This is a table of type bigram and their frequencies. Use it to search & browse the list to learn more about your study carrel.
bigram | frequency |
---|---|
health care | 177 |
telemedicine visits | 97 |
diabetic retinopathy | 93 |
telemedicine services | 80 |
systematic review | 71 |
primary care | 63 |
telemedicine visit | 60 |
telemedicine use | 55 |
coronavirus disease | 51 |
using telemedicine | 50 |
via telemedicine | 49 |
united states | 48 |
patient satisfaction | 47 |
cord uid | 43 |
doc id | 43 |
telemedicine cabin | 43 |
video visits | 41 |
macular degeneration | 40 |
medical care | 36 |
related macular | 35 |
deep learning | 35 |
telemedicine encounters | 35 |
patient care | 34 |
public health | 34 |
person visits | 33 |
care delivery | 33 |
social distancing | 32 |
sleep medicine | 31 |
using subspecialists | 31 |
artificial intelligence | 30 |
medical students | 30 |
telemedicine encounter | 29 |
health systems | 27 |
physical examination | 27 |
telemedicine program | 27 |
use telemedicine | 27 |
facial trauma | 26 |
virtual visit | 26 |
chronic disease | 25 |
remote monitoring | 25 |
electronic health | 25 |
clinic visits | 24 |
synchronous telemedicine | 23 |
telemedicine consultations | 23 |
subspecialty care | 23 |
telemedicine programs | 23 |
eye care | 23 |
physical exam | 22 |
kidney transplant | 22 |
medical education | 22 |
visit rates | 22 |
person visit | 21 |
mobile health | 21 |
will need | 21 |
american academy | 20 |
transplant recipients | 20 |
care providers | 20 |
virtual visits | 20 |
disease management | 20 |
clinical practice | 20 |
controlled trial | 20 |
group visits | 19 |
emergency department | 19 |
outpatient clinic | 19 |
mental health | 19 |
health insurance | 19 |
blood pressure | 19 |
health services | 19 |
care services | 19 |
telemedicine may | 19 |
clinic visit | 18 |
critical care | 18 |
clinical outcomes | 18 |
electronic medical | 18 |
care systems | 18 |
pilot study | 18 |
nursing homes | 18 |
telehealth services | 18 |
rural areas | 18 |
amyotrophic lateral | 17 |
virtual care | 17 |
machine learning | 17 |
telemedicine will | 17 |
health record | 17 |
telemedicine platform | 17 |
increase access | 17 |
chronic diseases | 17 |
retinopathy screening | 17 |
fundus photographs | 17 |
lateral sclerosis | 17 |
virtually perfect | 17 |
telemedicine implementation | 16 |
fundus photography | 16 |
forward telemedicine | 16 |
state medicaid | 16 |
smartphone otoscopy | 15 |
video consultations | 15 |
randomized controlled | 15 |
specialty care | 15 |
medical schools | 15 |
telemedicine utilization | 15 |
visual field | 15 |
may also | 15 |
poverty level | 15 |
health information | 15 |
intensive care | 15 |
healthcare delivery | 15 |
diagnostic accuracy | 14 |
telemedicine clinic | 14 |
remote patient | 14 |
sleep disorders | 14 |
medicaid programs | 14 |
remote evaluation | 14 |
telemedicine practice | 14 |
high risk | 14 |
nursing home | 14 |
prospective study | 14 |
novel coronavirus | 14 |
patients may | 14 |
risk factors | 14 |
neck surgery | 14 |
remote care | 13 |
healthcare system | 13 |
medical record | 13 |
originating site | 13 |
medicaid services | 13 |
zip code | 13 |
anterior segment | 13 |
income countries | 13 |
patient monitoring | 13 |
telemedicine training | 13 |
travel time | 13 |
telemedicine platforms | 13 |
palliative care | 13 |
medical records | 13 |
health system | 13 |
telemedicine video | 13 |
cost savings | 13 |
care system | 12 |
video visit | 12 |
refractive error | 12 |
telemedicine non | 12 |
heart failure | 12 |
authors declare | 12 |
digital technologies | 12 |
care provider | 12 |
digital health | 12 |
emergency room | 12 |
telemedicine consultation | 12 |
als patients | 12 |
new technologies | 12 |
telemedicine technology | 11 |
data protection | 11 |
elderly patients | 11 |
care unit | 11 |
visual acuity | 11 |
current covid | 11 |
used telemedicine | 11 |
health workers | 11 |
pediatric rheumatology | 11 |
sleep telemedicine | 11 |
screening program | 11 |
telemedicine tools | 11 |
health emergency | 11 |
visit times | 11 |
new technology | 11 |
telemedicine offers | 11 |
literature review | 11 |
insurance portability | 11 |
national survey | 11 |
upper extremity | 11 |
patient population | 11 |
care setting | 11 |
smart working | 11 |
among children | 11 |
improve access | 11 |
glaucoma detection | 11 |
home monitoring | 11 |
personal protective | 11 |
digital technology | 11 |
accountability act | 11 |
vital signs | 10 |
telehealth visits | 10 |
term care | 10 |
video conferencing | 10 |
utilizing telemedicine | 10 |
diabetes group | 10 |
postoperative visit | 10 |
type diabetes | 10 |
practice guidelines | 10 |
supply problems | 10 |
image quality | 10 |
protective equipment | 10 |
patient relationship | 10 |
otitis media | 10 |
healthcare providers | 10 |
diagnostic concordance | 10 |
telemedicine applications | 10 |
healthcare systems | 10 |
care workers | 10 |
person care | 10 |
virtual clinics | 10 |
text messaging | 10 |
group visit | 10 |
clinical trial | 10 |
outreach clinics | 10 |
among patients | 10 |
digital natives | 10 |
will continue | 10 |
using telehealth | 9 |
slit lamp | 9 |
face visits | 9 |
will help | 9 |
median income | 9 |
children receiving | 9 |
rapid implementation | 9 |
clinical trials | 9 |
many patients | 9 |
general practitioners | 9 |
children cared | 9 |
mobile phone | 9 |
patient safety | 9 |
transplant care | 9 |
remote consultation | 9 |
human services | 9 |
diabetic patients | 9 |
health service | 9 |
infectious disease | 9 |
adolescent health | 9 |
patient encounter | 9 |
pediatric otolaryngology | 9 |
providing care | 9 |
respiratory syndrome | 9 |
office visits | 9 |
subspecialist characteristics | 9 |
sleep apnea | 9 |
clinical care | 9 |
new patients | 9 |
see table | 9 |
task force | 9 |
rural communities | 9 |
randomized clinical | 9 |
patients using | 9 |
neovascular age | 9 |
quality care | 9 |
provide care | 9 |
healthcare workers | 9 |
medical staff | 9 |
coherence tomography | 9 |
study period | 9 |
care via | 9 |
telemedicine appointments | 9 |
person evaluation | 9 |
will likely | 9 |
patients seen | 9 |
optic disc | 8 |
color fundus | 8 |
medicare telemedicine | 8 |
clinical skills | 8 |
annual visit | 8 |
information technology | 8 |
mobile application | 8 |
technological advances | 8 |
neurosurgical patients | 8 |
limited access | 8 |
telemedicine education | 8 |
inpatient settings | 8 |
new york | 8 |
telemedicine adoption | 8 |
medicaid beneficiaries | 8 |
several studies | 8 |
synchronous video | 8 |
current pandemic | 8 |
staff members | 8 |
digital literacy | 8 |
user acceptance | 8 |
inclusion criteria | 8 |
multidisciplinary care | 8 |
telemedicine service | 8 |
patients will | 8 |
higher risk | 8 |
outpatient visits | 8 |
allergy immunology | 8 |
internet access | 8 |
dr screening | 8 |
smartphone applications | 8 |
cancer patients | 8 |
american society | 8 |
medical student | 8 |
health records | 8 |
care physicians | 8 |
race ethnicity | 8 |
person clinical | 8 |
neural networks | 8 |
reimbursement policies | 8 |
resource use | 8 |
emergency departments | 8 |
successful telemedicine | 8 |
incorporate telemedicine | 8 |
video consultation | 8 |
american telemedicine | 8 |
business schools | 8 |
glaucoma screening | 8 |
telemedicine workflow | 8 |
live video | 8 |
child race | 8 |
optical coherence | 8 |
technology acceptance | 8 |
epidemic situations | 8 |
acute respiratory | 8 |
neurological examination | 8 |
increased access | 8 |
patient portal | 8 |
study population | 8 |
infectious diseases | 8 |
issues related | 8 |
disease progression | 8 |
study design | 8 |
logistic regression | 8 |
remote consultations | 8 |
ocular conditions | 8 |
neurological exam | 7 |
also need | 7 |
medical centers | 7 |
telemedicine association | 7 |
community health | 7 |
care models | 7 |
plastic surgery | 7 |
underserved areas | 7 |
medical response | 7 |
using deep | 7 |
disease control | 7 |
technical issues | 7 |
high levels | 7 |
fact sheet | 7 |
facial plastics | 7 |
health technology | 7 |
care access | 7 |
person examination | 7 |
research studies | 7 |
improve patient | 7 |
decision making | 7 |
telemedicine care | 7 |
remote diagnosis | 7 |
learning algorithm | 7 |
nasal endoscopy | 7 |
world health | 7 |
academic medical | 7 |
may help | 7 |
primary health | 7 |
new patient | 7 |
medical professionals | 7 |
case reports | 7 |
eye diseases | 7 |
health disparities | 7 |
forward triage | 7 |
telemedicine solutions | 7 |
exclusion criteria | 7 |
interaction terms | 7 |
sleep disorder | 7 |
obstructive sleep | 7 |
telemedicine screening | 7 |
incorporating telemedicine | 7 |
receiving care | 7 |
widespread implementation | 7 |
acute stroke | 7 |
technical difficulties | 7 |
official journal | 7 |
based telemedicine | 7 |
social media | 7 |
feasibility study | 7 |
integrated care | 7 |
observational study | 7 |
severe acute | 7 |
person outreach | 7 |
telephone consultation | 7 |
regarding telemedicine | 7 |
case series | 7 |
patient experience | 7 |
face visit | 7 |
connected health | 7 |
wearable devices | 7 |
healthcare services | 7 |
facial plastic | 7 |
future pandemics | 7 |
study conducted | 7 |
radiation oncology | 7 |
lessons learned | 7 |
using subspecialist | 7 |
adopt telemedicine | 7 |
patient outcomes | 7 |
telemedicine approaches | 7 |
deliver care | 7 |
pediatric medicaid | 7 |
health administration | 7 |
telemedicine policy | 7 |
immunosuppressed patients | 7 |
long term | 6 |
otolaryngology telemedicine | 6 |
telemedicine system | 6 |
fundus camera | 6 |
across state | 6 |
medicine clinics | 6 |
general population | 6 |
technology may | 6 |
physical activity | 6 |
extremity surgery | 6 |
negative binomial | 6 |
least one | 6 |
surgical specialties | 6 |
cochlear implant | 6 |
interactive telemedicine | 6 |
postoperative telemedicine | 6 |
mydriatic fundus | 6 |
institutional review | 6 |
policy changes | 6 |
clinic appointments | 6 |
future providers | 6 |
health organization | 6 |
providing telemedicine | 6 |
studies conducted | 6 |
successful implementation | 6 |
pediatric subspecialty | 6 |
sleep technology | 6 |
otology patients | 6 |
patient privacy | 6 |
unnecessary visits | 6 |
national health | 6 |
consumer sleep | 6 |
informed consent | 6 |
average age | 6 |
digital fundus | 6 |
patients presenting | 6 |
digital images | 6 |
patient may | 6 |
chronic conditions | 6 |
otolaryngology diagnoses | 6 |
current telemedicine | 6 |
physical exams | 6 |
neck oncology | 6 |
systematic reviews | 6 |
review board | 6 |
screening programme | 6 |
telemedicine among | 6 |
infected patients | 6 |
brain injury | 6 |
regulatory changes | 6 |
clinical information | 6 |
healthcare organizations | 6 |
rapid adoption | 6 |
visit frequency | 6 |
healthcare professionals | 6 |
diabetes management | 6 |
neck cancer | 6 |
care needs | 6 |
health outcomes | 6 |
viral transmission | 6 |
position paper | 6 |
telemedicine interventions | 6 |
service delivery | 6 |
medication adherence | 6 |
telemedicine provides | 6 |
diabetes care | 6 |
clinical data | 6 |
family members | 6 |
data transmission | 6 |
clinical encounters | 6 |
older adults | 6 |
ai algorithms | 6 |
patients need | 6 |
rights reserved | 6 |
history taking | 6 |
working group | 6 |
case report | 6 |
established patients | 6 |
acceptance model | 6 |
final manuscript | 6 |
delivery systems | 6 |
health policy | 6 |
future research | 6 |
patient data | 6 |
web site | 6 |
fundus images | 6 |
trauma evaluation | 6 |
pediatric patients | 6 |
home residents | 6 |
image processing | 6 |
traumatic brain | 6 |
remote video | 6 |
syndrome coronavirus | 6 |
fundus oculus | 6 |
face contact | 6 |
children living | 6 |
temporary telemedicine | 6 |
rural health | 6 |
telemedicine coverage | 6 |
implementing telemedicine | 6 |
eligibility among | 6 |
previous research | 6 |
best practice | 6 |
provider fact | 6 |
sleep telehealth | 6 |
patients via | 6 |
concerns regarding | 6 |
data regarding | 6 |
teaching group | 6 |
time spent | 6 |
telemedicine access | 6 |
medical school | 6 |
civil rights | 6 |
improving access | 6 |
person clinic | 6 |
health centers | 6 |
randomized trial | 6 |
telemedicine across | 6 |
medical conditions | 6 |
factors associated | 6 |
waiting times | 6 |
global pandemic | 6 |
oficial da | 6 |
postoperative care | 6 |
telemedicine allows | 6 |
less likely | 6 |
telemedicine technologies | 6 |
utilize telemedicine | 6 |
viral shedding | 6 |
telemedicine eligibility | 6 |
increased use | 6 |
patient interaction | 6 |
received care | 6 |
telemedicine network | 6 |
clinical staff | 6 |
telemedicine include | 6 |
improve health | 6 |
previous studies | 6 |
characteristics associated | 6 |
medical center | 6 |
care remotely | 6 |
bulbar function | 6 |
global burden | 6 |
telehealth program | 6 |
will also | 6 |
medical practice | 5 |
current study | 5 |
coronavirus pandemic | 5 |
veterans affairs | 5 |
using store | 5 |
published maps | 5 |
twice daily | 5 |
low vision | 5 |
communication technologies | 5 |
transplant nephrologist | 5 |
clinical assessment | 5 |
heart association | 5 |
telemedicine device | 5 |
ischemic stroke | 5 |
neurosurgical telemedicine | 5 |
study found | 5 |
early experience | 5 |
initial experience | 5 |
surgical consultation | 5 |
recent studies | 5 |
must also | 5 |
pandemic date | 5 |
ent care | 5 |
review telemedicine | 5 |
outpatient telemedicine | 5 |
toward telemedicine | 5 |
convolutional neural | 5 |
table iii | 5 |
face consultation | 5 |
rural populations | 5 |
widefield fundus | 5 |
wearable technology | 5 |
medicare beneficiaries | 5 |
descriptive statistics | 5 |
examples include | 5 |
scoping review | 5 |
please see | 5 |
medical treatment | 5 |
standard care | 5 |
jurisdictional claims | 5 |
diabetes mellitus | 5 |
telehealth applications | 5 |
chronic neurological | 5 |
will provide | 5 |
particularly important | 5 |
another study | 5 |
speed internet | 5 |
transplant center | 5 |
care clinic | 5 |
avoid unnecessary | 5 |
preoperative planning | 5 |
immediate medical | 5 |
global telemedicine | 5 |
whether telemedicine | 5 |
outcome measures | 5 |
neovascular amd | 5 |
angle glaucoma | 5 |
response supplemental | 5 |
supplemental appropriations | 5 |
disease activity | 5 |
pediatric orl | 5 |
real time | 5 |
american college | 5 |
based care | 5 |
critically ill | 5 |
motor neuron | 5 |
costs associated | 5 |
early adoption | 5 |
triage patients | 5 |
allergic rhinitis | 5 |
telemedicine model | 5 |
mobile app | 5 |
glaucoma patients | 5 |
personal appointments | 5 |
elective surgeries | 5 |
intraocular pressure | 5 |
also allow | 5 |
text message | 5 |
wound care | 5 |
medical decision | 5 |
rates among | 5 |
likert scale | 5 |
within health | 5 |
natural disasters | 5 |
technical expertise | 5 |
care team | 5 |
pediatric neurosurgery | 5 |
blood glucose | 5 |
paediatric infectious | 5 |
care program | 5 |
exact matching | 5 |
among otolaryngology | 5 |
otolaryngology practice | 5 |
nonmydriatic fundus | 5 |
european association | 5 |
last years | 5 |
ebola virus | 5 |
global emergencies | 5 |
improved access | 5 |
good quality | 5 |
trained personnel | 5 |
learning system | 5 |
patient confidentiality | 5 |
provider telemedicine | 5 |
american journal | 5 |
month period | 5 |
subspecialty visits | 5 |
pulmonary disease | 5 |
cardiovascular disease | 5 |
creative commons | 5 |
identify patients | 5 |
telehealth encounters | 5 |
health conditions | 5 |
remote clinical | 5 |
accepted article | 5 |
systematic literature | 5 |
virtual health | 5 |
based approach | 5 |
multidisciplinary team | 5 |
springer nature | 5 |
urgent care | 5 |
one study | 5 |
urban areas | 5 |
clinicians may | 5 |
treat patients | 5 |
asthma control | 5 |
current crisis | 5 |
body language | 5 |
chronic respiratory | 5 |
provider encounters | 5 |
use within | 5 |
outpatient clinics | 5 |
remote medical | 5 |
limited data | 5 |
digital devices | 5 |
high level | 5 |
useful tool | 5 |
telemedicine via | 5 |
conducted using | 5 |
failure patients | 5 |
venkatesh davis | 5 |
older patients | 5 |
veterans health | 5 |
per week | 5 |
screening programs | 5 |
independent variables | 5 |
high patient | 5 |
remote guidance | 5 |
computed tomography | 5 |
ambulatory care | 5 |
obstructive pulmonary | 5 |
state lines | 5 |
remains uncertain | 5 |
federal poverty | 5 |
nursing facility | 5 |
factors influencing | 5 |
rop screening | 5 |
specific treatment | 5 |
clinical resources | 5 |
chronic obstructive | 5 |
paltc clinicians | 5 |
patient encounters | 5 |
outpatient care | 5 |
county rurality | 5 |
big data | 5 |
underserved populations | 5 |
protected health | 5 |
pulmonary rehabilitation | 5 |
years old | 5 |
patient history | 5 |
first draft | 5 |
movement disorders | 5 |
medically underserved | 5 |
minority populations | 5 |
telemedicine application | 5 |
neuron disease | 5 |
information systems | 5 |
telemedicine health | 5 |
among subspecialists | 5 |
san diego | 5 |
subspecialist visit | 5 |
healthcare staff | 5 |
airway pressure | 5 |
undergraduate medical | 5 |
people living | 5 |
telemedicine fit | 5 |
code median | 5 |
records system | 5 |
procedural terminology | 5 |
free flap | 5 |
remains neutral | 5 |
provide telemedicine | 5 |
stroke care | 5 |
base stations | 5 |
cost analysis | 5 |
american heart | 5 |
medicare medicaid | 5 |
telephone visits | 5 |
many countries | 5 |
telehealth implementation | 5 |
teaching physician | 5 |
face consultations | 5 |
western australia | 5 |
qualitative study | 5 |
first postoperative | 5 |
coronavirus preparedness | 5 |
retinal photography | 5 |
clinical needs | 5 |
performed using | 5 |
forward approach | 5 |
versus telemedicine | 5 |
positive airway | 5 |
appropriations act | 5 |
head neck | 5 |
digital innovations | 5 |
medicare advantage | 5 |
pandemic response | 5 |
medical attention | 5 |
may allow | 5 |
note springer | 5 |
postoperative visits | 5 |
nature remains | 5 |
medical practitioner | 5 |
health professionals | 5 |
medical subspecialties | 5 |
statistically significant | 5 |
adjusted visit | 5 |
may require | 5 |
integration within | 5 |
next generation | 5 |
state medical | 5 |
patients reported | 5 |
maintaining quality | 5 |
table i | 5 |
care across | 5 |
using technology | 5 |
plain radiographs | 5 |
routine clinical | 5 |
care visits | 5 |
randomised controlled | 5 |
institutional affiliations | 5 |
staff will | 5 |
will remain | 5 |
worth noting | 5 |
care units | 4 |
economic evaluation | 4 |
geographic barriers | 4 |
robust standard | 4 |
impending fracture | 4 |
cancer care | 4 |
geographic restrictions | 4 |
telehealth training | 4 |
access issues | 4 |
via video | 4 |
health data | 4 |
neurosurgical consultation | 4 |
patient follow | 4 |
urological practice | 4 |
fiber layer | 4 |
next step | 4 |
support telemedicine | 4 |
regional telemedicine | 4 |
uninterrupted follow | 4 |
telemedicine helped | 4 |
also used | 4 |
per year | 4 |
health status | 4 |
transportation barriers | 4 |
healthcare provider | 4 |
implement telemedicine | 4 |
many state | 4 |
south africa | 4 |
may include | 4 |
provide students | 4 |
significant differences | 4 |
unmet need | 4 |
results demonstrate | 4 |
care professionals | 4 |
remote screening | 4 |
prolonged viral | 4 |
procedures using | 4 |
telemedicine continues | 4 |
use among | 4 |
important part | 4 |
patients undergoing | 4 |
internet service | 4 |
voice therapy | 4 |
stroke scale | 4 |
legal framework | 4 |
health equity | 4 |
virus transmission | 4 |
new telemedicine | 4 |
addressing equity | 4 |
technical support | 4 |
previously reported | 4 |
neurosurgical services | 4 |
developing countries | 4 |
persistently positive | 4 |
current sars | 4 |
video platforms | 4 |
billed using | 4 |
positive relationship | 4 |
disease patients | 4 |
telemedicine versus | 4 |
medical fields | 4 |
geographic variables | 4 |
immunology clinicians | 4 |
technology adoption | 4 |
disease study | 4 |
point likert | 4 |
polymerase chain | 4 |
qualified health | 4 |
large metropolitan | 4 |
different locations | 4 |
seizure frequency | 4 |
driving restrictions | 4 |
transfer triage | 4 |
pediatric applications | 4 |
patient access | 4 |
visits will | 4 |
specialized epilepsy | 4 |
sierra leone | 4 |
medical provider | 4 |
medical needs | 4 |
emergency care | 4 |
pilot project | 4 |
tavares oliveira | 4 |
postoperative follow | 4 |
reconstructive surgery | 4 |
visits may | 4 |
care using | 4 |
adjusted annual | 4 |
alternative form | 4 |
telemedicine environment | 4 |
facial injuries | 4 |
person months | 4 |
may prefer | 4 |
contact tracing | 4 |
medical visits | 4 |
solid organ | 4 |
cohort study | 4 |
comparing telemedicine | 4 |
person office | 4 |
telephone calls | 4 |
national screening | 4 |
congregate settings | 4 |
surgical subspecialists | 4 |
asynchronous telemedicine | 4 |
situation corresponds | 4 |
week period | 4 |
rural settings | 4 |
evaluation using | 4 |
healthcare service | 4 |
various aspects | 4 |
viral load | 4 |
seen via | 4 |
physical distancing | 4 |
nutritional status | 4 |
fundus imaging | 4 |
based tele | 4 |
mobile technologies | 4 |
socioeconomic status | 4 |
standardized patient | 4 |
surgery patients | 4 |
payment parity | 4 |
may limit | 4 |
also required | 4 |
clinical support | 4 |
hospital outpatient | 4 |
gold standard | 4 |
triaging patients | 4 |
next decade | 4 |
pandemic will | 4 |
laboratory testing | 4 |
zoom video | 4 |
patient visit | 4 |
many telemedicine | 4 |
recent years | 4 |
physician satisfaction | 4 |
american medical | 4 |
driven activity | 4 |
commonly used | 4 |
care facilities | 4 |
psychological support | 4 |
automated detection | 4 |
must adhere | 4 |
neurological diseases | 4 |
enforcement discretion | 4 |
vision impairment | 4 |
st century | 4 |
side effects | 4 |
tertiary care | 4 |
bowel disease | 4 |
glaucoma virtual | 4 |
making telemedicine | 4 |
existing clinical | 4 |
time savings | 4 |
hurricane katrina | 4 |
systems will | 4 |
telemedicine reimbursement | 4 |
via synchronous | 4 |
routine practice | 4 |
transplant patients | 4 |
retrospective analysis | 4 |
medicare patients | 4 |
statistical analysis | 4 |
medical licensure | 4 |
care centers | 4 |
widespread adoption | 4 |
neuropsychological test | 4 |
using versus | 4 |
across different | 4 |
organ transplant | 4 |
plus disease | 4 |
consulting physician | 4 |
patient education | 4 |
patient characteristics | 4 |
nerve fiber | 4 |
telemedicine facilities | 4 |
imaging tests | 4 |
care telemedicine | 4 |
insurance coverage | 4 |
screening process | 4 |
mobile technology | 4 |
inspector general | 4 |
telehealth platforms | 4 |
clinical management | 4 |
standard errors | 4 |
single center | 4 |
via telephone | 4 |
consumer telemedicine | 4 |
will pay | 4 |
visit due | 4 |
coded using | 4 |
clinical presentation | 4 |
global prevalence | 4 |
specialist care | 4 |
invasive ventilation | 4 |
wait time | 4 |
service providers | 4 |
regular basis | 4 |
health devices | 4 |
neurosurgical subspecialties | 4 |
literature search | 4 |
person outpatient | 4 |
expanded use | 4 |
may benefit | 4 |
glaucoma visual | 4 |
asymptomatic individuals | 4 |
sleep clinicians | 4 |
even though | 4 |
current use | 4 |
remote delivery | 4 |
privacy concerns | 4 |
early detection | 4 |
within orl | 4 |
zip codes | 4 |
telehealth use | 4 |
make sure | 4 |
outpatient setting | 4 |
help increase | 4 |
significant difference | 4 |
mg dl | 4 |
cataract surgery | 4 |
prematurity screening | 4 |
pediatric telehealth | 4 |
identified telemedicine | 4 |
visit type | 4 |
university hospital | 4 |
fee schedule | 4 |
clinical exclusion | 4 |
visit time | 4 |
ulcerative colitis | 4 |
positive impact | 4 |
clinical services | 4 |
electronic stethoscope | 4 |
subspecialty telemedicine | 4 |
pediatric trained | 4 |
broad range | 4 |
telephone call | 4 |
neck surg | 4 |
eye disease | 4 |
health worker | 4 |
management codes | 4 |
baseline demographics | 4 |
work group | 4 |
national institutes | 4 |
longer term | 4 |
health education | 4 |
payment policies | 4 |
overall health | 4 |
retinal disease | 4 |
many health | 4 |
inperson visit | 4 |
among others | 4 |
physicians using | 4 |
vulnerable populations | 4 |
general practitioner | 4 |
within state | 4 |
help improve | 4 |
lamp examination | 4 |
patient telehealth | 4 |
terms together | 4 |
person assessment | 4 |
remote health | 4 |
fundus cameras | 4 |
controlled trials | 4 |
traditional workflow | 4 |
surgical care | 4 |
record system | 4 |
increased likelihood | 4 |
telemedicine task | 4 |
health literacy | 4 |
improving patient | 4 |
automated perimetry | 4 |
telemedicine glaucoma | 4 |
live interactive | 4 |
medical devices | 4 |
daily practice | 4 |
medical field | 4 |
nationwide public | 4 |
will become | 4 |
current procedural | 4 |
phone call | 4 |
national telemedicine | 4 |
remote areas | 4 |
various medical | 4 |
otology visits | 4 |
otoscopy recordings | 4 |
also allows | 4 |
cell phone | 4 |
field progression | 4 |
respiratory diseases | 4 |
video telemedicine | 4 |
sectional study | 4 |
inner ear | 4 |
children identified | 4 |
equal access | 4 |
human graders | 4 |
transplant centers | 4 |
deliver high | 4 |
vocal rehabilitation | 4 |
physical location | 4 |
virus disease | 4 |
telemedicine providers | 4 |
image assessment | 4 |
transplant surgeons | 4 |
person encounters | 4 |
licensure requirements | 4 |
travel burden | 4 |
cost effectiveness | 4 |
healthcare facilities | 4 |
telemedicine vs | 4 |
healthcare facility | 4 |
inflammatory bowel | 4 |
visual fields | 4 |
optic nerve | 4 |
factors affecting | 4 |
based costing | 4 |
seizure types | 4 |
even beyond | 4 |
response rate | 4 |
case study | 4 |
sample size | 4 |
retinal nerve | 4 |
referent group | 4 |
face evaluation | 4 |
infection risk | 4 |
medical association | 4 |
pediatric population | 4 |
patients must | 4 |
position statement | 4 |
performed remotely | 4 |
clinician experience | 4 |
chain reaction | 4 |
remote telemedicine | 4 |
accept telemedicine | 4 |
also described | 4 |
telemedicine also | 4 |
virtual medicine | 4 |
bleeding disorders | 4 |
pediatric care | 4 |
telemedicine equipment | 4 |
upper respiratory | 4 |
pediatric primary | 3 |
outpatient visit | 3 |
anatomic subsite | 3 |
telemedicine physical | 3 |
programs using | 3 |
covering telehealth | 3 |
health professional | 3 |
recommended threshold | 3 |
health domain | 3 |
patient interactions | 3 |
lectures covering | 3 |
southeast louisiana | 3 |
case definition | 3 |
comprehensive telemedicine | 3 |
ilae commission | 3 |
staff must | 3 |
major telemedicine | 3 |
community hospitals | 3 |
explore major | 3 |
digital retinal | 3 |
unnecessary exposure | 3 |
financial relationships | 3 |
digital revolution | 3 |
data management | 3 |
amount saved | 3 |
first step | 3 |
remote assessment | 3 |
immunocompromised patients | 3 |
disaster management | 3 |
donor corneas | 3 |
toward remote | 3 |
delayed teaching | 3 |
improved patient | 3 |
external eye | 3 |
study group | 3 |
available technologies | 3 |
indirect ophthalmoscopy | 3 |
binomial regression | 3 |
inclinic visit | 3 |
underserved rural | 3 |
global health | 3 |
infection rates | 3 |
perceived ease | 3 |
health science | 3 |
ongoing care | 3 |
emergent medical | 3 |
telemedicine capabilities | 3 |
quality improvement | 3 |
epilepsy outpatient | 3 |
transplant programs | 3 |
protection regulation | 3 |
health crisis | 3 |
minimally trained | 3 |
beyond date | 3 |
research network | 3 |
gt modifier | 3 |
maintain essential | 3 |
teleophthalmology services | 3 |
au cas | 3 |
th generation | 3 |
maxillofacial trauma | 3 |
new way | 3 |
preferred reporting | 3 |
term conditions | 3 |
patient must | 3 |
among health | 3 |
coding guidance | 3 |
virtual clinic | 3 |
patients included | 3 |
medical providers | 3 |
alaska experience | 3 |
team complaining | 3 |
primary healthcare | 3 |
patient populations | 3 |
past decade | 3 |
different business | 3 |
may lead | 3 |
video telehealth | 3 |
home telemedicine | 3 |
body mass | 3 |
otoscopy performed | 3 |
cardiovascular risk | 3 |
technology usage | 3 |
scale implementation | 3 |
medical evaluation | 3 |
potential disparities | 3 |
one hand | 3 |
policy statement | 3 |
may provide | 3 |
dry cough | 3 |
referral centers | 3 |
technology failure | 3 |
current scenario | 3 |
less frequently | 3 |
continuous positive | 3 |
clinical use | 3 |
may become | 3 |
inpatient care | 3 |
hipaa compliance | 3 |
glaucomatous visual | 3 |
using mobile | 3 |
emergency services | 3 |
telemedicine might | 3 |
controlled substances | 3 |
medical boards | 3 |
adolescent medicine | 3 |
baseline characteristics | 3 |
regulatory oversight | 3 |
telemedicine domains | 3 |
telehealth service | 3 |
provide remote | 3 |
novel use | 3 |
care offices | 3 |
close contact | 3 |
care homes | 3 |
contact information | 3 |
toface visit | 3 |
revert back | 3 |
epilepsy care | 3 |
feasibility studies | 3 |
virus ebola | 3 |
electronic patient | 3 |
improve asthma | 3 |
telehealth history | 3 |
health management | 3 |
urban settings | 3 |
require continuous | 3 |
coordinator via | 3 |
exception rather | 3 |
take advantage | 3 |
exposure risks | 3 |
service telemedicine | 3 |
limited information | 3 |
kaiser permanente | 3 |
minutes vs | 3 |
tumor board | 3 |
glaucoma based | 3 |
medicare telehealth | 3 |
clinician experiences | 3 |
health support | 3 |
experience emphasizes | 3 |
telemedicine exam | 3 |
work remotely | 3 |
robust evidence | 3 |
one important | 3 |
telehealth system | 3 |
computer screen | 3 |
medical specialties | 3 |
epilepsy center | 3 |
comprehensive telerehabilitation | 3 |
nationwide analysis | 3 |
pandemic health | 3 |
standard automated | 3 |
general data | 3 |
current emergency | 3 |
encounter success | 3 |
glycemic control | 3 |
contact list | 3 |
using five | 3 |
immediate teaching | 3 |
data analysis | 3 |
oncology department | 3 |
overall use | 3 |
conselho federal | 3 |
role telemedicine | 3 |
initial screening | 3 |
patient portals | 3 |
detecting glaucomatous | 3 |
acceptability study | 3 |
patient engagement | 3 |
person evaluations | 3 |
healthcare outcomes | 3 |
perspective date | 3 |
data acquisition | 3 |
comparative study | 3 |
treatment compliance | 3 |
statistical significance | 3 |
densely populated | 3 |
socioeconomic barriers | 3 |
surgical intervention | 3 |
reporting items | 3 |
hospital staff | 3 |
pandemic influenza | 3 |
specific diagnosis | 3 |
personal innovativeness | 3 |
major barrier | 3 |
patient information | 3 |
travel burdens | 3 |
prospective randomized | 3 |
medical appointments | 3 |
care environment | 3 |
treatment outcomes | 3 |
will increase | 3 |
successfully utilized | 3 |
studies within | 3 |
medical practitioners | 3 |
younger patients | 3 |
tympanostomy tube | 3 |
retinal diseases | 3 |
broadband connections | 3 |
technological innovations | 3 |
asynchronous care | 3 |
weight loss | 3 |
icu committee | 3 |
chronic ocular | 3 |
allow telemedicine | 3 |
learning vehicles | 3 |
respiratory specimens | 3 |
limited examination | 3 |
visits completed | 3 |
appointment priority | 3 |
disease outbreak | 3 |
reduce clinic | 3 |
study include | 3 |
monitoring patients | 3 |
may find | 3 |
existing data | 3 |
patient management | 3 |
best care | 3 |
digital champions | 3 |
potential applications | 3 |
must consider | 3 |
future use | 3 |
video camera | 3 |
best suited | 3 |
united nations | 3 |
dr diagnosis | 3 |
age group | 3 |
personal data | 3 |
telemedicine approach | 3 |
remote triage | 3 |
without specific | 3 |
one patient | 3 |
verbal consent | 3 |
virtual consultation | 3 |
synchronous otolaryngology | 3 |
level random | 3 |
made available | 3 |
presenting complaint | 3 |
cost telemedicine | 3 |
one way | 3 |
table ii | 3 |
organ procurement | 3 |
high sensitivity | 3 |
access among | 3 |
telemedicine evaluations | 3 |
telemedicine activities | 3 |
hospitalized patients | 3 |
visit patterns | 3 |
referral centre | 3 |
century cures | 3 |
based teleophthalmology | 3 |
services including | 3 |
hospital access | 3 |
stroke doc | 3 |
search terms | 3 |
ethnic disparities | 3 |
center head | 3 |
hospital system | 3 |
monitoring system | 3 |
augmented reality | 3 |
dry eye | 3 |
clinical experiences | 3 |
increased seizure | 3 |
epidemic situation | 3 |
clinical video | 3 |
ear surgery | 3 |
following head | 3 |
human resources | 3 |
research model | 3 |
one year | 3 |
implemented telemedicine | 3 |
insurance plan | 3 |
heart rate | 3 |
surgical collaboration | 3 |
perceived usefulness | 3 |
facilitated visit | 3 |
covered telemedicine | 3 |
exudative age | 3 |
diagnostic reliability | 3 |
regulatory barriers | 3 |
unique challenges | 3 |
hhs office | 3 |
medical history | 3 |
subspecialist visits | 3 |
sleep clinics | 3 |
hospital admission | 3 |
call may | 3 |
travel distance | 3 |
standard deviation | 3 |
across specialties | 3 |
glaucoma suspect | 3 |
phone calls | 3 |
transplant coordinator | 3 |
electronic consultations | 3 |
time barriers | 3 |
disease detection | 3 |
visits per | 3 |
state telehealth | 3 |
temporarily relaxed | 3 |
prematurity using | 3 |
prior experience | 3 |
synchronous technology | 3 |
usual care | 3 |
case management | 3 |
allied health | 3 |
treatment project | 3 |
clinicians need | 3 |
quality payment | 3 |
future encounters | 3 |
identifying telemedicine | 3 |
considered eligible | 3 |
many sleep | 3 |
making process | 3 |
may inform | 3 |
established visits | 3 |
general supply | 3 |
multiple testing | 3 |
study demonstrated | 3 |
asynchronous lectures | 3 |
current literature | 3 |
important changes | 3 |
specific information | 3 |
travel costs | 3 |
secure encrypted | 3 |
telemedicine projects | 3 |
electronic information | 3 |
patient acceptance | 3 |
cosmetic surgery | 3 |
post covid | 3 |
digital innovation | 3 |
free tissue | 3 |
targeted population | 3 |
pediatric cardiology | 3 |
medicaid program | 3 |
verbal communication | 3 |
hybrid comprehensive | 3 |
assisted neurotology | 3 |
grade fever | 3 |
virtual video | 3 |
person interaction | 3 |
clinic postoperative | 3 |
remote management | 3 |
natural history | 3 |
survey conducted | 3 |
katrina southeast | 3 |
clinical study | 3 |
care consumers | 3 |
time period | 3 |
coarsened exact | 3 |
specific medical | 3 |
reach patients | 3 |
using ai | 3 |
patient age | 3 |
categorical variables | 3 |
pay attention | 3 |
shift toward | 3 |
found telemedicine | 3 |
resourced settings | 3 |
patient consultation | 3 |
without access | 3 |
physically located | 3 |
patients remotely | 3 |
federal communications | 3 |
technological tools | 3 |
new normal | 3 |
telehealth adoption | 3 |
using video | 3 |
west africa | 3 |
musculoskeletal system | 3 |
telemedicine presents | 3 |
neurosurgery telemedicine | 3 |
clinical history | 3 |
focal epilepsy | 3 |
synchronous care | 3 |
ill patients | 3 |
acute care | 3 |
care practices | 3 |
cleveland clinic | 3 |
data sharing | 3 |
time frame | 3 |
equipment costs | 3 |
rapidly evolving | 3 |
save lives | 3 |
interaction term | 3 |
earlier detection | 3 |
screening devices | 3 |
academic health | 3 |
nasal fractures | 3 |
evolving health | 3 |
monitoring device | 3 |
telehealth remote | 3 |
mass index | 3 |
often used | 3 |
mhealth applications | 3 |
incident risk | 3 |
data collected | 3 |
based telehealth | 3 |
assessing patients | 3 |
project echo | 3 |
middle ear | 3 |
supervised standardized | 3 |
seven key | 3 |
service transformation | 3 |
unclear whether | 3 |
ethical approval | 3 |
clinical settings | 3 |
hospital frankfurt | 3 |
otolaryngology field | 3 |
eligibility category | 3 |
inpatient visits | 3 |
scale telemedicine | 3 |
prior studies | 3 |
clinical workflow | 3 |
cures act | 3 |
referral center | 3 |
telemedical stroke | 3 |
significant impact | 3 |
many centers | 3 |
care settings | 3 |
usability questionnaire | 3 |
trained health | 3 |
detect covid | 3 |
spine patients | 3 |
telemedicine team | 3 |
declining telemedicine | 3 |
virtual consultations | 3 |
behavioral health | 3 |
surgical procedures | 3 |
transplant recipient | 3 |
future health | 3 |
telehealth approaches | 3 |
time video | 3 |
providers via | 3 |
delayed diagnosis | 3 |
encounters conducted | 3 |
pandemic period | 3 |
wireless internet | 3 |
telehealth visit | 3 |
york presbyterian | 3 |
diagnostic therapeutic | 3 |
care outcomes | 3 |
observational studies | 3 |
retinal imaging | 3 |
rapid expansion | 3 |
united kingdom | 3 |
nat tests | 3 |
technology among | 3 |
require ongoing | 3 |
important role | 3 |
philadelphia telemedicine | 3 |
time teleophthalmology | 3 |
pediatric subspecialists | 3 |
narrative synthesis | 3 |
telemedicine systems | 3 |
right femur | 3 |
networks will | 3 |
glaucoma diagnosis | 3 |
medical equipment | 3 |
telemedicine refers | 3 |
sufficient technical | 3 |
cardiac rehabilitation | 3 |
communications commission | 3 |
regional health | 3 |
protecting patients | 3 |
telemedicine initiatives | 3 |
young adults | 3 |
vision network | 3 |
surgery experience | 3 |
uk government | 3 |
potential benefits | 3 |
retinal detachment | 3 |
rpm programs | 3 |
treatment adherence | 3 |
covid pandemic | 3 |
outpatient departments | 3 |
may reduce | 3 |
evidence base | 3 |
remote communications | 3 |
surgical management | 3 |
remote patients | 3 |
video calls | 3 |
health companies | 3 |
improved understanding | 3 |
office consultation | 3 |
clinical visit | 3 |
integrated health | 3 |
cardiology clinic | 3 |
language barrier | 3 |
neck free | 3 |
paltc practitioners | 3 |
medical educators | 3 |
core telemedicine | 3 |
specific questions | 3 |
across various | 3 |
acute ischemic | 3 |
person contact | 3 |
evolving telemedicine | 3 |
patients living | 3 |
many states | 3 |
hns recommendation | 3 |
center frankfurt | 3 |
examined telemedicine | 3 |
managed using | 3 |
endoscopic sinus | 3 |
nursing care | 3 |
third party | 3 |
technology must | 3 |
among pediatric | 3 |
socially distance | 3 |
medicare will | 3 |
prematurity telemedicine | 3 |
future doctors | 3 |
care medicine | 3 |
heart rhythm | 3 |
rating scale | 3 |
res doi | 3 |
interstate medical | 3 |
troubleshooting contact | 3 |
helped assess | 3 |
patients often | 3 |
widespread use | 3 |
telehealth usability | 3 |
previously described | 3 |
often helpful | 3 |
using plain | 3 |
emergency medical | 3 |
readily available | 3 |
service users | 3 |
structural barriers | 3 |
single surgeon | 3 |
care plans | 3 |
practical recommendations | 3 |
professional practice | 3 |
clinic setting | 3 |
responding programs | 3 |
technology will | 3 |
also supports | 3 |
high diagnostic | 3 |
person versus | 3 |
nucleic acid | 3 |
stratified negative | 3 |
oral contraception | 3 |
pilot program | 3 |
years ago | 3 |
personal computer | 3 |
colleagues published | 3 |
cpt codes | 3 |
liver disease | 3 |
provider satisfaction | 3 |
telemedicine must | 3 |
search strings | 3 |
screening programmes | 3 |
help medical | 3 |
important consideration | 3 |
continue providing | 3 |
decreases visit | 3 |
will require | 3 |
neurological disease | 3 |
effect size | 3 |
cpap adherence | 3 |
medical facility | 3 |
clinical evaluation | 3 |
line distance | 3 |
secure data | 3 |
effective screening | 3 |
payment program | 3 |
allows clinicians | 3 |
methods review | 3 |
technical quality | 3 |
table vi | 3 |
eye screening | 3 |
see patients | 3 |
laryngoscope doi | 3 |
metropolitan counties | 3 |
mild headache | 3 |
reimbursement barriers | 3 |
patient considerations | 3 |
initially identified | 3 |
offer telemedicine | 3 |
per day | 3 |
improve healthcare | 3 |
nearest hospital | 3 |
postoperative evaluation | 3 |
philadelphia glaucoma | 3 |
study staff | 3 |
highly variable | 3 |
immediate telemedicine | 3 |
baseline clinical | 3 |
year medical | 3 |
attitudes toward | 3 |
clinical examination | 3 |
sinus surgery | 3 |
recently launched | 3 |
ophthalmic digital | 3 |
competing interests | 3 |
hydroxychloroquine mg | 3 |
patient preferences | 3 |
specific telemedicine | 3 |
patients prior | 3 |
various telemedicine | 3 |
screening results | 3 |
patient travel | 3 |
regulatory bodies | 3 |
emergency response | 3 |
technological innovation | 3 |
monitor progression | 3 |
community healthcare | 3 |
using storeand | 3 |
intestinal transplant | 3 |
cvd patients | 3 |
telemedicine robot | 3 |
patient convenience | 3 |
day per | 3 |
child age | 3 |
first time | 3 |
compliant video | 3 |
communication technology | 3 |
otolaryngology patients | 3 |
visit rate | 3 |
pandemic telemedicine | 3 |
based fundus | 3 |
students explore | 3 |
highly satisfied | 3 |
tools available | 3 |
vision loss | 3 |
resilience program | 3 |
association american | 3 |
fraction treatment | 3 |
practice recommendations | 3 |
health monitoring | 3 |
therapeutic procedures | 3 |
assess fidelity | 3 |
barriers may | 3 |
using logistic | 3 |
experience using | 3 |
language barriers | 3 |
iris nevi | 3 |
insurance type | 3 |
lower cost | 3 |
national policy | 3 |
knee pain | 3 |
versus non | 3 |
clinical applications | 3 |
validation study | 3 |
health problem | 3 |
important considerations | 3 |
transplant team | 3 |
administrative staff | 3 |
surgical patients | 3 |
physical therapy | 3 |
practical tips | 3 |
clinical operations | 3 |
tablet device | 3 |
modified workflow | 3 |
internet connection | 3 |
home vital | 3 |
postponed face | 3 |
electronic consultation | 3 |
limit patient | 3 |
overall quality | 3 |
smartphone ophthalmoscopy | 3 |
patient undergoing | 3 |
outpatient medical | 3 |
receive telemedicine | 3 |
rapid technological | 3 |
care kidney | 3 |
perceived value | 3 |
three patients | 3 |
essential health | 3 |
reduce unnecessary | 3 |
developed countries | 3 |
health applications | 3 |
data security | 3 |
allopathic schools | 3 |
face treatment | 3 |
software platforms | 3 |
monitoring programs | 3 |
stroke association | 3 |
receiving subspecialty | 3 |
twice weekly | 3 |
significantly associated | 3 |
first two | 3 |
otolaryngology care | 3 |
using patient | 3 |
clinic staff | 3 |
spanish speaking | 3 |
telemedicine within | 3 |
diabetic eye | 3 |
based study | 3 |
telecommunications technology | 3 |
new models | 3 |
care facility | 3 |
scheduled visit | 3 |
tissue transfer | 3 |
patients declining | 3 |
distancing guidelines | 3 |
five years | 3 |
patient demographics | 3 |
retinal fundus | 3 |
seek immediate | 3 |
child geographic | 3 |
health problems | 3 |
quality images | 3 |
frankfurt rhine | 3 |
patients affected | 3 |
rapidly converting | 3 |
acute otitis | 3 |
telehealth equipment | 3 |
active epilepsy | 3 |
local regulations | 3 |
severe covid | 3 |
predictive power | 3 |
time telemedicine | 3 |
telemedicine curricula | 3 |
higher level | 3 |
individual believes | 3 |
rural nursing | 3 |
haemophilia management | 3 |
far away | 3 |
burdens associated | 3 |
reduce exposure | 3 |
telemedicine policies | 3 |
team meetings | 3 |
direct observation | 3 |
individual state | 3 |
exposure risk | 3 |
severe disease | 3 |
flap monitoring | 3 |
triage settings | 3 |
unnecessary transfers | 3 |
positive nat | 3 |
final diagnosis | 3 |
center experience | 3 |
mean age | 3 |
commons licence | 3 |
term outcome | 3 |
visits integrated | 3 |
additional information | 3 |
managed care | 3 |
system resilience | 3 |
work environment | 3 |
continued use | 3 |
binomial models | 3 |
common reason | 3 |
learning classifier | 3 |
functional neurosurgery | 3 |
ongoing monitoring | 3 |
remote site | 3 |
test results | 3 |
following learning | 3 |
geographically remote | 3 |
commercial payers | 3 |
deep convolutional | 3 |
visits compared | 3 |
leveraging telemedicine | 3 |
supplemental oxygen | 3 |
national emergency | 3 |
virtual exam | 3 |
may improve | 3 |
effective method | 3 |
another important | 3 |
via telehealth | 3 |
medical resources | 3 |
european countries | 3 |
telemedicine studies | 3 |
learning algorithms | 3 |
providers need | 3 |
appendix table | 3 |
eye study | 3 |
effective use | 3 |
elective neurosurgery | 3 |
skin cancer | 3 |
although telemedicine | 3 |
limited patient | 3 |
retrospective study | 3 |
medical information | 3 |
emergency situations | 3 |
licensure compact | 3 |
use technology | 3 |
save time | 3 |
geographic location | 3 |
clinician may | 3 |
management services | 3 |
nerve head | 3 |
telehealth intervention | 3 |
recent study | 3 |
american stroke | 3 |
us department | 3 |
predictive margins | 3 |
image analysis | 3 |
increasing telemedicine | 3 |
large number | 3 |
emergency declaration | 3 |
mainly due | 3 |
long way | 3 |
remote physician | 3 |
facial analysis | 3 |
patient continuity | 3 |
satisfaction rates | 3 |
acid test | 3 |
diabetes self | 3 |
following day | 3 |
standard fundus | 3 |
reprogram consortium | 3 |
routine care | 3 |
communications technologies | 2 |
encounter times | 2 |
patient will | 2 |
urgent medical | 2 |
rater reproducibility | 2 |
integrate data | 2 |
laboratory values | 2 |
telehealth laws | 2 |
care capacity | 2 |
low threshold | 2 |
cancer pathway | 2 |
capture images | 2 |
telemedicine using | 2 |
based referral | 2 |
also known | 2 |
workforce shortage | 2 |
home sleep | 2 |
segment conditions | 2 |
level factors | 2 |
uncertainty due | 2 |
services task | 2 |
education using | 2 |
exam coding | 2 |
healthcare utilisation | 2 |
frontline health | 2 |
greater benefit | 2 |
still poor | 2 |
patients rated | 2 |
similar results | 2 |
sw zp | 2 |
vegf injections | 2 |
data available | 2 |
person health | 2 |
preferred telemedicine | 2 |
surg doi | 2 |
attitude toward | 2 |
among diabetic | 2 |
management plan | 2 |
patients typically | 2 |
remote physical | 2 |
since telemedicine | 2 |
refugee camp | 2 |
preliminary data | 2 |
exam findings | 2 |
telemedicine beyond | 2 |
screening diabetic | 2 |
week hybrid | 2 |
care clinicians | 2 |
reperfusion treatment | 2 |
services cpt | 2 |
going forward | 2 |
european health | 2 |
per patient | 2 |
experience virtual | 2 |
model explains | 2 |
eye contact | 2 |
based diagnostic | 2 |
telemedicine setting | 2 |
provide timely | 2 |
study development | 2 |
smartphone based | 2 |
consultations rather | 2 |
corrected visual | 2 |
widefield digital | 2 |
covered entities | 2 |
requirements gradually | 2 |
million beneficiaries | 2 |
critical situations | 2 |
elective courses | 2 |
reducing unnecessary | 2 |
stereo slit | 2 |
pandemic crisis | 2 |
passive model | 2 |
adverse effects | 2 |
sensitive information | 2 |
reduced missed | 2 |
live videoconference | 2 |
virtual waiting | 2 |
care management | 2 |
glucose logs | 2 |
patients indicated | 2 |
similar findings | 2 |
social affairs | 2 |
educational tool | 2 |
current coronavirus | 2 |
national emergencies | 2 |
regulatory environment | 2 |
based scenarios | 2 |
benefit analysis | 2 |
order forced | 2 |
based mobile | 2 |
glaucoma management | 2 |
compare travel | 2 |
pew research | 2 |
extremity telemedicine | 2 |
individuals identified | 2 |
telemedicine regulations | 2 |
short time | 2 |
requiring immediate | 2 |
developing world | 2 |
refractive assessment | 2 |
may serve | 2 |
apps platform | 2 |
outbreak date | 2 |
initial increase | 2 |
virtual icu | 2 |
resolution images | 2 |
video interaction | 2 |
care must | 2 |
perspective telemedicine | 2 |
one telemedicine | 2 |
high uptake | 2 |
current state | 2 |
study showed | 2 |
treatment centers | 2 |
maintain access | 2 |
provider met | 2 |
ongoing seizures | 2 |
laboratory findings | 2 |
supplementary table | 2 |
health community | 2 |
real management | 2 |
decreases travel | 2 |
jrmott i | 2 |
automatic diagnosis | 2 |
le virus | 2 |
repeated medications | 2 |
provide quality | 2 |
sas institute | 2 |
higher frequency | 2 |
might require | 2 |
digital photography | 2 |
reimburse telehealth | 2 |
remote decision | 2 |
study published | 2 |
urban pediatric | 2 |
public market | 2 |
individuals screened | 2 |
front office | 2 |
nonabsorbable suture | 2 |
clinic workflow | 2 |
person free | 2 |
will still | 2 |
call centers | 2 |
childhood myositis | 2 |
time visit | 2 |
visits via | 2 |
learning classifiers | 2 |
billing regulations | 2 |
better suited | 2 |
outpatient services | 2 |
clinical benefits | 2 |
community perspectives | 2 |
acute ocular | 2 |
peripheral devices | 2 |
poor prognosis | 2 |
haemophilia treatment | 2 |
met inclusion | 2 |
decreases healthcare | 2 |
following septoplasty | 2 |
management education | 2 |
individual study | 2 |
significantly increase | 2 |
ophthalmic diseases | 2 |
transforms health | 2 |
infected patient | 2 |
using ultra | 2 |
complementary tools | 2 |
sleep clinician | 2 |
inpatient admission | 2 |
short term | 2 |
furnished via | 2 |
use increased | 2 |
included patients | 2 |
flap checks | 2 |
baseline creatinine | 2 |
research regarding | 2 |
patient histories | 2 |
address concerns | 2 |
risk due | 2 |
ongoing support | 2 |
medical services | 2 |
privacy concern | 2 |
specific technology | 2 |
subspecialists caring | 2 |
significant associations | 2 |
en cas | 2 |
medical acts | 2 |
areas without | 2 |
specific issues | 2 |
rapid rollout | 2 |
disease specialist | 2 |
effective implementation | 2 |
hospital care | 2 |
training physicians | 2 |
ventilation decreases | 2 |
telemedicine means | 2 |
high potential | 2 |
home capability | 2 |
transfer system | 2 |
improve communication | 2 |
ihr emergency | 2 |
nonurgent pediatric | 2 |
single person | 2 |
cardiac telerehabilitation | 2 |
also confirmed | 2 |
continuous variables | 2 |
forward technology | 2 |
longitudinal visual | 2 |
cardiac involvement | 2 |
original responding | 2 |
english language | 2 |
may exacerbate | 2 |
google hangouts | 2 |
clinical complications | 2 |
initial virtual | 2 |
consultation via | 2 |
networks impact | 2 |
corona virus | 2 |
financial officer | 2 |
versus human | 2 |
visits coded | 2 |
comprehensive care | 2 |
concerns raised | 2 |
expanded access | 2 |
ambulatory medical | 2 |
included studies | 2 |
existing technologies | 2 |
completed using | 2 |
urology clinic | 2 |
inpatient rehabilitation | 2 |
virtual telemedicine | 2 |
online resources | 2 |
considered significant | 2 |
symptoms consistent | 2 |
telemedicine significantly | 2 |
case fatality | 2 |
limited healthcare | 2 |
health center | 2 |
management randomized | 2 |
considered statistically | 2 |
compared telemedicine | 2 |
longitudinal field | 2 |
will invariably | 2 |
electronic records | 2 |
limiting exposure | 2 |
may offer | 2 |
many low | 2 |
custom orthosis | 2 |
retinal specialist | 2 |
potential conflict | 2 |
care organizations | 2 |
remotely evaluate | 2 |
shandong province | 2 |
across states | 2 |
surgery using | 2 |
programs according | 2 |
medical reasons | 2 |
affiliations key | 2 |
provider costs | 2 |
record systems | 2 |
among rural | 2 |
appropriate use | 2 |
income settings | 2 |
less urgent | 2 |
states medical | 2 |
clinic crowding | 2 |
relevant articles | 2 |
increasing number | 2 |
ent clinic | 2 |
critically reviewed | 2 |
automated grading | 2 |
tympanic membrane | 2 |
various eye | 2 |
face ambulatory | 2 |
unique barriers | 2 |
direct effect | 2 |
advanced age | 2 |
involves tele | 2 |
patient benefits | 2 |
remote locations | 2 |
following search | 2 |
lamp biomicroscopy | 2 |
national institute | 2 |
business case | 2 |
significant wald | 2 |
referring provider | 2 |
drive time | 2 |
pulmonary function | 2 |
studies explored | 2 |
telemedicine committee | 2 |
patients completed | 2 |
meet standards | 2 |
clin doi | 2 |
transplant evaluation | 2 |
suspected covid | 2 |
conventional inclinic | 2 |
maintain patient | 2 |
french social | 2 |
depressive symptoms | 2 |
sleep experts | 2 |
well suited | 2 |
studies investigating | 2 |
four longitudinal | 2 |
patients face | 2 |
forward model | 2 |
eye banking | 2 |
post hoc | 2 |
safe management | 2 |
aerosol generating | 2 |
provider may | 2 |
daily routine | 2 |
field scanning | 2 |
using technological | 2 |
may continue | 2 |
colleagues attempted | 2 |
rapidly across | 2 |
face appointments | 2 |
providers must | 2 |
continually iterate | 2 |
available within | 2 |
use wearable | 2 |
patient triage | 2 |
knee arthroscopy | 2 |
bringing unique | 2 |
symptoms resolved | 2 |
reduce administrative | 2 |
many lmics | 2 |
travel times | 2 |
hipaa regulations | 2 |
administered online | 2 |
monitoring technology | 2 |
economic disparities | 2 |
regional examination | 2 |
ocular manifestations | 2 |
qsr ka | 2 |
telemedicine modality | 2 |
navy aircraft | 2 |
accelerated growth | 2 |
train future | 2 |
potential tool | 2 |
first situation | 2 |
hessian ministry | 2 |
two types | 2 |
commercially available | 2 |
clinically significant | 2 |
pediatric retinal | 2 |
maximum likelihood | 2 |
specialist centers | 2 |
global perspective | 2 |
online electronic | 2 |
billing specialists | 2 |
inpatient unit | 2 |
potential lack | 2 |
poor outcomes | 2 |
ebola outbreak | 2 |
mychart patient | 2 |
without decreasing | 2 |
mandatory social | 2 |
systematic analysis | 2 |
second conventional | 2 |
definitive diagnosis | 2 |
based learning | 2 |
applications stand | 2 |
potential barriers | 2 |
main advantages | 2 |
american academcy | 2 |
office evaluations | 2 |
telehealth solutions | 2 |
via digital | 2 |
population density | 2 |
pilot trial | 2 |
senior author | 2 |
social work | 2 |
stroke team | 2 |
demonstrate high | 2 |
information including | 2 |
physicians also | 2 |
also obtained | 2 |
assessment software | 2 |
anecdotal evidence | 2 |
hipaa violations | 2 |
significant challenges | 2 |
based clinical | 2 |
th day | 2 |
neurosurgery study | 2 |
important questions | 2 |
referred patients | 2 |
another issue | 2 |
home collection | 2 |
income level | 2 |
children allocated | 2 |
sleep med | 2 |
fac surg | 2 |
use overall | 2 |
remote sites | 2 |
language literature | 2 |
improving gradually | 2 |
en lors | 2 |
technology barriers | 2 |
ocular telehealth | 2 |
infrastructure necessary | 2 |
diabetes research | 2 |
major contagion | 2 |
birth control | 2 |
observation camera | 2 |
er admission | 2 |
imaging modalities | 2 |
gaining popularity | 2 |
us preventive | 2 |
emergency cases | 2 |
major risk | 2 |
field data | 2 |
chronic rhinosinusitis | 2 |
patients receiving | 2 |
ongoing management | 2 |
waiver authority | 2 |
injured patients | 2 |
recently trained | 2 |
provide virtual | 2 |
influence telemedicine | 2 |
unnecessary face | 2 |
spectral domain | 2 |
initial response | 2 |
medical trainees | 2 |
quality patient | 2 |
even among | 2 |
coming decade | 2 |
independent evaluation | 2 |
nasal cannula | 2 |
comprehensive scan | 2 |
newly diagnosed | 2 |
appropriate clinical | 2 |
state governments | 2 |
bilateral smartphone | 2 |
reported general | 2 |
decrease barriers | 2 |
ongoing shortages | 2 |
sleep studies | 2 |
ng ml | 2 |
site evaluation | 2 |
ent physicians | 2 |
surgery postoperative | 2 |
unified theory | 2 |
patients also | 2 |
findings provide | 2 |
author contributions | 2 |
important aspect | 2 |
haptic sensation | 2 |
policy challenges | 2 |
nih stroke | 2 |
conducted among | 2 |
trauma patients | 2 |
threatening diseases | 2 |
cal insurance | 2 |
focused studies | 2 |
clinical manifestation | 2 |
form hub | 2 |
database pubmed | 2 |
chronic medical | 2 |
articles published | 2 |
renal transplant | 2 |
current health | 2 |
interactive audio | 2 |
randomized study | 2 |
clinic protocol | 2 |
perform virtual | 2 |
stable allograft | 2 |
specialized medical | 2 |
achieve target | 2 |
rapidly expanded | 2 |
patients benefit | 2 |
data show | 2 |
possible owing | 2 |
real world | 2 |
vs telemedicine | 2 |
pour le | 2 |
stay healthy | 2 |
isolation ward | 2 |
reviewed research | 2 |
imaging system | 2 |
based management | 2 |
clinical decision | 2 |
immunology community | 2 |
allowing clinicians | 2 |
european union | 2 |
exposure containment | 2 |
price value | 2 |
clinical environment | 2 |
central corneal | 2 |
positively influences | 2 |
patients randomized | 2 |
modifier inclusion | 2 |
built using | 2 |
interactive presence | 2 |
require urgent | 2 |
patient questions | 2 |
demonstrated increased | 2 |
convenient overall | 2 |
national practices | 2 |
gray literature | 2 |
cardiovascular conditions | 2 |
local medical | 2 |
mostly utilized | 2 |
environmental pollutants | 2 |
medicare physician | 2 |
soft tissue | 2 |
may bridge | 2 |
average time | 2 |
based electronic | 2 |
retinal cameras | 2 |
showed significant | 2 |
constant monitoring | 2 |
posterior segment | 2 |
otolaryngology practices | 2 |
demonstrated decreased | 2 |
asd regimens | 2 |
human disasters | 2 |
missing data | 2 |
health practice | 2 |
data must | 2 |
hearing aid | 2 |
practice medicine | 2 |
approach allows | 2 |
remote pulmonary | 2 |
team remote | 2 |
scheduling process | 2 |
behavioral intention | 2 |
cancer center | 2 |
observed therapy | 2 |
specialty referral | 2 |
oculus examination | 2 |
care delivered | 2 |
emerging application | 2 |
existing human | 2 |
new applications | 2 |
medical insurance | 2 |
rescheduling rate | 2 |
medical intensive | 2 |
high satisfaction | 2 |
transplantation network | 2 |
different regions | 2 |
based hospital | 2 |
key actions | 2 |
stroke patients | 2 |
teleophthalmology study | 2 |
health providers | 2 |
nearest health | 2 |
audio quality | 2 |
diabetes education | 2 |
pathway moving | 2 |
low prior | 2 |
telehealth care | 2 |
administrative support | 2 |
like tele | 2 |
error prevalence | 2 |
fundus oculi | 2 |
novel applications | 2 |
telemedicine evaluation | 2 |
video encounter | 2 |
clinics equipped | 2 |
taking care | 2 |
transplant nephrology | 2 |
international guidelines | 2 |
telemedicine plays | 2 |
mild symptoms | 2 |
nihss assessment | 2 |
johns hopkins | 2 |