An Evaluation of the Impact of Barcode Patient and Medication Scanning on Nursing Workflow at a UK Teaching Hospital

Barriers and enablers for safe medication administration in adult and neonatal intensive care units mapped to the behaviour change wheel

BACKGROUND

Intensive care settings have high rates of medication administration errors. Medications are often administered by nurses and midwives using a specified process (the '5 rights'). Understanding where medication errors occur, the contributing factors and how best practice is delivered may assist in developing interventions to improve medication safety.

AIMS

To identify medication administration errors and context specific barriers and enablers for best practice in an adult and a neonatal intensive care unit. Secondary aims were to identify intervention functions (through the Behaviour Change Wheel).

STUDY DESIGN

A dual methods exploratory descriptive study was conducted (May to June 2021) in a mixed 56-bedded adult intensive care unit and a 6-bedded neonatal intensive care unit in Sydney, Australia. Incident monitoring data were examined. Direct semi-covert observational medication administration audits using the 5 rights (n = 39) were conducted. Brief interviews with patients, parents and nurses were conducted. Data were mapped to the Behaviour Change Wheel.

RESULTS

No medication administration incidents were recorded. Audits (n = 3) for the neonatal intensive care unit revealed no areas for improvement. Adult intensive care unit nurses (n = 36) performed checks for the right medication 35 times (97%) and patient identity 25 times (69%). Sixteen administrations (44%) were interrupted. Four themes were synthesized from the interview data: Trust in the nursing profession; Availability of policies and procedures; Adherence to the '5 rights' and departmental culture; and Adequate staffing. The interventional functions most likely to bring about behaviour change were environmental restructuring, enablement, restrictions, education, persuasion and modelling.

CONCLUSIONS

This study reveals insights about the medication administration practices of nurses in intensive care. Although there were areas for improvement there was widespread awareness among nurses regarding their responsibilities to safely administer medications. Interview data indicated high levels of trust among patients and parents in the nurses.

RELEVANCE TO CLINICAL PRACTICE

This novel study indicated that nurses in intensive care are aware of their responsibilities to safely administer medications. Mapping of contextual data to the Behaviour Change Wheel resulted in the identification of Intervention functions most likely to change medication administration practices in the adult intensive care setting that is environmental restructuring, enablement, restrictions, education, persuasion and modelling.

Characterization of Safety Events Involving Technology in Primary and Community Care

BACKGROUND

The adoption of technology in health care settings is often touted as an opportunity to improve patient safety. While some adverse events can be reduced by health information technologies, technology has also been implicated in or attributed to safety events. To date, most studies on this topic have focused on acute care settings.

OBJECTIVES

To describe voluntarily reported safety events that involved health information technology in community and primary care settings in a large Canadian health care organization.

METHODS

Two years of safety events involving health information technology (2016-2018) were extracted from an online voluntary safety event reporting system. Events from primary and community care settings were categorized according to clinical setting, type of event, and level of harm. The Sittig and Singh sociotechnical system model was then used to identify the most prominent sociotechnical dimensions of each event.

RESULTS

Of 104 reported events, most (n = 85, 82%) indicated the event resulted in no harm. Public health had the highest number of reports (n = 45, 43%), whereas home health had the fewest (n = 7, 7%). Of the 182 sociotechnical concepts identified, many events (n = 61, 59%) mapped to more than one dimension. Personnel (n = 48, 46%), Workflow and Communication (n = 37, 36%), and Content (n = 30, 29%) were the most common. Personnel and Content together was the most common combination of dimensions.

CONCLUSION

Most reported events featured both technical and social dimensions, suggesting that the nature of these events is multifaceted. Leveraging existing safety event reporting systems to screen for safety events involving health information technology, and applying a sociotechnical analytic framework can aid health organizations in identifying, responding to, and learning from reported events.

A computer architecture based on disruptive information technologies for drug management in hospitals

The drug management currently carried out in hospitals is inadequate due to several factors, such as processes carried out manually, the lack of visibility of the hospital supply chain, the lack of standardized identification of medicines, inefficient stock management, an inability to follow the traceability of medicines, and poor data exploitation. Disruptive information technologies could be used to develop and implement a drug management system in hospitals that is innovative in all its phases and allows these problems to be overcome. However, there are no examples in the literature that show how these technologies can be used and combined for efficient drug management in hospitals. To help solve this research gap in the literature, this article proposes a computer architecture for the whole drug management process in hospitals that uses and combines different disruptive computer technologies such as blockchain, radio frequency identification (RFID), quick response code (QR), Internet of Things (IoT), artificial intelligence and big data, for data capture, data storage and data exploitation throughout the whole drug management process, from the moment the drug enters the hospital until it is dispensed and eliminated.

A Novel Use of Bar Code Medication Administration Data to Assess Nurse Staffing and Workload

OBJECTIVE

The aim of the study is to introduce an innovative use of bar code medication administration (BCMA) data, medication pass analysis, that allows for the examination of nurse staffing and workload using data generated during regular nursing workflow.

METHODS

Using 1 year (October 1, 2014-September 30, 2015) of BCMA data for 11 acute care units in one Veterans Affairs Medical Center, we determined the peak time for scheduled medications and included medications scheduled for and administered within 2 hours of that time in analyses. We established for each staff member their daily peak-time medication pass characteristics (number of patients, number of peak-time scheduled medications, duration, start time), generated unit-level descriptive statistics, examined staffing trends, and estimated linear mixed-effects models of duration and start time.

RESULTS

As the most frequent (39.7%) scheduled medication time, 9:00 was the peak-time medication pass; 98.3% of patients (87.3% of patient-days) had a 9:00 medication. Use of nursing roles and number of patients per staff varied across units and over time. Number of patients, number of medications, and unit-level factors explained significant variability in registered nurse (RN) medication pass duration (conditional R2  = 0.237; marginal R2  = 0.199; intraclass correlation = 0.05). On average, an RN and a licensed practical nurse (LPN) with four patients, each with six medications, would be expected to take 70 and 74 minutes, respectively, to complete the medication pass. On a unit with median 10 patients per LPN, the median duration (127 minutes) represents untimely medication administration on more than half of staff days. With each additional patient assigned to a nurse, average start time was earlier by 4.2 minutes for RNs and 1.4 minutes for LPNs.

CONCLUSION

Medication pass analysis of BCMA data can provide health systems a means for assessing variations in staffing, workload, and nursing practice using data generated during routine patient care activities.

Barcode medication administration technology use in hospital practice: a mixed-methods observational study of policy deviations

Introduction

Barcode medication administration (BCMA) can, if poorly implemented, cause disrupted workflow, increased workload and cause medication errors. Further exploration is needed of the causes of BCMA policy deviations.

Objective

To gain an insight into nurses’ use of barcode technology during medication dispensing and administration; to record the number and type of BCMA policy deviations, and to investigate their causes.

Methods

We conducted a prospective, mixed-methods study. Medication administration rounds on two hospital wards were observed using a digital tool and field notes. The SEIPS (Systems Engineering Initiative for Patient Safety) model was used to analyse the data.

Results

We observed 44 nurses administering 884 medications to 213 patients. We identified BCMA policy deviations for more than half of the observations; these related to the level of tasks, organisation, technology, environment and nurses. Task-related policy deviations occurred with 140 patients (66%) during dispensing and 152 patients (71%) during administration. Organisational deviations included failure to scan 29% of medications and 20% of patient’s wristbands. Policy deviations also arose due to technological factors (eg, low laptop battery, system freezing), as well as environmental factors (eg, medication room location, patient drawer size). Most deviations were caused by policies that interfere with proper and safe BCMA use and suboptimal technology design.

Conclusion

Our findings indicate that adaptations of the work system are needed, particularly in relation to policies and technology, to optimise the use of BCMA by nurses during medication dispensing and administration. These adaptations should lead to enhanced patient safety, as the absolute goal with BCMA implementation.

Interdisciplinary systematic review: does alignment between system and design shape adoption and use of barcode medication administration technology?

BACKGROUND

In order to reduce safety risks associated with medication administrations, technologies such as barcode medication administration (BCMA) are increasingly used. Examining how human factors influence adoption and usability of this technology can potentially highlight areas for improvement in design and implementation.

OBJECTIVE

To describe how human factors related determinants for BCMA have been researched and reported by healthcare and human-computer interaction disciplines.

DATA SOURCES

The Cumulative Index of Nursing, and Allied Health Literature, PubMed, OVID MEDLINE and Google Scholar.

STUDY ELIGIBILITY CRITERIA

Primary research published from April 2000 to April 2020, search terms developed to identity different disciplinary research perspectives that examined BCMA use, used a human factors lens and were published in English.

SYNTHESIS METHODS

Computerised systematic searches were conducted in four databases. Eligible papers were systematically analysed for themes. Themes were discussed with a second reviewer and supervisors to ensure they were representative of content.

RESULTS

Of 3707 papers screened, 11 were included. Studies did not fit neatly into a clinical or human-computer interaction perspective but instead uncovered a range of overlapping narratives, demonstrating consensus on the key themes despite differing research approaches. Prevalent themes were misaligned design and workflow, adaptation and workarounds, mediating factors, safety, users' perceptions and design and usability. Inadequate design frequently led to workarounds, which jeopardised safety. Reported mediating factors included clarity of user needs, pre/post implementation evaluations, analysis of existing workarounds and appropriate technology, infrastructure and staffing.

LIMITATIONS

Most studies were relatively small and qualitative, making it difficult to generalise findings.

CONCLUSION

Evaluating interdisciplinary perspectives including human factors approaches identified similar and complementary enablers and barriers to successful technology use. Often, mediating factors were developed to compensate for unsuitable design; a collaborative approach between system designer and end users is necessary for BCMA to achieve its true safety potential.