Laura Stilwell1, Megan Golonka2, Kristin Ankoma-Sey3, Madeleine Yancy3, Samantha Kaplan4, Lindsay Terrell5, Elizabeth J Gifford6. 1. Duke University School of Medicine (L Stilwell, S Kaplan), Durham, NC; Sanford School of Public Policy (L Stilwell, E Gifford), Durham, NC. 2. Center for Child and Family Policy (M Golonka, E Gifford), Durham, NC; Department of Psychology and Neuroscience (M Golonka), Center for the Study of Adolescent Risk and Resilience, Duke University, Durham, NC. Electronic address: megan.golonka@duke.edu. 3. Duke University (K Ankoma-Sey, M Yancy), Durham, NC. 4. Duke University School of Medicine (L Stilwell, S Kaplan), Durham, NC. 5. Duke Department of Pediatrics (L Terrell), Durham, NC. 6. Sanford School of Public Policy (L Stilwell, E Gifford), Durham, NC; Center for Child and Family Policy (M Golonka, E Gifford), Durham, NC; Duke Department of Pediatrics (L Terrell), Durham, NC.
Abstract
OBJECTIVE: To prevent missed cases and standardize care, health systems are beginning to implement EHR-based screens (EHR-CA-S) and clinical decision supports systems (EHR-CA-CDSS) for the identification and management of child maltreatment. This study aimed to 1) document the existing research evidence on the performance of EHR-CA-S and EHR-CA-CDSS and 2) examine clinical perspectives regarding the use of such tools and factors that affect uptake. METHODS: We searched MEDLINE, Embase, EBSCO, Scopus, and CINAHL databases for English language articles published prior to November 2021 that describe and/or evaluated an EHR-CA-S and/or EHR-CA-CDSS involving 0 to 18-year olds. We performed semistructured interviews with 20 individuals who have experience in identifying, evaluating, and/or treating child maltreatment and/or conducting research on these topics. RESULTS: Our search identified 574 articles; 16 met inclusion criteria. Studies examined screening, alerts and triggers, and quality improvement. None evaluated long-term clinical outcomes. Sensitivity ranged from 0.14 to 1.00, specificity from 0.865 to 1.00, positive predictive value from 0.03 to 1.00 and negative predictive value from 0.55 to 1.00. A variety of EHR-CA-S and/or EHR-CA-CDSS have been implemented at institutions in our sample. Interviewees cited missed cases, policy requirements, and the lack of standardization of care as impetuses for adopting these tools, yet expressed concerns regarding insufficient evidence, bias, and time-intensiveness of implementation. CONCLUSIONS: Interviewees and the literature agree that current evidence does not support adoption of a particular CA-S or CA-CDSS. Further refinement and research on EHR-CA-S and EHR-CA-CDSS is necessary for these tools to be feasibly implemented and sustained, reliable for clinical practice, and not cause any unintentional harms.
OBJECTIVE: To prevent missed cases and standardize care, health systems are beginning to implement EHR-based screens (EHR-CA-S) and clinical decision supports systems (EHR-CA-CDSS) for the identification and management of child maltreatment. This study aimed to 1) document the existing research evidence on the performance of EHR-CA-S and EHR-CA-CDSS and 2) examine clinical perspectives regarding the use of such tools and factors that affect uptake. METHODS: We searched MEDLINE, Embase, EBSCO, Scopus, and CINAHL databases for English language articles published prior to November 2021 that describe and/or evaluated an EHR-CA-S and/or EHR-CA-CDSS involving 0 to 18-year olds. We performed semistructured interviews with 20 individuals who have experience in identifying, evaluating, and/or treating child maltreatment and/or conducting research on these topics. RESULTS: Our search identified 574 articles; 16 met inclusion criteria. Studies examined screening, alerts and triggers, and quality improvement. None evaluated long-term clinical outcomes. Sensitivity ranged from 0.14 to 1.00, specificity from 0.865 to 1.00, positive predictive value from 0.03 to 1.00 and negative predictive value from 0.55 to 1.00. A variety of EHR-CA-S and/or EHR-CA-CDSS have been implemented at institutions in our sample. Interviewees cited missed cases, policy requirements, and the lack of standardization of care as impetuses for adopting these tools, yet expressed concerns regarding insufficient evidence, bias, and time-intensiveness of implementation. CONCLUSIONS: Interviewees and the literature agree that current evidence does not support adoption of a particular CA-S or CA-CDSS. Further refinement and research on EHR-CA-S and EHR-CA-CDSS is necessary for these tools to be feasibly implemented and sustained, reliable for clinical practice, and not cause any unintentional harms.
Authors: Lauren C Riney; Theresa M Frey; Emily T Fain; Elena M Duma; Berkeley L Bennett; Eileen Murtagh Kurowski Journal: Pediatrics Date: 2017-12-06 Impact factor: 7.124
Authors: Erika L Rangel; Becky S Cook; Berkeley L Bennett; Kaaren Shebesta; Jun Ying; Richard A Falcone Journal: J Pediatr Surg Date: 2009-06 Impact factor: 2.545
Authors: Maartje C M Schouten; Henk F van Stel; Theo J M Verheij; Edward E S Nieuwenhuis; Elise M van de Putte Journal: BMC Fam Pract Date: 2016-11-08 Impact factor: 2.497
Authors: Reed T Sutton; David Pincock; Daniel C Baumgart; Daniel C Sadowski; Richard N Fedorak; Karen I Kroeker Journal: NPJ Digit Med Date: 2020-02-06