Teleconsultation, or the use of video telecommunications technology to deliver expert recommendations for care remotely, has been used to improve the safety and quality of emergency care for children in hospital-based acute care settings by providing real-time access to remote pediatric physician experts. Whether extending teleconsultation as a patient safety intervention to emergency medical systems (EMS) outside hospitals can similarly benefit sick and injured children in the community is unknown. Advances in mobile technology have made teleconsultation more accessible and affordable for EMS systems. However, this intervention has been underutilized by EMS partially due to the lack of prehospital research supporting its efficacy for pediatric applications. In prior simulation studies, the investigators found high intervention acceptance among key stakeholder groups (pediatric emergency physicians and paramedics), and demonstrated that it was feasible to integrate video communication into prehospital clinical workflows involving critical care delivery in high-risk pediatric scenarios. These initial simulation studies were conducted in a controlled prehospital setting in static ambulances using infant simulator manikins to minimize risk to children and providers. Demonstrating feasibility and acceptability with real children in moving ambulances is the next step to build the necessary evidence base to support future planned prehospital efficacy trials with children. The investigators hypothesize that remote respiratory assessment of children by medical control physicians (expert physicians) using a mobile teleconsultation platform is acceptable to users (physicians and transport providers), and technically feasible in real transports.
Respiratory Distress Syndrome
Teleconsultation, or the use of video telecommunications technology to deliver expert recommendations for care remotely, has been used to improve the safety and quality of emergency care for children in hospital-based acute care settings by providing real-time access to remote pediatric physician experts. Whether extending teleconsultation as a patient safety intervention to emergency medical systems (EMS) outside hospitals can similarly benefit sick and injured children in the community is unknown. Advances in mobile technology have made teleconsultation more accessible and affordable for EMS systems. However, this intervention has been underutilized by EMS partially due to the lack of prehospital research supporting its efficacy for pediatric applications. In prior simulation studies, the investigators found high intervention acceptance among key stakeholder groups (pediatric emergency physicians and paramedics), and demonstrated that it was feasible to integrate video communication into prehospital clinical workflows involving critical care delivery in high-risk pediatric scenarios. These initial simulation studies were conducted in a controlled prehospital setting in static ambulances using infant simulator manikins to minimize risk to children and providers. Demonstrating feasibility and acceptability with real children in moving ambulances is the next step to build the necessary evidence base to support future planned prehospital efficacy trials with children. The investigators hypothesize that remote respiratory assessment of children by medical control physicians (expert physicians) using a mobile teleconsultation platform is acceptable to users (physicians and transport providers), and technically feasible in real transports.
Prehospital Telemedicine Feasibility/Acceptability Pilot
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Boston Children's Hospital, Boston, Massachusetts, United States, 02115
Boston Medical Center, Boston, Massachusetts, United States, 02118
Researchers look for people who fit a certain description, called eligibility criteria. Some examples of these criteria are a person's general health condition or prior treatments.
For general information about clinical research, read Learn About Studies.
to 17 Years
ALL
No
Boston Medical Center,
Tehnaz Boyle, MD PhD, PRINCIPAL_INVESTIGATOR, Boston Medical Center
2025-08