Spelling suggestions: "subject:"telementoring"" "subject:"peermentoring""
1 |
Telementoring for Chronic Disease ManagementJoshi, S., Wood, David L. 22 October 2016 (has links)
No description available.
|
2 |
Effective User Guidance through Augmented Reality Interfaces: Advances and ApplicationsDaniel S Andersen (8755488) 24 April 2020 (has links)
<div>Computer visualization can effectively deliver instructions to a user whose task requires understanding of a real world scene. Consider the example of surgical telementoring, where a general surgeon performs an emergency surgery under the guidance of a remote mentor. The mentor guidance includes annotations of the operating field, which conventionally are displayed to the surgeon on a nearby monitor. However, this conventional visualization of mentor guidance requires the surgeon to look back and forth between the monitor and the operating field, which can lead to cognitive load, delays, or even medical errors. Another example is 3D acquisition of a real-world scene, where an operator must acquire multiple images of the scene from specific viewpoints to ensure appropriate scene coverage and thus achieve quality 3D reconstruction. The conventional approach is for the operator to plan the acquisition locations using conventional visualization tools, and then to try to execute the plan from memory, or with the help of a static map. Such approaches lead to incomplete coverage during acquisition, resulting in an inaccurate reconstruction of the 3D scene which can only be addressed at the high and sometimes prohibitive cost of repeating acquisition.</div><div><br></div><div>Augmented reality (AR) promises to overcome the limitations of conventional out-of-context visualization of real world scenes by delivering visual guidance directly into the user's field of view, guidance that remains in-context throughout the completion of the task. In this thesis, we propose and validate several AR visual interfaces that provide effective visual guidance for task completion in the context of surgical telementoring and 3D scene acquisition.</div><div><br></div><div>A first AR interface provides a mentee surgeon with visual guidance from a remote mentor using a simulated transparent display. A computer tablet suspended above the patient captures the operating field with its on-board video camera, the live video is sent to the mentor who annotates it, and the annotations are sent back to the mentee where they are displayed on the tablet, integrating the mentor-created annotations directly into the mentee's view of the operating field. We show through user studies that surgical task performance improves when using the AR surgical telementoring interface compared to when using the conventional visualization of the annotated operating field on a nearby monitor. </div><div><br></div><div>A second AR surgical telementoring interface provides the mentee surgeon with visual guidance through an AR head-mounted display (AR HMD). We validate this approach in user studies with medical professionals in the context of practice cricothyrotomy and lower-limb fasciotomy procedures, and show improved performance over conventional surgical guidance. A comparison between our simulated transparent display and our AR HMD surgical telementoring interfaces reveals that the HMD has the advantages of reduced workspace encumbrance and of correct depth perception of annotations, whereas the transparent display has the advantage of reduced surgeon head and neck encumbrance and of annotation visualization quality. </div><div><br></div><div>A third AR interface provides operator guidance for effective image-based modeling and rendering of real-world scenes. During the modeling phase, the AR interface builds and dynamically updates a map of the scene that is displayed to the user through an AR HMD, which leads to the efficient acquisition of a five-degree-of-freedom image-based model of large, complex indoor environments. During rendering, the interface guides the user towards the highest-density parts of the image-based model which result in the highest output image quality. We show through a study that first-time users of our interface can acquire a quality image-based model of a 13m $\times$ 10m indoor environment in 7 minutes.</div><div><br></div><div>A fourth AR interface provides operator guidance for effective capture of a 3D scene in the context of photogrammetric reconstruction. The interface relies on an AR HMD with a tracked hand-held camera rig to construct a sufficient set of six-degrees-of-freedom camera acquisition poses and then to steer the user to align the camera with the prescribed poses quickly and accurately. We show through a study that first-time users of our interface are significantly more likely to achieve complete 3D reconstructions compared to conventional freehand acquisition. We then investigated the design space of AR HMD interfaces for mid-air pose alignment with an added ergonomics concern, which resulted in five candidate interfaces that sample this design space. A user study identified the aspects of the AR interface design that influence the ergonomics during extended use, informing AR HMD interface design for the important task of mid-air pose alignment.</div>
|
3 |
The Effect of a Telementoring Program on Beginning Teacher Self-efficacy.Muehlberger, Linda S. 08 1900 (has links)
This study examined whether the telementoring program had a positive impact on beginning teacher self-efficacy. Telementoring is an adaptation of mentoring, using telecommunications technology as the means to establish and maintain mentoring relationships between the participants. The program was intended to create an atmosphere of community; to provide expert training in the profession; to retain good teachers; and to offer support for the new teacher in times of self-doubt. A quasi-experimental design and mixed methods measures were used to determine the effect of a telementoring program on beginning teacher self-efficacy. Participants were members of a district induction/mentoring program. An experimental group of 20 first-year teachers that participated in a supplemental telementoring program were compared to 20 first-year teachers who did not. The Teachers' Sense of Efficacy Scale was used to collect data on beginning teacher self-efficacy. A pretest was administered prior to the treatment and members completed a post-test at the conclusion of the study. Results were analyzed using a one-way analysis of variance. The experimental and control group results from both assessments were measured and compared. No statistically significant differences were found between the experimental group that participated in the telementoring program and those in the control group who did not. Messages posted to a discussion board were analyzed by comparing concerns of beginning teachers in this study to concerns of beginning teachers found in current literature. A compilation of concerns served as a comparison framework. Participants in this study discussed many of the same issues and concerns found in current literature. Although statistically significant results were not found, discussion board postings suggest that telementoring is an effective form of mentoring and provides beginning teachers a forum for collegiality and support, which contributes to self-efficacy.
|
4 |
Integrating Quality Improvement Into the ECHO Model to Improve Care for Children and Youth With EpilepsyJoshi, Sucheta, Gali, Kari, Radecki, Linda, Shah, Amy, Hueneke, Sarah, Calabrese, Trisha, Katzenbach, Alexis, Sachdeva, Ramesh, Brown, Lawrence, Kimball, Eve, White, Patience, McManus, Peggy, Wood, David, Nelson, Eve Lynn, Archuleta, Pattie 01 September 2020 (has links)
Objective: Project ECHO (Extension for Community Healthcare Outcomes), a telementoring program, utilizes lectures, case-based learning, and an “all teach–all learn” approach to increase primary care provider (PCP) knowledge/confidence in managing chronic health conditions. The American Academy of Pediatrics (AAP) Epilepsy and Comorbidities ECHO incorporated quality improvement (QI) methodology to create meaningful practice change, while increasing PCP knowledge/self-efficacy in epilepsy management using the ECHO model. Methods: Monthly ECHO sessions (May 2018 to December 2018) included lectures, case presentations/discussion, and QI review. Pediatric practices were recruited through the AAP. Practices engaged in ECHO sessions and improvement activities including monthly Plan-Do-Study-Act cycles, team huddles, chart reviews, and QI coaching calls to facilitate practice change. They were provided resource toolkits with documentation templates, safety handouts, and medication side effects sheets. QI measures were selected from the American Academy of Neurology Measurement Set for Epilepsy. The AAP Quality Improvement Data Aggregator was used for data entry, run chart development, and tracking outcomes. Participants completed retrospective surveys to assess changes in knowledge and self-efficacy. Results: Seven practices participated across five states. Average session attendance was 14 health professionals (range = 13-17). A total of 479 chart reviews demonstrated improvement in six of seven measures: health care transition (45.3%, P =.005), safety education (41.6%, P =.036), mental/behavioral health screening (32.2% P =.027), tertiary center referral (26.7%, not significant [n.s.]), antiseizure therapy side effects (23%, n.s.), and documenting seizure frequency (7.1%, n.s.); counseling for women of childbearing age decreased by 7.8%. Significance: This project demonstrated that integrating QI into an ECHO model results in practice change and increases PCP knowledge/confidence/self-efficacy in managing epilepsy.
|
Page generated in 0.0917 seconds