Received 03/21/2018 
Review began 03/26/2018 
Review ended 04/01/2018 
Published 04/05/2018

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Integrating Telehealth Emergency
Department Follow-up Visits into
Residency Training
Dimitrios Papanagnou  , Danica Stone  , Shruti Chandra  , Phillip Watts  , Anna Marie Chang
 , Judd E. Hollander 

1. Emergency Medicine, Thomas Jefferson University, Philadelphia, USA 2. Jeffconnect Program, Thomas
Jefferson University 3. Department of Emergency Medicine, Thomas Jefferson University

 Corresponding author: Dimitrios Papanagnou , dimitrios.papanagnou@jefferson.edu 
Disclosures can be found in Additional Information at the end of the article

Abstract
Introduction
Given the rapid expansion of telehealth (TH), there is an emerging need for trained
professionals who can effectively deliver TH services. As there is no formal TH training program
for residents, the Department of Emergency Medicine (DEM) at Thomas Jefferson University
(TJU) developed a pilot training program for senior post-graduate-year three (PGY-3) residents
that exposed them to TH practices. The objective of the study was to determine the feasibility
of developing a resident-led, post-Emergency-Department (ED) visit TH follow-up program as
an educational opportunity to 1) address patient satisfaction; and 2) expose senior residents to
TH delivery.

Methods
During a one-month block in their third-year of training, EM residents were exposed to and
educated on TH delivery and utility through on-the-job, just-in-time training. Residents spent
four hours per week evaluating patients previously seen in the ED within the last 5-7 days in the
form of TH follow-up visits. ED patients were screened to identify which patient chief
complaints and presentations were appropriate for a follow-up visit, given a specific day and
time for their TH encounter, facilitated by a resident, and supervised by a faculty member
trained in TH. Demographic patient and visit data were collected. Residents then completed a
brief survey at the end of the rotation to capture their educational experiences and
recommendations for subsequent training improvement.

Results
Over 12 months, 197 TH follow-up visits were performed by 12 residents. One hundred twenty-
six patients (64%) were female. Top chief complaints included extremity pain (11.2%);
abdominal pain (8.1%); upper respiratory infections (8.1%); lacerations (7.6%), and motor
vehicle accidents (7.6%). The average number of days between the ED visit and the TH follow-
up call was 5.1 days (IQR 3-6). 44.7% of patients were compliant with their discharge
instructions and medications. On a Likert scale low (1) to high (10)], average patient helpfulness
rating was 8.2 (IQR 7.8-10) and the average patient likelihood to recommend a TH follow-up
visit was 8.5 (IQR 8-10). Ten residents completed the follow-up survey on the educational
experience of the rotation (response rate 83%), of which seven described there is value to have
a TH rotation in the curriculum. Thematic analysis of open-ended responses yielded
constructive feedback for programmatic improvement.

1 2 3 3

3 3

 
Open Access Original
Article  DOI: 10.7759/cureus.2433

How to cite this article
Papanagnou D, Stone D, Chandra S, et al. (April 05, 2018) Integrating Telehealth Emergency Department
Follow-up Visits into Residency Training. Cureus 10(4): e2433. DOI 10.7759/cureus.2433

https://www.cureus.com/users/40273-dimitrios-papanagnou-
https://www.cureus.com/users/95316-danica-stone
https://www.cureus.com/users/95317-shruti-chandra
https://www.cureus.com/users/95318-phillip-watts
https://www.cureus.com/users/95319-anna-marie-chang
https://www.cureus.com/users/95320-judd-e-hollander


Conclusion
The authors propose a feasible TH training opportunity integrated into EM residency training
to assist them with meeting a rapidly-growing demand for TH and prepare them for diverse job
opportunities.

Categories: Medical Education, Emergency Medicine, Healthcare Technology
Keywords: telehealth, telemedicine, graduate medical education, training, professional development

Introduction
Telehealth (TH) has been shown to broaden access to healthcare [1], increase efficiency while
reducing costs [2-3], and enhance patient satisfaction and health outcomes. Given its rapid
expansion, there is an emerging need for trained professionals who will effectively deliver TH
services. More recently, TH has been used as a direct connection to the patient, rather than a
physician to physician consult. The direct-to-consumer TH industry is growing rapidly with
over 1 million visits in 2014 [2].

International healthcare organizations, practitioners, patients, families, policy makers, and
legislators are increasingly recognizing the value added by the integrated use of telehealth.
Given the high impact potential of telehealth, it is predicted that there will be an 18.5% annual
growth of TH services through 2018, inevitably resulting in spiking demand for TH training and
coordination [4]. The 2020 Health Report states that the introduction of new TH and
telemonitoring programs in healthcare will require a new subset of skills that will change the
roles and responsibilities of health providers [5].

To date, there are few academic programs that offer TH training especially for post-graduate
resident trainees [6]. The University of Alaska Southeast (in partnership with Alaska Federal
Health Care Access Network) is one of the few institutions in the country that offers a TH
certificate program (for continuing education, CE, contact hours). The University of Arizona,
University of California-Davis Health System, and Waldo County General Hospital (Maine) also
run similar programs. Other non-accredited, short-term training and educational resources
exist, most notably through the Cal Telehealth Resource Center (also for CE credit) and the
American Telehealth Association (ATA). There are no sizeable general TH programs in the
northeast United States [6].

Given telehealth’s growing market and trending demands in the United States and abroad, it is
expected there will be significant implications and expectations for the emergency medicine
(EM) residency graduate. It was in response to this accumulating evidence that the Department
of Emergency Medicine (DEM) at Thomas Jefferson University (TJU) created and successfully
integrated a TH training program into its residency program in an effort of preparing its
graduates for telehealth’s rapidly-growing demand. A major focus was placed on developing
senior residents’ clinical and non-clinical skills that are essential to TH delivery, such as the TH
physical exam, virtual doctor-patient communication, and troubleshooting technological
challenges.

The goal of this paper is to describe the first 12 months of the program, including the resident
and patient experience of a novel TH follow-up encounter subsequent to the traditional ED
visit. Specifically, the authors aimed to determine if such a training program could be
integrated into an EM graduate medical education program to describe what patient complaints
EM residents would typically encounter through a TH medium, and to survey residents on the
educational value of TH training.

2018 Papanagnou et al. Cureus 10(4): e2433. DOI 10.7759/cureus.2433 2 of 10



Materials And Methods
Our curriculum and quality improvement project was completed at TJU, an academic medical
center located in Philadelphia, Pennsylvania that has an enterprise-wide telehealth program
(JeffConnect) including 24/7/365 on-demand access to an emergency physician, a 38-hospital
neurostroke network providing partner affiliate hospitals’ emergency physicians with
telehealth access to neurovascular experts, and scheduled visit programs in 18 clinical
specialties. Over 10,000 telehealth calls are completed annually.

Targeted learners
The TJU sponsors a 3-year (post-graduate year, PGY, 1 through 3), EM residency training
program, with 36 total residents (12 residents per year). The residency program is accredited by
the Accreditation Council for Graduate Medical Education (ACGME). During the one-month
Emergency Medicine Administration and Teaching (EMAT) block of the last year of training,
PGY-3 residents were immersed in a multifaceted TH experience which exposed, educated, and
trained senior residents on the delivery and utility of telehealth in patient care.

With regards to the goals of the rotation, residents were expected to develop both the clinical
and non-clinical skills that are essential to telehealth care delivery, such as the TH physical
exam, virtual doctor-patient communication, and troubleshooting technological challenges. At
the beginning of the rotation, residents were given an introductory orientation providing them
with an overview of the TH program. Residents were provided with resources on telehealth
principles. These resources included internally-developed modules that
introduced telehealth, its applications, the telehealth physical exam, troubleshooting, and
regulatory considerations; institution-specific clinical pathways; and video examples of
successful TH encounters.

Residents spent four hours per week performing follow-up visits on patients seen in the ED
within the past five to seven days. ED patients appropriately identified for a follow-up visit were
given a specific day and time for their virtual telehealth encounter, which was facilitated by the
PGY-3 resident, and supervised by a faculty member credentialed in telehealth delivery.

Patient recruitment
ED patients suitable for a telehealth follow-up visit were identified by a faculty member,
resident, and/or research coordinator. Patients were enlisted for a TH follow-up visit only if the
treating physician agreed that a timely follow-up visit would be helpful for the patient and
would assist in the management of his/her chief complaint. Chief complaints were low-acuity,
and included upper respiratory infections, wound care concerns, lacerations, cellulitis,
headaches, or minor trauma, as examples. If an ED patient was amenable to participate in a
virtual visit, a research coordinator then scheduled the patient for the virtual appointment prior
to his/her discharge. All patients were also contacted 30 days after their TH visit to assess
whether their respective issues were resolved or further care was necessary, and to gauge their
experience with the TH encounter.

Assessment and supervision
Each resident was expected to complete 16 hours of directly supervised TH delivery over the
four-week period (4 hours per week x four weeks). Evaluations of residents were performed by
the supervising faculty member. All supervising faculty members hold a faculty appointment in
the DEM are trained in TH and provide ongoing TH coverage within the enterprise-wide
JeffConnect program. Formative feedback was provided to each resident during and at the
completion of each TH encounter.

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The telehealth visit
Prior to the TH encounter, residents reviewed the patient’s ED note from their original visit to
the hospital. All scheduled visits were conducted via video using a HIPAA-compliant, secure,
JeffConnect platform (www.jeffconnect.org), which can be conducted via the web, smart phone,
or tablet device. At the time of scheduling, a coupon code was created, which made the follow-
up visit free to the patient. When logging-on to the platform, patients entered structured
clinical information, including any medications and allergies. Once this information was
successfully entered, patients clicked a button that immediately connected them to the
physician. The average wait time for this process is one to three minutes. Physicians and
patients were then able to view one other, similar to a video call on Skype or FaceTime.
Documentation was captured in the electronic medical record, identifying the encounter as a
TH visit, and linking it to the original ED visit as an addendum to the patient's medical record.

Data collection
During the telehealth encounter, residents followed a standardized approach to collecting
patient data, which included medication reconciliation, assessment of whether ED discharge
follow-up instructions were followed, and an assessment of how the patient was doing since
his/her discharge from the ED. Any issues or questions that patients had were also addressed.
Data collected from each encounter included the number of patient visits to the ED, chief
complaint, days between initial visit and telehealth visit, and an assessment of medication and
discharge instruction compliance. Patients who received a telehealth visit were sent a brief
follow-up survey at 30 days, which asked them 1) how helpful the TH visit was, 2) if they would
recommend a TH follow-up to someone else, and 3) if they required additional care since their
ED visit (i.e., an additional ED or urgent care visit and/or hospitalization).

At the end of the rotation, all 12 PGY-3 residents completed a short survey, administered
through Survey Monkey, which solicited feedback on the educational value of the TH
experience. Open-ended questions were included in the survey to capture resident comments
on the benefits of TH training, ways in which the experience could be enriched, and residents'
opinions on whether TH training should be included in the formal EM residency curriculum.

Data are presented as descriptive statistics. Because of its focus on quality improvement, the
study was exempt from review by the Institutional Review Board (IRB) of the Sidney Kimmel
Medical College of TJU.

Educational and theoretical considerations
The educational framework that informed the telehealth training program is rooted in
experiential learning; furthermore, resident supervision by telehealth-trained faculty
preceptors promoted reflection after telehealth clinical encounters. David Kolb’s widely quoted
‘experiential learning cycle’ informed training program design. Kolb originally represented four
elements (i.e., concrete experience, observation and reflection, the formation of abstract
concepts, and active experimentation) in an experiential learning circle that provides a flexible
framework for instructional design [7]. The model is derived from a model of social learning
that connects variability of individual learning style to flexibility in learning context [8]. In the
context of the telehealth encounter, the senior resident is immersed in a concrete experience
(i.e., the JeffConnect telehealth patient encounter), he/she then observes and reflects on
himself/herself or others (i.e., debriefing with the faculty preceptor and/or observation of
‘modeled’ encounters by the faculty preceptor), the learner is then able to make inductive
systematic conclusions or abstractions (i.e., refining frames for his/her clinical practice via the
telehealth medium), which then allows the learner to empirically test the action plans that arise
from the abstract concepts (i.e., applying this new practice to subsequent telehealth

2018 Papanagnou et al. Cureus 10(4): e2433. DOI 10.7759/cureus.2433 4 of 10



encounters) [8].

Results
From August 2016 to May 2017, 624 ED follow-up visits were scheduled to be performed via
telehealth. Of these, 197 patients conducted the visit (32%). Visits were conducted by all 12
PGY-3 residents. One hundred twenty-six patients (64%) were female, 98 (49.7%) patients were
black. The top five chief complaints included extremity pain (11.2%), abdominal pain (8.1%),
upper respiratory infection (8.1%), lacerations (7.6%), and motor vehicle accidents (7.6%) (Table
1). The average number of days between the ED visit and the telehealth follow-up call was 5.1
(interquartile range, IQR, 3-6) days. Patients reported that they were compliant with at least
one part of their discharge instructions 44.7% of the time, and with medications 58.9% of the
time. New prescriptions were provided in six follow-up visits (3.0%). At the end of the call, 106
encounters (54%) were “resolved,” meaning no further follow-up was necessary.

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Demographic Data N=197 %

Age                                        34.9 (Mean) IQR (25-43)

Gender   

          Female 126 64.0%

          Male 71 36.0%

Race    

          Black 98 49.7%

          White 82 41.6%

          Other 17 8.7%

Most Common Chief Complaints   

    Extremity Pain 22 11.2%

    Abdominal Pain 16 8.1%

    Upper Respiratory Infection 16 8.1%

    Laceration 15 7.6%

    Motor Vehicle Collision 15 7.6%

    Back Pain 12 6.1%

    Joint Pain 11 5.6%

    Chest Pain 10 5.1%

    Headache 9 4.6%

    Fall 8 4.1%

    Cellulitis / Rash / Abscess 6 3.0%

    Dizziness 6 3.0%

    Gynecologic-Related Complaint 6 3.0%

TABLE 1: Demographic and Chief Complaint Data of Patients Receiving Telehealth
(TH) Follow-Up Visits After Emergency Department Discharge (N=197)

A total of 104 patients were able to be reached for the 30-day follow-up (53%). On a Likert scale
from 1 (low) to 10 (high), the average patient helpfulness rating was 8.2 (IQR 7.8-10), and the
average patient likelihood to recommend a TH follow-up visit was 8.5 (IQR 8-10). Six patients
(6%) were hospitalized within 30 days, while 23 patients (22%) had ED or urgent care visits.

Each resident completed an average of 13 TH visits (IQR 8-16.5). Ten of the 12 residents

2018 Papanagnou et al. Cureus 10(4): e2433. DOI 10.7759/cureus.2433 6 of 10



completed the post-rotation survey (response rate 83%). Seven residents (70%) agreed that
there is educational value to have a TH rotation in the EM residency curriculum. Residents
commented that “the experience was valuable,” that “(they) liked it better than expected,” and
that it appropriately “prepared (them) for telehealth in EM,” specifically for specialized areas
such as “remote and rural settings” and “assisting with EMS services.” Additional comments
highlighted that the rotation “exposed them to a new medium that is in its infancy, but will
likely dominate healthcare delivery in the near future.” Three residents commented that they
enjoyed the patient follow-up and the ability to assess their progress post discharge.

With regards to areas for programmatic improvement in the rotation, eight residents submitted
detailed descriptions on how the experience could be optimized. Open axial coding was used to
organize these comments into themes (Table 2). These included integrating TH into other
rotations, formalizing TH training in residency, allowing residents to get exposed with being
the first provider, and maximizing the educational value of their time when the patient does not
show-up for the TH encounter.

Qualitative
Themes

Specific Details

Integrate TH
Training into
Other
Rotations

Allow resident to use TH during the EMS rotation; use TH in the urgent care setting; explore wilderness
medicine applications

Create More
Formalized
Training

Integrate more lectures, didactics, best practices into the rotation; share more resources with residents;
more detailed approach on how to incorporate TH into direct patient care

Leverage the
Initial
Encounter

Find ways to allow the resident to be the first provider; if possible, residents could potentially follow-up
on their own patients and procedures (i.e., lacerations) through TH; have resident make decisions via
TH during the undifferentiated stage of patient presentation

Maximize
Down-Time

Secondary to patient cancellations, there was idle time; find ways to maximize the educational value of
this down-time during the TH rotation

TABLE 2: Areas for Programmatic Improvement in Telehealth (TH) Training

Discussion
In this evaluation of a first-ever, resident-operated program for TH follow-ups of ED patient
visits, we found that of the patients who completed a TH encounter, over half of the issues were
resolved by the follow-up TH visit. Patients found the TH visits helpful, and would also
recommend the service to others. Many patients discharged from the ED or hospital lack timely
outpatient follow-up with primary care providers [9], and TH may provide a new way to provide
these services, and possibly prevent repeat ED visits and hospitalizations. In addition, the TH
follow-up provides patients the time to understand and review instructions and medication
after their ED discharge.

As TH services become more common and accessible to patients [10-11], providers will need to
have standardized training to teach how to appropriately and effectively provide these services.

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This is the first report of an integrated TH curriculum within an EM residency program.

Specific objectives of our program included the following:

1. Introduce resident physicians to a professional ‘tele-presence,’ including appropriate attire,
technological preparation, and environmental preparation.

2. Develop the skills needed to effectively conduct TH visits (i.e., camera positioning, eye
contact, and documentation).

3. Conduct appropriate histories and physical exams within the scope of TH, under the
supervision and guidance of a trained faculty member.

4. Apply and critique peer-reviewed clinical pathways for TH delivery for common patient
complaints.

5. Systematically troubleshoot computer and connectivity issues, and

6. Educate patients on the utility and limitations of TH.

In this novel educational program, our first class of graduating PGY-3 residents successfully
met these objectives through ‘on-the-job’ training and direct supervision from EM faculty who
were trained in TH delivery. Most residents agreed that TH should be incorporated into the EM
curriculum, to some capacity. Comments made by residents were also insightful, and
highlighted areas where improvements could be easily made to maximize the educational value
of the TH experience, including better utilization of downtime.

The healthcare sector has acknowledged the increasing value added by the integrated use of TH
[11-12]. Its benefits are threefold: this new means of healthcare delivery has the potential to
significantly broaden access to healthcare, increase efficiencies and reduce costs, and enhance
patient safety, quality of care, and ultimately, patient outcomes.

There are several limitations worth noting in our study. The sample size included in our
training intervention was only limited to the PGY-3 cohort at our training site. Future plans will
aim to aggregate this data with yearly data of graduating senior residents working with TH. If
possible, there may be utility to compare and contrast the experience of EM resident trainees
with residents from other specialties and across other institutions. The authors also wish to
acknowledge that the study was possible given the successful TH program that currently exists
at the host institution, to some extent, this may impact its reproducibility at other institutions. 

With regards to the overarching research question initially posed, our data supports that
integrating TH training into a graduate medical education program for senior EM residents is
quite feasible. In terms of program effectiveness, the Kirkpatrick Four-Level Training
Evaluation Model was helpful to objectively analyze the impact of integrating TH emergency
department visits into residency training. Trainees reacted well to training (Level 1: Reaction),
the majority of residents enjoyed the program and agreed that it was of sound educational
value. Through successive TH patient encounters, senior EM residents were able to learn how to
independently facilitate a supervised TH encounter for a wide array of common patient
presentations (Level 2: Learning) using specific skills to conduct the TH visit and troubleshoot
connectivity issues. Senior residents were also able to apply their traditional patient care skills
(i.e., extracting histories and conducting physical examinations) to the supervised TH
encounter (Level 3: Behavior).

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Next steps for this program will include evaluating Kirkpatrick’s Level 4 (Results) on
programmatic impact. Specifically, the investigators plan to examine long-term outcomes on
patients evaluated via TH (i.e., hospitalization rates, patient satisfaction ratings). Preliminary
patient-specific data is encouraging: the majority of patients highly rated the TH encounter,
and the majority of patients would recommend a TH visit to someone else. The investigators
also plan to incorporate resident feedback into the TH experience to further improve the
training program’s impact. Based on feedback provided, consideration will be made to expand
the program to include first-time encounters of the undifferentiated patient via the TH
platform, and appropriately link learning outcomes to ACGME milestones relevant to EM.

Conclusions
In response to the accumulating evidence in support of new TH roles and education, we have
created a feasible TH training opportunity integrated within an EM residency training that
aligns with patient-centered care. In this first-year pilot program, both patients and resident
providers were satisfied with this new service and new educational opportunity, respectively.
Successfully optimizing this rotation has the opportunity to create a unique training
opportunity for EM residents, which will help them become part of a skilled TH workforce to
meet a rapidly-growing demand, and, in the process, prepare them for diverse and future-
oriented job opportunities.

Additional Information
Disclosures
Human subjects: Consent was obtained by all participants in this study. Thomas Jefferson
University issued approval n/a. The study was exempt from review by the Institutional Review
Board (IRB) of the Sidney Kimmel Medical College of Thomas Jefferson University in
Philadelphia, Pennsylvania, as it was part of a university-wide training program intervention
for post-graduate trainees at our institution. No patient identifying information was collected.
Please note that the study did not involve animal or human tissue. . Animal subjects: All
authors have confirmed that this study did not involve animal subjects or tissue. Conf licts of
interest: In compliance with the ICMJE uniform disclosure form, all authors declare the
following: Payment/services info: All authors have declared that no financial support was
received from any organization for the submitted work. Financial relationships: All authors
have declared that they have no financial relationships at present or within the previous three
years with any organizations that might have an interest in the submitted work. Other
relationships: All authors have declared that there are no other relationships or activities that
could appear to have influenced the submitted work.

References
1. Singh R, Mathiassen L, Stachura ME, Astapova EV: Sustainable rural health innovation: a

public health case study. Health Serv Res. 2010, 45:985-1004. 10.1111/j.1475-
6773.2010.01116.x

2. Uscher-Pines L, Mulcahy A, Cowling D, Hunter G, Burns R, Mehrotra A: Access and quality of
care in direct-to-consumer telemedicine. Telemed J E Health. 2015, 22:282-287.
10.1089/tmj.2015.0079

3. Mehrotra A, Paone S, Martich GD, Albert SM, Shevchik GJ: A comparison of care at e-visits
and physician office visits for sinusitis and urinary tract infection. JAMA Intern Med. 2013,
173:72-74. 10.1001/2013.jamainternmed.305

4. Telehealth Benefits and Adoption: Connecting People and Providers Across Canada . (2011).
Accessed: March 20, 2018: https://www.infoway-inforoute.ca/en/component/edocman/333-
telehealth-benefits-and-adoption-connecting-people-and-prov....

5. Healthcare without Walls: A Framework for Delivering Telehealth at Scale (2020health.org) .
(2010). Accessed: March 20, 2018:

2018 Papanagnou et al. Cureus 10(4): e2433. DOI 10.7759/cureus.2433 9 of 10

https://dx.doi.org/10.1111/j.1475-6773.2010.01116.x
https://dx.doi.org/10.1111/j.1475-6773.2010.01116.x
https://dx.doi.org/10.1089/tmj.2015.0079
https://dx.doi.org/10.1089/tmj.2015.0079
https://dx.doi.org/10.1001/2013.jamainternmed.305
https://dx.doi.org/10.1001/2013.jamainternmed.305
https://www.infoway-inforoute.ca/en/component/edocman/333-telehealth-benefits-and-adoption-connecting-people-and-providers-full/view-document?Itemid=0
https://www.infoway-inforoute.ca/en/component/edocman/333-telehealth-benefits-and-adoption-connecting-people-and-providers-full/view-document?Itemid=0
http://www.2020health.org/dms/2020health/downloads/reports/2020telehealthLOW.pdf


http://www.2020health.org/dms/2020health/downloads/reports/2020telehealthLOW.pdf.
6. Papanagnou D, Sicks S, Hollander JE: Training the next generation of care providers: focus on

telehealth. Healthcare Transformation. 2015, 1:52-63. 10.1089/heat.2015.29001-psh
7. David A. Kolb on Experiential Learning (The Encyclopedia of Informal Education) . (2010).

Accessed: March 20, 2018: http://infed.org/mobi/david-a-kolb-on-experiential-learning/.
8. Anderson JA, Adams M: Acknowledging the Learning Styles of Diverse Student Populations:

Implications for Instructional Design. New Directions for Teaching and Learning. L.L.B
Border, N.V.N. Chism (ed): Jossey-Bass Publishers, San Francisco; 1992. 19-33.
10.1002/tl.37219924904

9. Misky GJ, Wald HL, Coleman EA: Post-hospitalization transitions: examining the effects of
timing of primary care provider follow-up. J Hosp Med. 2010, 5:392-397. 10.1002/jhm.666

10. Pearl R: Kaiser Permanente Northern California: current experiences with internet, mobile,
and video technologies. Health Aff. 2014, 33:251-257. 10.1377/hlthaff.2013.1005

11. Dorsey ER, Topol EJ: State of telehealth . N Engl J Med. 2016, 375:154-161.
10.1056/NEJMra1601705

12. Schwamm LH: Telehealth: seven strategies to successfully implement disruptive technology
and transform health care. Health Aff. 2014, 33:200-206. 10.1377/hlthaff.2013.1021

2018 Papanagnou et al. Cureus 10(4): e2433. DOI 10.7759/cureus.2433 10 of 10

http://www.2020health.org/dms/2020health/downloads/reports/2020telehealthLOW.pdf
https://dx.doi.org/10.1089/heat.2015.29001-psh
https://dx.doi.org/10.1089/heat.2015.29001-psh
http://infed.org/mobi/david-a-kolb-on-experiential-learning/
http://infed.org/mobi/david-a-kolb-on-experiential-learning/
https://dx.doi.org/10.1002/tl.37219924904 
https://dx.doi.org/10.1002/tl.37219924904 
https://dx.doi.org/10.1002/jhm.666
https://dx.doi.org/10.1002/jhm.666
https://dx.doi.org/10.1377/hlthaff.2013.1005
https://dx.doi.org/10.1377/hlthaff.2013.1005
https://dx.doi.org/10.1056/NEJMra1601705
https://dx.doi.org/10.1056/NEJMra1601705
https://dx.doi.org/10.1377/hlthaff.2013.1021
https://dx.doi.org/10.1377/hlthaff.2013.1021

	Integrating Telehealth Emergency Department Follow-up Visits into Residency Training
	Abstract
	Introduction
	Methods
	Results
	Conclusion

	Introduction
	Materials And Methods
	Targeted learners
	Patient recruitment
	Assessment and supervision
	The telehealth visit
	Data collection
	Educational and theoretical considerations

	Results
	TABLE 1: Demographic and Chief Complaint Data of Patients Receiving Telehealth (TH) Follow-Up Visits After Emergency Department Discharge (N=197)
	TABLE 2: Areas for Programmatic Improvement in Telehealth (TH) Training

	Discussion
	Conclusions
	Additional Information
	Disclosures

	References