. http://www.sciencedirect.com/science/article/pii/S1386505611000554 Evaluating the medication process in the context of CPOE use: the significance of working around the system Z Niazkhani, H Pirnejad, H van der Sijs, J Aarts International Journal of Medical Informatics Jul 2011;80(7):490-506 Objective: To evaluate the problems experienced after implementing a computerised physician order entry (CPOE) system, their possible root causes, and the responses of providers in order to incorporate the system into daily workflow. Methods: A qualitative study in the medication-use process after implementation of a CPOE system in an academic hospital in the Netherlands. Data included 21 interviews with clinical end-users, paperbased and system-generated documents used daily in the process, and educational materials used to train users. Findings: The problems in the medication-use process included cognitive overload on physicians and nurses, unmet information needs, miscommunication of orders and ideas, problematic coordination of interrelated tasks between co-working professionals, a potentially faulty administration phase, and suboptimal monitoring of the medication plans. These problems were mainly rooted in the lack of mobile computer devices, the uneasy integration of coexisting electronic and paper-based systems, suboptimal usability of the system, and certain organisational factors with regard to procuring drugs affecting the technology use. Various types of workarounds were used to address the difficulties, including phone calls, taking multiple paper notes, issuing paper-based and verbal orders, double-checking, using other patients' procured drugs or another department's drug supply, and modifying and annotating the printed orders. Conclusions: This study shows how providers are actively involved in working around the interruptions in workflow by bypassing the technology or adapting the work processes. Although certain workarounds help to maintain smooth workflow and/or to ensure patient safety, others may burden providers by necessitating extra time and effort and/or endangering patient safety. It is important that workarounds having a negative nature are recognised and discussed in order to find solutions to mitigate their effects. http://www.sciencedirect.com/science/article/pii/S138650561100075X Implementation ASHP guidelines on pharmacy planning for implementation of computerized provider-order-entry systems in hospitals and health systems 32 ASHP Section of Pharmacy Informatics and Technology American Journal of Health-System Pharmacy 15 Mar 2011;68(6):e9-e31 The purpose of these guidelines is to provide guidance to pharmacists in hospitals and health systems on planning for, implementing and enhancing safe, computerised provider-order-entry (CPOE) systems. To date, most CPOE guidelines have concentrated on the functionality required in a CPOE system, despite the fact that most CPOE system implementations occur using commercial systems whose functionality is largely pre-determined. These guidelines are intended to help pharmacy directors, managers, informaticists and project managers successfully engage in this type of CPOE system implementation. http://www.ajhp.org/content/68/6.toc Meaningful use of electronic prescribing in 5 exemplar primary care practices JC Crosson, RS Etz, S Wu, SG Straus, D Eisenman, DS Bell Annals of Family Medicine Sep-Oct 2011;9(5):392-397 Purpose: Successful use of electronic prescribing (e-prescribing) is a key requirement for demonstrating meaningful use of electronic health records to qualify for Federal incentives in the USA. Currently, many physicians who implement e-prescribing fail to make substantial use of these systems, and little is known about factors contributing to successful eprescribing use. The objective of this study was to identify successful implementation and use techniques. Methods: We conducted a multimethod qualitative case study of 5 ambulatory primary care practices identified as exemplars of effective eprescribing. The practices were identified by a group of e-prescribing experts. Field researchers conducted in-depth interviews and observed prescription-related workflow in these practices. Results: In these exemplar practices, successful use of e-prescribing required practice transformation. Practice members reported extensive efforts to redesign work processes to take advantage of e-prescribing capabilities and to create specific e-prescribing protocols to distribute prescription-related work among practice team members. These practices had substantial resources to support e-prescribing use, including local physician champions, ongoing training for practice members and continuous on-site technical support. Practices faced considerable challenges during use of e-prescribing, however, deriving from problems coordinating new work processes with pharmacies and ineffective health information exchange that required workarounds to ensure the completeness of patient medical records. Conclusions: More widespread implementation and effective use of eprescribing in ambulatory care settings will require practice transformation efforts that focus on work process redesign while being attentive to effects on patient and pharmacy involvement in prescribing. Improved health information exchange is required to realise fully the expected quality, safety and efficiency gains of e-prescribing. http://www.annfammed.org/content/9/5/392.abstract Electrifying prescriptions A Heed, L Campbell Hospital Pharmacy Europe Mar-Apr 2011;(055):14,16 In 2009, Newcastle-upon-Tyne Hospitals NHS Foundation Trust went live with Cerner Millenium, a system which delivers electronic prescribing (EP) and administration on 27 wards with roll-out over 4 months. Some 33 experiences are described. The design was based on Connecting for Health and DM+D guidelines. The most successful order sets developed were for post-operative analgesia which were developed with a team of anaesthetists, emphasising the need for end-users to be involved in the design of the system. http://www.hospitalpharmacyeurope.com/default.asp General/Miscellaneous The future of electronic prescribing J Aarts Studies in Health Technology and Informatics 2011;166:13-17 Implementing electronic prescribing in health care has been a slow process. Health authorities are now requiring mandatory electronic prescribing because of patient safety concerns. Electronic prescribing is not yet a mature technology, and may therefore pose a risk, especially if organisational conditions are not taken into account. This paper offers some thoughts on the future of electronic prescribing in practice. It is especially important to extend electronic prescribing to the continuum of care in order avoid medication safety falling between the cracks of fragmented health care organisations. http://www.booksonline.iospress.nl/Content/View.aspx?piid=19700 An assessment of Health Care Information and Management Systems Society and Leapfrog data on computerized provider order entry ML Diana, A Swanson Kazley, N Menachemi Health Services Research Oct 2011;46(5):1575-1591 Objective: To assess the internal consistency and agreement between the (US) Health Care Information and Management Systems Society (HIMSS) and the Leapfrog computerized provider order entry (CPOE) data. Data Sources: Secondary hospital data collected by HIMSS Analytics, the Leapfrog Group and the American Hospital Association from 2005 to 2007. Study Design: Dichotomous measures of full CPOE status were created for the HIMSS and Leapfrog datasets in each year. We assessed internal consistency by calculating the percentage of full adopters in a given year that report full CPOE status in subsequent years. We assessed the level of agreement between the two datasets by calculating the kappa statistic and McNemar's test. We examined responsiveness by assessing the change in full CPOE status rates, over time, reported by HIMSS and Leapfrog data, respectively. Principal Findings. Findings indicate minimal agreement between the two datasets regarding positive hospital CPOE status, but adequate agreement within a given dataset from year to year. Relative to each other, the HIMSS data tend to overestimate increases in full CPOE status over time, while the Leapfrog data may underestimate year over year increases in national CPOE status. Conclusions: Both Leapfrog and HIMSS data have strengths and weaknesses. Those interested in studying outcomes associated with CPOE use or adoption should be aware of the strengths and limitations of the Leapfrog and HIMSS datasets. Future development of a standard definition of CPOE status in hospitals will allow for a more comprehensive validation of these data. http://onlinelibrary.wiley.com/doi/10.1111/j.1475-6773.2011.01259.x/abstract 34 Ohio physicians' intent to adopt electronic prescribing SL Pinto, NS Weber Journal of Pharmacy Technology Jul-Aug 2011;27(4):168-174 Background: Currently in health care, communication between prescribers and pharmacists routinely entails paper and a telephone. Many professional associations have strongly advocated the adoption of electronic prescribing (e-prescribing) in physicians' clinical practices to decrease medication errors and adverse drug events. However, very few physicians have adopted this technology in the USA. Objective: To determine the relationship between Ohio (USA) physicians' demographics and their intention to adopt e-prescribing; assess the relationships between attitudes, subjective norms and perceived behavioural control as applied to physicians' intention to adopt eprescribing; and identify factors that can predict physicians’ intention toward the adoption of e-prescribing. Methods: In this exploratory cross-sectional study, we used a selfadministered survey. The survey was developed based on the constructs of the Theory of Planned Behavior. It was mailed to 1500 physicians currently practising in Ohio. Demographic information about the respondents was collected. Pearson correlation was used to assess the relationship between demographics and intention to adopt e-prescribing. Multiple regression analysis was used to identify the factors predicting intention. Results: The overall survey response rate was 15.33% (N = 230). A significant weak negative correlation was found between physicians' ages (r = -0.180; p = 0.007) and their intention to adopt electronic prescribing. A statistically significant negative correlation was also found between practice type (r = –0.196; p = 0.003) and the intention to adopt electronic prescribing. Attitude was the strongest predictor of intention to adopt e-prescribing (beta = 0.539; p = 0.000). Conclusions: Physicians with more positive attitudes, positive subjective norms, and positive perceived behavioural control have a stronger intention to adopt e-prescribing. http://www.jpharmtechnol.com/abstracts/volume27/July-Aug/vol27-num4pg168.php Electronic information and clinical decision support for prescribing: state of play in Australian general practice J Robertson, AJ Moxey, DA Newby, MB Gillies, M Williamson, S-A Pearson Family Practice Feb 2011;28(1):93-101 Background: Investments in e-health worldwide have been mirrored in Australia, with more than 90% of general practices computerised. Recent e-health incentives promote the use of up to date electronic information sources relevant to general practice with flexibility in mode of access. Objective: To determine Australian GPs' access to and use of electronic information sources and computerised clinical decision support systems (CDSSs) for prescribing. Methods: Semi-structured interviews were conducted with 18 experienced GPs and 9 GP trainees in New South Wales, Australia in 2008. A thematic analysis of interview transcripts was undertaken. Results: Information needs varied with clinical experience, and people resources (specialists, GP peers and supervisors for trainees) were often preferred over written formats. Experienced GPs used a small number of electronic resources and accessed them infrequently. Familiarity from training and early clinical practice and easy access were dominant 35 influences on resource use. Practice time constraints meant relevant information needed to be readily accessible during consultations, requiring integration or direct access from prescribing software. Quality of electronic resource content was assumed and cost a barrier for some GPs. Conclusions: The current Australian practice incentives do not prescribe which information resources GPs should use. Without integration into practice computing systems, uptake and routine use seem unlikely. CDSS developments must recognise the time pressures of practice, preference for integration and cost concerns. Minimum standards are required to ensure that high-quality information resources are integrated and regularly updated. Without standards, the anticipated benefits of computerisation on patient safety and health outcomes will be uncertain. http://fampra.oxfordjournals.org/content/28/1/93.full.pdf+html Results of the Arizona Medicaid health information technology pharmacy focus groups TL Warholak, A Murcko, M McKee, T Urbine Research in Social and Administrative Pharmacy Dec 2011;7(4):438-443 Background: In 2007, a US Federal Medicaid Transformation Grant was awarded to design, develop and deploy a statewide Health Information Exchange and Electronic Health Record in Arizona, United States. Objective: To explore the health information technology needs, knowledge and expectations of Arizona's health care professionals, moderated focus groups were conducted. This article describes the results of the pharmacist focus groups. Methods: Focus group activities included a brief presentation, completion of a paper-based survey and group discussion. The methods included solicitation by invitation, participant selection, meeting content, collaterals, focus group execution, recording, analysis and discerning comparability among groups. Results: Pharmacy focus group discussions centred on electronic prescribing, including the anticipated advantages: reducing handwriting interpretation errors, improving formulary compliance, improving communication with prescribers, increasing efficiency, and ensuring data accuracy. Disadvantages included: medication errors, inadequate training and knowledge of software applications, and inflated patient expectations. Conclusions: Pharmacists ranked e-prescribing as the highest priority feature of an electronic health system. http://www.sciencedirect.com/science/article/pii/S1551741110001026 Value of e-prescribing questioned PC Webster Canadian Medical Association Journal 4 Oct 2011;183(14):1575-1577 News feature outlining progress with electronic transfer of prescriptions in Canada. Canada Health Infoway, the federally-funded not-for-profit organisation responsible for developing electronic health records, is now urging more rapid progress toward e-prescribing. However, while several provinces have built centralised drug information systems that theoretically allow e-prescribing, there are few doctors in Canada who are electronically transmitting prescriptions to pharmacies. Meanwhile, some Canadian researchers are sceptical that e-prescribing will achieve the hoped-for benefits in terms of faster filling of prescriptions and fewer medication errors. http://www.cmaj.ca/content/183/14/1575.full.pdf+html 36
