National Healthcare Quality and Disparities Report
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Search All Research Studies
Topics
- Access to Care (1)
- Cardiovascular Conditions (2)
- Children/Adolescents (3)
- Comparative Effectiveness (2)
- (-) Critical Care (8)
- Electronic Health Records (EHRs) (1)
- Emergency Department (2)
- Health Information Technology (HIT) (3)
- Health Services Research (HSR) (1)
- Heart Disease and Health (1)
- Intensive Care Unit (ICU) (3)
- Outcomes (1)
- Patient-Centered Outcomes Research (1)
- Patient Safety (1)
- Quality of Care (2)
- Rural Health (1)
- Simulation (1)
- Stroke (1)
- Teams (1)
- (-) Telehealth (8)
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 8 of 8 Research Studies DisplayedOfoma UR, Drewry AM, Maddox TM
Outcomes of in-hospital cardiac arrest among hospitals with and without telemedicine critical care.
This study compared survival rates for inpatients who suffered in-hospital cardiac arrest (IHCA) who had access to Telemedicine Critical Care (TCC) during nights and weekends (off-hours) compared to those who did not. The authors identified 44,585 adults at 280 U.S. hospitals in the Get With The Guidelines® - Resuscitation registry who suffered IHCA in an Intensive Care Unit (ICU) or hospital ward between July 2017 and December 2019. The majority (60.6%) of IHCAs occurred in an ICU, and 32.2% participants suffered IHCA at hospitals with TCC. No difference was found in acute resuscitation survival rates or survival to discharge rates for either IHCA between TCC and non-TCC hospitals. Timing of cardiac arrest did not modify the association between TCC availability and acute resuscitation survival or survival to discharge.
AHRQ-funded; HS019455.
Citation: Ofoma UR, Drewry AM, Maddox TM .
Outcomes of in-hospital cardiac arrest among hospitals with and without telemedicine critical care.
Resuscitation 2022 Aug;177:7-15. doi: 10.1016/j.resuscitation.2022.06.008..
Keywords: Heart Disease and Health, Cardiovascular Conditions, Telehealth, Health Information Technology (HIT), Outcomes, Critical Care, Intensive Care Unit (ICU)
KS Cash, RE Adeoye, O
AHRQ Author: Zachrison
Estimated population access to acute stroke and telestroke centers in the US, 2019.
In order to provide an update on population-level access to stroke care, the investigators estimated the proportion of the US population with access to an ED with acute stroke capabilities and assessed the specific contribution of telestroke services to US population access. They observed a substantial increase in population access to acute stroke care in this cross-sectional study relative to previous reports using alternative methods, likely due to the extensive and ongoing work to improve stroke systems of care, including greater stroke center accreditation and expansion of telestroke capacity.
AHRQ-funded; HS024561.
Citation: KS Cash, RE Adeoye, O .
Estimated population access to acute stroke and telestroke centers in the US, 2019.
JAMA Netw Open 2022 Feb;5(2):e2145824. doi: 10.1001/jamanetworkopen.2021.45824..
Keywords: Telehealth, Health Information Technology (HIT), Stroke, Cardiovascular Conditions, Critical Care, Access to Care
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
McConnochie KM, Wood NE, Alarie C
Care offered by an information-rich pediatric acute illness connected care model.
The authors described care provided over a 12-year period by Health-e-Access, an evidence-based, information-rich, connected care model designed to serve children with acute illness. They demonstrated the broad clinical capacity of this care model and key components imparting this capacity. They concluded that Health-e-Access included technology essential for establishing diagnoses, ruling out more serious conditions, and identifying problems beyond its scope.
AHRQ-funded; HS018912; HS016871; HS015165.
Citation: McConnochie KM, Wood NE, Alarie C .
Care offered by an information-rich pediatric acute illness connected care model.
Telemed J E Health 2016 Jun;22(6):465-72. doi: 10.1089/tmj.2015.0161.
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Keywords: Critical Care, Children/Adolescents, Health Services Research (HSR), Children/Adolescents, Telehealth
Hernandez M, Hojman N, Sadorra C
Pediatric critical care telemedicine program: a single institution review.
The researchers conducted a retrospective review of a pediatric critical care telemedicine program at a single university children's hospital between 2000 and 2014. They concluded that their review demonstrated that a pediatric critical care telemedicine program used to provide consultations to seriously ill children in rural and community emergency departments is feasible, sustainable, and used relatively infrequently, most typically for the sickest pediatric patients.
AHRQ-funded; HS019712.
Citation: Hernandez M, Hojman N, Sadorra C .
Pediatric critical care telemedicine program: a single institution review.
Telemed J E Health 2016 Jan;22(1):51-5. doi: 10.1089/tmj.2015.0043.
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Keywords: Children/Adolescents, Critical Care, Emergency Department, Telehealth
McConnochie KM, Ronis SD, Wood NE
Effectiveness and safety of acute care telemedicine for children with regular and special healthcare needs.
The authors assessed the hypothesis that effectiveness and safety of the Health-e-Access telemedicine model for care of children with special healthcare needs (CSHCN) with acute illness equaled those for care of children in regular childcare and schools (CRS). They concluded that observations support safety and effectiveness of Health-e-Access telemedicine for both CSHCN and CRS.
AHRQ-funded; HS016871; HS015165; HS018912.
Citation: McConnochie KM, Ronis SD, Wood NE .
Effectiveness and safety of acute care telemedicine for children with regular and special healthcare needs.
Telemed J E Health 2015 Aug;21(8):611-21. doi: 10.1089/tmj.2014.0175.
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Keywords: Critical Care, Children/Adolescents, Patient Safety, Patient-Centered Outcomes Research, Telehealth
Ramnath VR, Khazeni N
Centralized monitoring and virtual consultant models of tele-ICU care: a side-by-side review.
This side-by-side review directly compares the Centralized Monitoring and Virtual Consultant tele-ICU Models. The Centralized Monitoring tele-ICU Model showed improved mortality and/or length of stay and staff acceptance, particularly in rural or specific patient populations, but with high costs and unclear savings. The Virtual Consultant Model could not be adequately evaluated for effects on clinical outcomes or staff acceptance given minimal data; however, it can be both portable and implemented at a lower cost profile. Improved compliance with clinical practice guidelines was seen in both models. Further study is recommended.
AHRQ-funded; HS019816.
Citation: Ramnath VR, Khazeni N .
Centralized monitoring and virtual consultant models of tele-ICU care: a side-by-side review.
Telemed J E Health 2014 Oct;20(10):962-71. doi: 10.1089/tmj.2014.0024.
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Keywords: Critical Care, Comparative Effectiveness, Quality of Care, Intensive Care Unit (ICU), Telehealth
Ramnath VR, Ho L, Maggio LA
Centralized monitoring and virtual consultant models of tele-ICU care: a systematic review.
This systematic literature review compares the Centralized Monitoring and Virtual Consultant tele-ICU Models. Compared with the Virtual Consultant tele-ICU Model, studies addressing the Centralized Monitoring Model of tele-ICU care were greater in quantity and sample size, with qualitative conclusions of clinical outcomes, staff satisfaction and workload, and financial sustainability largely consistent with past systematic reviews.
AHRQ-funded; HS019816.
Citation: Ramnath VR, Ho L, Maggio LA .
Centralized monitoring and virtual consultant models of tele-ICU care: a systematic review.
Telemed J E Health 2014 Oct;20(10):936-61. doi: 10.1089/tmj.2013.0352.
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Keywords: Critical Care, Comparative Effectiveness, Quality of Care, Intensive Care Unit (ICU), Telehealth