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Search All Research Studies
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- Adverse Events (1)
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AHRQ Research Studies
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Research Studies is a compilation of published research articles funded by AHRQ or authored by AHRQ researchers.
Results
1 to 9 of 9 Research Studies DisplayedKang D, Charlton P, Applebury DE
Utilizing eye tracking to assess electronic health record use by pharmacists in the intensive care unit.
The authors conducted a study using high-fidelity electronic health record (EHR)-based simulations with incorporated eye tracking to understand the workflow of critical care pharmacists within the EHR, with specific attention to the data elements most frequently viewed. They found that, in addition to medication information, laboratory data and clinical notes are key focuses of intensive care unit pharmacist review of patient records and that navigation to multiple screens is required in order to view these data with the EHR.
AHRQ-funded; HS023793.
Citation: Kang D, Charlton P, Applebury DE .
Utilizing eye tracking to assess electronic health record use by pharmacists in the intensive care unit.
Am J Health Syst Pharm 2022 Nov 7;79(22):2018-25. doi: 10.1093/ajhp/zxac158..
Keywords: Electronic Health Records (EHRs), Health Information Technology (HIT), Intensive Care Unit (ICU), Critical Care, Provider: Pharmacist
Shafer GJ, Singh H, Thomas EJ
Frequency of diagnostic errors in the neonatal intensive care unit: a retrospective cohort study.
The objective of this study was to determine the frequency and etiology of diagnostic errors during the first 7 days of admission for inborn neonatal intensive care unit (NICU) patients. The "Safer Dx NICU Instrument" was used to review electronic health records. The reviewers discovered that the frequency of diagnostic error in inborn NICU patients during the first 7 days of admission was 6.2%.
AHRQ-funded; HS027363.
Citation: Shafer GJ, Singh H, Thomas EJ .
Frequency of diagnostic errors in the neonatal intensive care unit: a retrospective cohort study.
J Perinatol 2022 Oct;42(10):1312-18. doi: 10.1038/s41372-022-01359-9..
Keywords: Newborns/Infants, Intensive Care Unit (ICU), Critical Care, Diagnostic Safety and Quality, Medical Errors, Adverse Events, Patient Safety, Electronic Health Records (EHRs), Health Information Technology (HIT)
Applebury DE, Robinson EJ, Gold JA
Pilot testing of simulation in the evaluation of a novel, rapidly deployable electronic health record for use in disaster intensive care.
This purpose of this study was to present the application of simulation to assess a quickly scalable hub-and-spoke model for Electronic Health Record (EHR) system deployment and monitoring, utilizing asynchronous training. The researchers modified existing commercial EHR products to function as the entry point from a simulated hospital and a separate system for tele-ICU support and data monitoring. A modular video-based curriculum was developed for asynchronous training of users. The curriculum's effectiveness was evaluated through the completion of standard ICU documentation tasks in a high-fidelity simulation. Additional endpoints included EHR navigation assessment, user satisfaction (Net Promoter), system usability (System Usability Scale-SUS), and cognitive load (NASA-TLX). The study found that 5 participants achieved a 100% task completion rate in all domains, except for ventilator data (91%). The systems demonstrated high satisfaction, satisfactory usability, and acceptable cognitive load, with higher cognitive loads correlating to the number of screens used.
AHRQ-funded; HS023793.
Citation: Applebury DE, Robinson EJ, Gold JA .
Pilot testing of simulation in the evaluation of a novel, rapidly deployable electronic health record for use in disaster intensive care.
Disaster Med Public Health Prep 2021 Oct 22; 17:e51. doi: 10.1017/dmp.2021.302..
Keywords: COVID-19, Emergency Preparedness, Electronic Health Records (EHRs), Health Information Technology (HIT), Public Health, Intensive Care Unit (ICU), Critical Care
Carayon P, Wetterneck TB, Cartmill R
Medication safety in two intensive care units of a community teaching hospital after electronic health record implementation: sociotechnical and human factors engineering considerations.
This study examined the impact of electronic health record (EHR) implementation in two intensive care units (ICUs). The authors assessed 1254 consecutive admissions before and after an EHR implementation. They identified 4063 medication-related events either pre-implementation (2074 events) or post-implementation (1989 events). The overall potential for harm due to medication errors decreased post-implementation, but only 2 of the 3 error rates were significantly lower post-implementation. They observed reductions in rates of medication errors per admission at the stages of transcription, dispensing, and administration. In the ordering stage, 4 error types decreased post-implementation (orders with omitted information, error-prone abbreviations, illegible orders, failure to renew orders) and 4 error types increased post-implementation (orders of wrong drug, orders containing a wrong start or stop time, duplicate orders, orders with inappropriate or wrong information).
AHRQ-funded; HS015274; HS000083.
Citation: Carayon P, Wetterneck TB, Cartmill R .
Medication safety in two intensive care units of a community teaching hospital after electronic health record implementation: sociotechnical and human factors engineering considerations.
J Patient Saf 2021 Aug 1;17(5):e429-e39. doi: 10.1097/pts.0000000000000358.
AHRQ-funded; HS015274; HS000083..
AHRQ-funded; HS015274; HS000083..
Keywords: Medication: Safety, Medication, Intensive Care Unit (ICU), Critical Care, Patient Safety, Electronic Health Records (EHRs), Health Information Technology (HIT)
Kruser JM, Benjamin BT, Gordon EJ
Patient and family engagement during treatment decisions in an ICU: a discourse analysis of the electronic health record.
This study looked at patient and family engagement during treatment decisions with patients in a medical ICU. A total of 52 patients were included who had been admitted to a hospital ICU during 2016. Half of them met a consensus definition of chronic critical illness, and the other half either died or had transitioned to hospice care in the ICU. Clinical electronic health records (EHRs) were used to document decision points. The phrase “goals of care” was frequently found in the HER and was used to indicate poor prognosis.
AHRQ-funded; HS000078.
Citation: Kruser JM, Benjamin BT, Gordon EJ .
Patient and family engagement during treatment decisions in an ICU: a discourse analysis of the electronic health record.
Crit Care Med 2019 Jun;47(6):784-91. doi: 10.1097/ccm.0000000000003711..
Keywords: Critical Care, Decision Making, Electronic Health Records (EHRs), Health Information Technology (HIT), Intensive Care Unit (ICU), Patient and Family Engagement
Bond WF, Barker LT, Cooley KL
A simple low-cost method to integrate telehealth interprofessional team members during in situ simulation.
This article describes the integration of remote telehealth electronic intensive care unit (eICU) personnel into in situ simulations with rural emergency department (ED) care teams and the technical challenges of creating shared awareness of the patient's condition and the care team's progress among the care team, the eICU, and those running the simulation. The purpose of the simulations was to introduce telehealth technology and new processes of engaging the eICU via telehealth during sepsis care in rural EDs; development of the scenarios included experts in sepsis, telehealth, and emergency medicine. A shared in situ simulation clinical actions observational checklist was created using an off-the-shelf survey software program. The checklist was completed during the simulations by an onsite observer, and shared with the eICU team via teleconferencing software to and cue eICU nurse engagement. Staff from the two EDs were engaged and an eICU nurse participated in debriefing via the telehealth video system.
AHRQ-funded; HS024027.
Citation: Bond WF, Barker LT, Cooley KL .
A simple low-cost method to integrate telehealth interprofessional team members during in situ simulation.
Simul Healthc 2019 Apr;14(2):129-36. doi: 10.1097/sih.0000000000000357..
Keywords: Critical Care, Electronic Health Records (EHRs), Emergency Department, Health Information Technology (HIT), Rural Health, Simulation, Teams, Telehealth
Grossman LV, Choi SW, Collins S
Implementation of acute care patient portals: recommendations on utility and use from six early adopters.
This paper provides recommendations on how to most effectively implement advanced features of acute care patient portals, including: (1) patient-provider communication, (2) care plan information, (3) clinical data viewing, (4) patient education, (5) patient safety, (6) caregiver access, and (7) hospital amenities. One specific recommendation was that stakeholders in acute care patient portals should consider the benefits and challenges of generic and structured electronic care team messaging.
AHRQ-funded; HS021816; HS023613; HS023535; HS024349.
Citation: Grossman LV, Choi SW, Collins S .
Implementation of acute care patient portals: recommendations on utility and use from six early adopters.
J Am Med Inform Assoc 2018 Apr;25(4):370-79. doi: 10.1093/jamia/ocx074.
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Keywords: Critical Care, Electronic Health Records (EHRs), Patient Safety, Clinician-Patient Communication, Web-Based
Sakata KK, Stephenson LS, Mulanax A
Professional and interprofessional differences in electronic health records use and recognition of safety issues in critically ill patients.
The authors conducted this study to determine how each professional group - physicians, nurses, and pharmacists - reviews electronic health records (EHR) data in preparation for rounds and their ability to identify patient safety issues. They found significant and non-overlapping differences in individual profession recognition of patient safety issues in the EHR which may be attributed to differences in EHR use.
AHRQ-funded; HS023793; HS021637.
Citation: Sakata KK, Stephenson LS, Mulanax A .
Professional and interprofessional differences in electronic health records use and recognition of safety issues in critically ill patients.
J Interprof Care 2016 Sep;30(5):636-42. doi: 10.1080/13561820.2016.1193479.
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Keywords: Critical Care, Electronic Health Records (EHRs), Provider: Health Personnel, Intensive Care Unit (ICU), Patient Safety
Harrison AM, Thongprayoon C, Kashyap R
Developing the surveillance algorithm for detection of failure to recognize and treat severe sepsis.
The objective of this study was to advance, test, and refine a detection and alert system (“sniffer”) for delays in recognition and treatment of severe sepsis that could be used in the critical care setting. They found that a sepsis sniffer (essentially an automated surveillance algorithm) was able to correctly identify delay in recognition and treatment of severe sepsis.
AHRQ-funded; HS022799.
Citation: Harrison AM, Thongprayoon C, Kashyap R .
Developing the surveillance algorithm for detection of failure to recognize and treat severe sepsis.
Mayo Clin Proc 2015 Feb;90(2):166-75. doi: 10.1016/j.mayocp.2014.11.014..
Keywords: Patient Safety, Electronic Health Records (EHRs), Critical Care, Health Information Technology (HIT)