The VHA is a leader in electronic medical records (EMR) use for patient care. It is believed that EMR use by doctors will improve patient-centeredness of visits, and improve clinical care. The proposed study will determine how doctors should use the EMR during patient consultations. We will also develop a training program to improve doctors ability to communicate with patients while using EMR.
Anticipated Impact on Veterans Healthcare: Health information technology (HIT), including electronic medical records (EMR) has the potential to improve the quality and safety of ambulatory care. The VHA is a leader in EMR implementation. It is believed that EMR use by physicians will improve patient-centeredness of visits, and healthcare outcomes. The proposed clinical trial addresses the need for rigorous research on EMR use, patient-centered care, and relevant health outcomes. Both physician-patient communication and EMR use are cross-cutting clinical issues with broad implications for patient care within the VHA. Consequently, the proposed project is directly related to the VHA's mission to use HIT to improve the quality health care for veteran patients. BACKGROUND/RATIONALE EMRs can potentially improve quality and safety of ambulatory care. However, little research systematically documents the effect of EMRs on patient-centered care. Studies of the EMR's effect on patient-provider communication have been observational and had small sample sizes. Overall, these studies reported varied success regarding providers integrating the EMR into office visits, and suggest that further research is needed to evaluate the effectiveness of training providers in patient-centered communication and EMR use. OBJECTIVES The PACE aims were to study how EMR use affects patient-provider communication behaviors, and patient-centered care and related health outcomes; to develop a unique provider training program tailored to patient-centered EMR use; and to evaluate the effect of the training intervention on patient-provider communication, patient-centered care, and provider EMR use. METHODS The study used a quasi-experimental (pre-post intervention design) carried out in three phases: 1. Pre-intervention: A pre-intervention patient-provider visit was conducted for each patient-provider pair. Visits were video recorded and reviewed for verbal and nonverbal patient-provider communication. MORAE software was used to record provider-EMR interaction data, including page views, navigation, and mouse clicks. Data were collected for related outcomes (patient and provider satisfaction). 2. Training: Findings from pre-intervention data guided development of a multifaceted provider training intervention promoting patient-centered EMR appropriation. The training intervention was delivered via a full day training workshop and individual feedback sessions. 3. Post-intervention: A second round of visits was conducted with the same patient-provider pairs and similar data were collected as in pre-intervention. Within group analyses (pre-post) were used to test whether the training intervention resulted in significant improvements in (a) patient-centered EMR use and (b) related outcomes (patient and provider satisfaction). IMPACT PACE findings emphasize the need to address EMR usability by the VHA hi2 (Health Informatics Initiative) and iEHR team.
Study Type
INTERVENTIONAL
Allocation
NA
Purpose
HEALTH_SERVICES_RESEARCH
Masking
NONE
Enrollment
151
This intervention was performed in between the pre-intervention (Baseline) clinic visit and post intervention clinic visit.
VA San Diego Healthcare System, San Diego
San Diego, California, United States
Change in Patient's Satisfaction, Change in Provider's Satisfaction (Mean/SD)
Three patient satisfaction subscales were analyzed (range 1-5 for all subscales, 1=not satisfied at all, 5=very satisfied). Subscale 1 measures physician's use of patient center communication; Subscale 2 measures clinical competence and skills; Subscale 3 measures physician interpersonal skills. Four provider satisfaction subscales were analyzed (range 1-5 for all subscales, 1=not satisfied at all, 5=very satisfied). Subscale 1 measures quality of physician-patient relation; Subscale 2 measures patient's non-demanding co-operative nature, Subscale 3 measures satisfaction with data collection; Subscale 4 measures satisfaction with use of visit time. Change in patient's satisfaction and change in provider's satisfaction from pre to post-intervention clinic visit was reported for the above subscales. Higher change score indicates better outcome. Mean and standard deviation were reported.
Time frame: Baseline clinic visit and post-intervention clinic visit (over a period of 1 year)
Change in Patient's Satisfaction, Change in Provider's Satisfaction (Median/Range)
Three patient satisfaction subscales were analyzed (range 1-5 for all subscales, 1=not satisfied at all, 5=very satisfied). Subscale 1 measures physician's use of patient center communication; Subscale 2 measures clinical competence and skills; Subscale 3 measures physician interpersonal skills. Four provider satisfaction subscales were analyzed (range 1-5 for all subscales, 1=not satisfied at all, 5=very satisfied). Subscale 1 measures quality of physician-patient relation; Subscale 2 measures patient's non-demanding co-operative nature, Subscale 3 measures satisfaction with data collection; Subscale 4 measures satisfaction with use of visit time. Change in patient's satisfaction and change in provider's satisfaction from pre to post-intervention clinic visit was reported for the above subscales. Higher change score indicates better outcome. Median and range were reported.
Time frame: Baseline clinic visit and post-intervention clinic visit (over a period of 1 year)
Change in Patient Engagement
Change in proportion of time spent on physician-patient communication from pre to post-intervention clinic visit was calculated. Positive change indicates increased time spent on patient communication. Mean and standard deviation of outcomes were reported in this table.
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Time frame: Baseline clinic visit and post-intervention clinic visit (over a period of 1 year)
Change in Total Number of EMR Mouse Click Per Visit (Mean/SD)
For EMR use, we assessed the change in total number of mouse click per-visit, positive score indicates increased EMR use. Mean and standard deviation of outcome were reported in this table.
Time frame: Baseline clinic visit and post-intervention clinic visit (over a period of 1 year)
Change in Total Number of EMR Mouse Click Per Visit (Median/Range)
For EMR use, we assessed the change in total number of mouse click per-visit, positive score indicates increased EMR use.
Time frame: Baseline clinic visit and post-intervention clinic visit (over a period of 1 year)
Change in EMR Mouse Click Per Minute Per Visit (Mean/SD)
Time frame: Baseline clinic visit and post-intervention clinic visit (over a period of 1 year)
Change in EMR Mouse Click Per Minute Per Visit (Median/Range)
For EMR use, we assessed the change in the average number of mouse clicks per minute per-visit, positive score indicates increased EMR use.
Time frame: Baseline clinic visit and post-intervention clinic visit (over a period of 1 year)