Dermatology: Practical and Conceptual


Research  |  Dermatol Pract Concept 2017;7(2):2 7

DERMATOLOGY PRACTICAL & CONCEPTUAL
www.derm101.com

Use of and intentions to use dermoscopy among 
physicians in the United States

Jeffrey B. Morris1, Sara V. Alfonso1, Nilda Hernandez1, M. Isabel Fernández1

1 College of Osteopathic Medicine, Nova Southeastern University, Ft. Lauderdale, FL, USA

Key words: dermoscopy, dermatoscopy, epiluminescence microscopy, use, intentions

Citation: Morris JB, Alfonso SV, Hernandez N, Fernández MI. Use of and intentions to use dermoscopy among physicians in the United 
States. Dermatol Pract Concept. 2017;7(2):2. DOI: https://doi.org/10.5826/dpc.0702a02

Received: April 5, 2016; Accepted: December 9, 2016; Published: April 30, 2017

Copyright: ©2017 Morris et al. This is an open-access article distributed under the terms of the Creative Commons Attribution License, 
which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.

Funding: None.

Competing interests: The authors have no conflicts of interest to disclose.

Author contributions: Morris, Alfonso, Hernandez and Fernández participated in all aspects of study development, implementation, 
analyses, interpretation of findings and manuscript development. Morris and Fernández have full access to the study data and assume full 
responsibility for the integrity of the data and the accuracy of the data analyses.

Ethical committee approval: Nova Southeastern University Institutional Review Board, approved on August 27, 2015

Corresponding author: M. Isabel Fernández, PhD, 2000 S. Dixie Hwy Suite 108 Miami, FL 33133, USA. Tel. 305-860-8710; Fax. 305-860-
8742. E-mail: mariafer@nova.edu

Background: Dermatologists routinely use dermoscopy to improve diagnostic accuracy of skin can-
cers. Much less is known about its use among other physicians who routinely examine the skin, such 
as family physicians, internists and plastic surgeons.

Objectives: To document the use of dermoscopy in a sample of US physicians and to examine phy-
sician and practice characteristics associated with ever having used a dermascope and having some 
intentions to incorporate dermoscopy into clinical practice during the next 12 months.

Methods: From September 2015 to February 2016, we recruited 1,466 practicing physicians in per-
son and online to complete an anonymous survey that assessed: demographic factors; physicians and 
practice characteristics; confidence differentiating skin lesions; knowledge and use of dermoscopy; and 
intentions and barriers to use dermoscopy. We conducted bivariate analysis to examine the relation-
ship between key factors and the outcomes and entered the significant predictors into two separate 
logistic regressions.

Results: Fifteen percent of participants had ever used a dermascope and 6% were currently using it. 
Factors significantly associated with ever having used a dermascope (Model 1) and having intentions 
to use (Model 2) at the multivariate level were: recent graduation from medical school (strongest pre-
dictor in both models), identifying as a family physician, seeing a higher number of patients with skin 
cancer and having a higher level of confidence differentiating skin lesions. Both models were highly 
significant.

Conclusion: Use of dermoscopy was low. Promotional efforts to increase dermoscopy use in the US 
are needed.

ABSTRACT



8 Research  |  Dermatol Pract Concept 2017;7(2):2

indicating that PCPs can effectively use the dermascope to 

increase their sensitivity of diagnosing malignant skin lesion 

with little or no decrease in specificity [17-19]. For instance, 

Argenziano et al reported statistically significant differences 

in sensitivity between dermoscopy and visual examination 

(79.2% vs 54.1% respectively); 23 malignant skin tumors 

were missed using visual examination and only 6 using der-

moscopy [17]. In another study, dermoscopy significantly 

increased the PCP’s ability to detect melanoma from dermo-

scopic images; sensitivity increased from 54.6% to 75.9% 

[18]. Using within-lesion controls, Menzies et al asked par-

ticipants to rate suspicious lesions and provide management 

options (e.g., referral, biopsy, etc.) using visual inspection and 

then to repeat the rating with the aid of a dermascope [19]. 

There was a 63.5% reduction in the number of benign lesions 

requiring excision or referral from use of the dermoscopic 

intervention and sensitivity of diagnosis almost doubled. A 

recent study of French PCPs provides additional evidence 

supporting use of the dermascope for melanoma screening 

[20]. These studies suggest dermoscopy can improve the PCP’s 

diagnostic accuracy for skin cancer.

Another group that may benefit from using the der-

mascope is plastic surgeons. Interest among this group of 

physicians is increasing as demonstrated by a recent study 

conducted among plastic surgeons attending the first Der-

moscopy for Plastic Surgeons conference [21]. Participants 

were asked to mark skin lesions as certainly benign (leave), 

probably benign (excise) and malignant (excise) based on a 

clinical picture before and after a one-day dermoscopy train-

ing course [21]. After the training course, and with the addi-

tion of the dermoscopic images, the sensitivity of accurately 

diagnosing a malignant lesion increased from 56% to 64% 

and specificity increased from 44% to 64%. Dermoscopy 

also resulted in a near doubling in the number of correctly 

diagnosed benign lesions. Expanding use of the dermascope 

among plastic surgeons may yield additional benefits in the 

diagnosis and treatment of skin cancer and may also lead to 

additional uses for the dermascope.

In spite of this strong evidence supporting the dermascope 

as an important diagnostic tool, little is known about use of 

the dermascope among US based physicians. In response to 

this need, we conducted a study to: (1) document the use of 

dermoscopy in a sample of US physicians; (2) examine physi-

cian and practice characteristics associated with ever having 

used a dermascope and intentions to use a dermascope; and 

(3) examine possible barriers that might hamper its use.

Methods

From September 2015 to February 2016, we recruited 1,466 

physicians representing 49 states in person (e.g., conferences, 

offices, houses, etc.) and online (professional associations, 

Introduction
Skin cancer is the most common cancer in the United States 

(US) [1]. Over the past three decades, there have been more 

cases of skin cancer reported than all other cancers combined 

[2,3]. Skin cancer poses a substantial and increasing economic 

burden on the US health care system [4]. Between 2007 and 

2011, the average annual cost for treating skin cancer increased 

by 126.2% compared to a 25.1% increase for all other cancers 

[4]. Although non-melanoma skin cancers are more preva-

lent, melanoma is far more deadly [5]. During the past three 

decades, there has been 20% to 60% decrease in mortality 

rates for cancers of the cervix, colon, prostate and breast while 

mortality from melanoma has increased [6,7]. Early detection 

is key to achieving more positive treatment outcomes [8].

Because many patients are seen first by primary care phy-

sicians (PCPs), these doctors are poised to play a critical role 

in early detection of skin cancers. The most common way that 

many PCPs screen for skin cancer is through visual inspection, 

which is not highly sensitive [9]. Among PCPs the sensitivity 

of visual inspection ranges from 37.5% to 60.9% [9]. Thus, 

reliance on visual inspection alone may not be the optimal 

strategy for early detection of skin cancers. Adding relatively 

inexpensive, but highly sensitive and specific non-invasive 

technology, such as the dermascope, may enhance the effec-

tiveness of visual exams for detecting early stage skin cancers.

Dermoscopy is a non-invasive in vivo technique that 

allows visualization of subsurface structures of the skin that 

are not visible with the naked eye. Several meta-analyses 

provide strong evidence indicating that dermoscopy improves 

accuracy in diagnosing skin cancer [10-12]. In a 2008 meta-

analysis, the odds of melanoma detection by dermoscopy 

was 15.6 times higher than by naked-eye examination (CI = 

2.9-83.7, p = .016), and the sensitivity rate was 90% com-

pared to 71% for naked-eye examination with no significant 

changes in specificity [10]. In a more recent study, dermos-

copy resulted in 42% fewer excisions compared to naked-eye 

examination and had a 21% increase in specificity [13].

Despite the benefits, the diagnostic accuracy of the der-

mascope is contingent on the skill of the user and the cancer-

ous lesions having typical features [14]. Notwithstanding, 

dermoscopy is routinely used among dermatologists in many 

countries. For instance, approximately 95% of dermatologist 

in France, 98% of those in Australia, and 98.5% of those in 

the UK use dermoscopy in their clinical practice [15]. In con-

trast, use of dermoscopy among US dermatologists is much 

lower. In 2009, 48% of the 3,238 US dermatologists surveyed 

reported using dermoscopy in their practice [16]. Efforts to 

promote the use of the dermascope among US dermatologists 

are warranted.

Because dermascopes are relatively inexpensive and easy 

to use with minimal training, they can be readily integrated 

into routine primary care [17]. There is emerging evidence 



Research  |  Dermatol Pract Concept 2017;7(2):2 9

Confidence in differentiating skin lesions: Participants 

reported their degree of confidence differentiating between 

cancerous and non-cancerous skin lesions using a 5-point 

Likert scale ranging from “not confident at all” to “very 

confident”.

Knowledge and use of dermoscopy: Using four dichotomous 

items, participants reported whether or not they had heard 

of, read about, ever used and currently use a dermascope.

Intentions to use a dermascope in the next 12 months: Using 

a 5-point Likert scale, where 1 is “not at all likely” and 5 is 

“very likely”, participants reported how likely they are to 

incorporate the dermascope into their clinical practice within 

the following 12 months. To create the dichotomous outcome 

variable, intentions to use the dermascope in the following 

12 months, all scores of 1 were recoded as no intentions and 

scores of 2 and greater were collapsed and recoded as some 

intentions.

Barriers: For each of 10 potential barriers (e.g., insufficient 

reimbursement, increased patient anxiety, etc.), participants 

reported the degree to which the item was a barrier to incor-

porating dermoscopy in their clinical practice. Response 

options ranged from 1 “no barrier” to 5 “a very big barrier”. 

For each item, we calculated mean scores and used these 

scores to identify the top three barriers.

Analysis plan: We used measures of central tendency (mean, 

mode) and descriptive statistics (frequencies, etc.) to examine 

sample characteristics and conducted bivariate analysis (chi 

square) to examine the relationship between key factors and 

our two dependent variables: (1) ever used the dermascope; 

(2) intentions to incorporate use of the dermascope into 

their clinical practice in the following 12 months. In accor-

dance with Hosmer and Lemeshow, we entered the variables 

whose p values were statistically significant or approaching 

significance (p < .20) in the bivariate analysis in the logistic 

regressions [22]. The sample size for the logistic regression 

on “ever used a dermascope” (which we refer to as Model 

1) was 1,332 and the sample size for the logistic regression 

on “intentions to use a dermascope” (which we refer to as 

Model 2) was 1,168. The reduced sample size for Model 2 

was due to missing data on the dependent variable, which 

occurred at the early stages of data collection. As soon as we 

realized that some participants were skipping the intention 

item because it was partially hidden by the clipboard, we 

remedied the situation.

Results

Sample characteristics are described in Table 1. Our sample 

was primarily white (77.1%), males (65.3%), trained as DO’s 

(62%), and identified as family physicians (48.4%). Fifty-four 

e-mail, etc.) to complete a brief cross-sectional survey. We 

recruited at nine national and international conferences 

that primarily targeted PCPs and others most likely to use 

dermoscopy. We purposefully excluded recruiting at confer-

ences targeting dermatologists. To reduce cost, we focused on 

conferences held in cities (e.g., Tampa, Orlando, Miami, Fort 

Lauderdale, Atlanta, Boca Raton, Weston) geographically 

more proximal to the investigators, such as the 2015 confer-

ence for the American College of Osteopathic Internists and 

the 2016 Southeastern Society of Plastic and Reconstructive 

Surgeons. To be eligible, physicians had to be: (1) 18 years of 

age or older; (2) currently practicing in the US; and (3) able 

to understand English. The study was approved by the Nova 

Southeastern University (NSU) Institutional Review Board as 

exempt on August 27, 2015.

We approached potential participants, briefly described 

the study and ascertained whether or not they were eligible. 

To those eligible and willing to participate, we gave a clip-

board with the survey and an explanatory cover letter stating 

that participation is voluntary, that they would not receive an 

incentive, and that by completing the survey they were con-

senting to be in the study. Eighty-six percent of participants 

were recruited face-to-face and the majority of those eligible 

agreed to participate. We used SurveyMonkey® to create an 

electronic version of the cover letter and questionnaire which 

we distributed via personal e-mails and professional list 

servers. Eligible and willing participants clicked on the link 

provided and were redirected to a secure website to complete 

the survey. We entered paper surveys into SPSS® and merged 

the file with the data collected online.

Because we found no standardized instrument to measure 

dermoscopy use in the published literature, we selected spe-

cific items from past surveys directly relevant to our study 

and developed new items to assess domains of interest. We 

pilot tested the newly developed survey on ten respondents 

to assess comprehension and readability. We revised select 

items to improve comprehension and omitted items that were 

redundant or unclear. The final instrument consisted of 46 

items measuring the following areas:

Demographic factors: Participants reported their age, gender 

and race/ethnicity.

Physician characteristics: Participants reported their type 

of medical degree (Doctor of Osteopathic Medicine [DO] 

or Medical Doctor [MD]), year of graduation from medical 

school, percentage of time spent in direct patient care, number 

of patients seen per month and number of patients presenting 

with lesions suspicious for skin cancer in a typical month.

Practice characteristics: Participants reported their type of 

medical practice (e.g., solo, group, academic, etc.), the state 

in which they practiced, and location of practice (urban, 

suburban or rural).



10 Research  |  Dermatol Pract Concept 2017;7(2):2

percent of participants had heard of the dermascope and 26% 

had read about it in the medical literature. Fifteen percent of 

our sample had ever used the dermascope and 6% were cur-

rently using it in their clinical practice. The most frequently 

cited barriers to incorporating the dermascope in routine care 

were: (1) the cost of the equipment (M = 3.72, SD = 1.29); 

(2) time and training requirements to become proficient in its 

use (M = 3.46, SD = 1.24); and (3) insufficient reimbursement 

(M = 3.32, SD = 1.49).

Table 2 summarizes factors significantly associated with 

ever having used a dermascope and with having some inten-

tions to use the dermascope in the following 12 months at 

the bivariate level. At the bivariate level, ever having used a 

dermascope was significantly associated with year of gradu-

ation, gender, degree, specialty, practice type, percentage of 

time spent in direct patient care, number of patients seen per 

month who present with suspicious skin lesions that may be 

cancerous, and level of confidence differentiating benign and 

malignant skin lesions. Having intentions to use in 12 months 

was significantly associated with year of graduation, gender, 

Variable n
Valid 

%

Year of graduation (N1 = 1,391)

 Before 1980 182 13.1

 1980-1989 316 22.7

 1990-1999 305 21.9

 2000-2009 352 25.3

 2010-2015 236 17.0

Ethnicity (N1 = 1,452)

 White 1,119 77.1

 Black 103 7.1

 Hispanic/Latino 96 6.6

 Asian/Pacific Islander 92 6.3

 Other 42 2.9

Gender (N1 = 1,456)

 Male 951 65.3

 Female 505 34.7

Degree (N1 = 1,455)

 D.O. 900 61.7

 M.D. 558 38.3

 Practice location (N1 = 1,450)

 Urban 532 36.7

 Suburban 609 42.0

 Rural 296 20.4

 Other 13 .9

Specialty (N1 = 1,458)

 Family Medicine 705 48.4

 Internal Medicine 298 20.4

 Plastic Surgery 231 15.8

 Other2 224 15.4

Practice type (N1 = 1,455)

 Solo 402 27.6

 Group 495 34.0

 Hospital-based 254 17.5

 Academic medicine 158 10.9

 Community health 94 6.5

 Other 52 3.6

Time in direct patient care (N1 = 1,457)

 0-25% 54 3.7

 26%-50% 55 3.8

 51%-75% 167 11.5

 76%-100% 1181 81.1

# of patients/month (N1 = 1,437)

 ≤100 327 22.8

 101-200 330 23.0

 201-300 295 20.5

 301-400 257 17.9

 ≥ 401 228 15.9

Variable n
Valid 

%

# of patients/month with suspicious lesions (N1 = 1,424)

 ≤ 1.5 298 20.9

 1.51-4.99 248 17.4

 5-9.99 250 17.6

 10-19.99 278 19.5

 ≥ 20 350 24.6

Level of confidence (N1 = 1,451)

 Not confident at all 59 4.1

 A little confident 311 21.4

 Neither confident nor unconfident 310 21.4

 Confident 616 42.5

 Very confident 155 10.7

Heard of a dermascope (N1 = 1,451)

 Yes 787 54.2

Read about a dermascope (N1 = 1,426)

 Yes 377 26.4

Used a dermascope (N1 = 1,445)

 Yes 211 14.6

Currently use a dermascope (N1 = 1,445)

 Yes 87 6.02

Intentions to incorporate dermoscopy into clinical 
practice in 12 months (N1 = 1,267)

 Yes 656 51.8

1N varies due to missing data
2 Other category includes specialties with less than 25 partici-
pants that included pediatricians, geriatricians, obstetricians etc.

TABLE 1. Sample characteristics. [Copyright: ©2017 Morris et al.]



Research  |  Dermatol Pract Concept 2017;7(2):2 11

US physicians. Thus, the low rates of dermoscopy use in our 

study may be partially explained by the absence of practice 

guidelines. Reimbursement rates may also be a limiting fac-

tor to its use in the US since no additional reimbursement is 

provided, as is true for otoscopy or stethoscopy [25]. This is 

in direct contrast to practices in other countries such as Aus-

tralia, where dermoscopy has been reimbursable since 1987 

[26]. Given skin cancer’s burden on the health care system 

and the benefits of early detection, promoting the use of der-

moscopy to US physicians, who routinely examine pigmented 

skin lesions, is warranted. 

It is interesting to note that cost and reimbursement were 

two of the three most frequently cited barriers to incorporat-

ing the dermascope into routine practice. Although not specif-

ically stated, the other barrier, time and training requirements, 

also has fiscal elements. In the current managed care environ-

ment with its increased competition for health care dollars, 

negotiated payment structures, shrinking reimbursements and 

patient quotas, physicians are concerned about introducing 

procedures which may impact their productivity and bot-

tom line. Given that dermoscopy significantly improves the 

diagnosis of melanoma and the cost of treating melanoma is 

reduced when detected early, routine dermoscopic screening 

for individuals at high risk should be adequately reimbursed 

and incorporated into the preventive care services mandated 

through the Patient Protection and Affordable Care Act [27].

Another important contribution of our study was exam-

ining the factors associated with use of the dermascope and 

having some intention to use the dermascope in the next 12 

months. It was noteworthy that for both regression models, 

the same set of factors emerged as significant predictors, 

degree, practice location, specialty, practice type, number of 

patients seen per month, number of patients seen per month 

who present with suspicious skin lesions that may be can-

cerous, and level of confidence differentiating benign and 

malignant skin lesions.

The results of the two logistic regressions are reported in 

Table 3. Graduating medical school more recently, being a 

family physician, seeing a higher number of cancer patients 

and having a higher level of confidence differentiating benign 

and malignant skin lesions were significantly associated with 

ever having used a dermascope and having intentions to use 

a dermascope. Recent graduation from medical school was 

the strongest predictor in both logistic regression models; 

participants who graduated between 2010 and 2015 were 

8.10 times more likely to have used the dermascope and 2.86 

times more likely to report intentions to use it than physicians 

who graduated before 1980. Participants with a higher level 

of confidence differentiating skin lesions were 2.18 times 

more likely to have used a dermascope and 1.16 times more 

likely to report intentions to use than those with a lower level 

of confidence. Model 1 correctly classified 86.6% of partici-

pants (p < .001) and Model 2 correctly classified 66.2% of 

participants (p < .001).

Discussion

Although there is widespread use of dermoscopy among phy-

sicians in other countries, our study indicates low use among 

US physicians. Treatment guidelines from other countries rec-

ommend use of dermoscopy to improve diagnostic accuracy 

[23,24]. Similar recommendations have yet to be issued for 

TABLE 2. Bivariate analysis of factors associated with ever having used 
a dermascope and having some intentions to use a dermascope in the next 

12 months. [Copyright: ©2017 Morris et al.]

Ever used a 
dermascope

Some intentions to 
use in 12 months

2 ρ 2 ρ

Year of graduation 49.61
4

.000*  19.86
4

.001*

Ethnicity  2.12
4

.833   7.47
4

.188

Gender  7.12
1

.008*   7.57
1

.006*

Degree  4.17
1

.041*  14.79
1

.000*

Practice location  3.72
3

.294  24.04
3

.000*

Specialty 32.11
3

.000* 106.51
3

.000*

Practice type 34.18
5

.000*  15.48
5

.009*

% of time spent in direct patient care  7.91
3

.048*   4.61
3

.203

# of patients/month  6.82
4

.146  29.77
4

.000*

# of patients/month with suspicious lesions 17.41
4

.002*  46.69
4

.000*

Level of confidence 49.01
4

.000*  24.71
4

.000*

*Statistically significant



12 Research  |  Dermatol Pract Concept 2017;7(2):2

months [30]. Media attention, editorials in the medical litera-

ture and additional promotional efforts by experts and pro-

fessional organizations may persuade those with intentions 

to incorporate the dermascope into their practice to actually 

do so. Studies with representative samples of physicians who 

graduated within the last 15 years would yield additional 

data to further elucidate the factors associated with use and 

intentions to use dermoscopy.

Type of medical specialty was another important pre-

dictor in both models. In contrast to other subspecialties, 

family physicians had the highest odds of ever having used 

a dermascope and intentions to incorporate its use in their 

clinical practice. In some ways this is not surprising because 

family physicians conduct more skin cancer screenings than 

other PCPs, and the dermascope has been shown to increase 

diagnostic accuracy for melanoma [31]. Additionally, since 

the intention item was placed near the end of the survey 

and many of the prior items highlighted the characteristics 

and benefits of the dermascope, participants who regularly 

screen for skin cancer may have been primed to express more 

favorable intentions regarding future use of the dermascope.

Notwithstanding the significance of our findings, our 

sample may not be representative of the population of US 

based physicians due to convenience sampling. Although we 

recruited physicians practicing in all states but Nebraska, a 

suggesting that these are robust predictors. However, the 

magnitude of the associations differed. For instance, recent 

graduates, those who graduated after 2009 and those who 

graduated between 2000 and 2009, were 8.1 times and 2.73 

times more likely, respectively, to have ever used the derma-

scope compared to those graduating before 1980. Since use 

of the dermascope in the US has been slowly gaining accep-

tance during the last decade, it could be that more training 

programs have been acquiring the device [28,29]. Thus, 

more recent graduates could have been exposed or have had 

experience using the dermascope during medical school or 

residency. Furthermore, since 41.2% of participants who had 

ever used the dermascope were currently using it, exposure 

during medical training could have promoted current use.

Similarly, those who graduated after 2009 and those who 

graduated between 2000 and 2009, were 2.86 times and 2 

times more likely, respectively, to report having some inten-

tions to incorporate the dermascope into their practice in the 

following 12 months. It could be that recent graduates, who 

are likely to be younger, may be more open to trying new tech-

nology compared to participants graduating prior to 1980 

who may be nearing retirement age. Although intentions do 

not always predict future behaviors, it was encouraging to 

note that 52% of participants expressed some intention to 

incorporate dermoscopy into their practice within the next 12 

TABLE 3. Logistic regression models. [Copyright: ©2017 Morris et al.]

Model 1- Ever used a dermascope
Model 2- Some intentions to use 

in 12 months

Beta OR 95% CI ρ Beta OR 95% CI ρ

Year of graduation

 Before 1980 (referent)

 1980-1989 -.13 .88 .42-1.76 .721 .64 1.90 1.22-2.99 .005*

 1990-1999 -.01 .99 .49-2.01 .986 .46 1.59 1.00-2.53 .051

 2000-2009 1.01 2.73 1.39-5.37 .004* .70 2.00 1.25-3.19 .004*

 2010-2015 2.09 8.10 3.83-17.12 .000* 1.05 2.86 1.66-4.93 .000*

Specialty 

 Family Med. (Referent)

 Internal Medicine -.95 .39 .23-.66 .000* -.26 .78 .55-1.10 .156

 Plastic Surgery -1.81 .16 .08-.36 .000* 2.04 .13 .08-.22 .000*

 Other .06 1.06 .64-1.73 .828 -.52 .60 .41-.87 .008*

# of patients/month with suspicious lesions

 ≥ 20 (Referent)

 10-19.99 -4.27 .65 .40-1.06 .087 -.18 .84 .57-1.23 .367

 5-9.99 -.681 .51 .30-.86 .011* -.42 .66 .44-.98 .041*

 1.51-4.99 -.303 .74 .43-1.30 .266 -.40 .67 .44-1.00 .052

 ≤ 1.5 -1.30 .27 .14-.52 .000* -1.05 .35 .23-.53 .000*

Level of confidence .78 2.18 1.77-2.68 .000* .15 1.16 1.02-1.32 .020*

*Statistically significant



Research  |  Dermatol Pract Concept 2017;7(2):2 13

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18. Westerhoff K, McCarthy WH, Menzies SW. Increase in the sensi-

tivity for melanoma diagnosis by primary care physicians using 

skin surface microscopy. Br J Dermatol. 2000;143(5):1016–1020.

19. Menzies SW, Emery J, Staples M, et al. Impact of dermoscopy 

and short-term sequential digital dermoscopy imaging for the 

management of pigmented lesions in primary care: a sequential 

intervention trial. Br J Dermatol. 2009;161(6):1270–1277.

20. Chappuis P, Duru G, Marchal O, Girier P, Dalle S, Thomas L. 

Dermoscopy: A useful tool for general practitioners in melanoma 

screening: a nationwide survey. Br J Dermatol. 2016; 175(4):744-

750.

large proportion of participants practiced in the Southeast 

since we primarily recruited at conferences located in this 

region of the country. Our findings can only be generalized 

to physicians attending these conferences. Our data collection 

method was self-report, which has some limitations [32]. 

However given that we were not collecting sensitive data, 

the tendency towards providing socially desirable responses 

in self-report data was minimized. Because we expected that 

many participants would have little knowledge of the derma-

scope, we provided a brief description of its properties (that 

it was relatively inexpensive, easy to use and more effective 

for screening than naked-eye examinations) as a preamble to 

the intention items. Although this positive description might 

have prompted some participants to respond more favorably, 

almost half did not suggesting that the effect was attenuated. 

Last, because participants completed the survey without 

direct oversight from the researchers, there were some skip 

pattern errors and missed responses.

In summary, our study represents an initial step in under-

standing use of dermoscopy among US based physicians. 

Despite the strong evidence supporting use of dermoscopy 

to enhance diagnostic accuracy primarily for melanoma, the 

low levels of use among US-based physicians is concerning, 

particularly in light of the morbidity, mortality and health 

care cost of melanomas, especially those detected later in 

their disease course. Although the evidence supporting rou-

tine population-based screening for skin cancer is equivocal, 

promoting routine dermoscopic screening of patients at high 

risk may be beneficial [33]. Efforts to increase dermoscopy 

use among physicians routinely examining high-risk patients 

are needed.

Acknowledgments

We would like to thank the dean of NSU COM and the NSU 

research fellowship program for the opportunity to conduct 

this research. This manuscript represents valid work and has 

not been published or under consideration for publication 

in any other journal. All data created during this research is 

available in hard copy at our office and in an SPSS® database. 

The study was supported by internal university funds and 

the authors do not have conflicts of interest. Furthermore, 

all of the authors contributed significantly to the design and 

conduct of the study and participated in the development of 

the manuscript.

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cessed January 2, 2016.

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31. Oliveria SA, Heneghan MK, Cushman LF, Ughetta EA, Halpern 

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2011;147(1):39–44.

32. Paulhus DL, Vazire S. The self-report method. In: Robins RW, 

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Quality. Accessed February 11, 2016. Screening for skin cancer 

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Research  |  Dermatol Pract Concept 2017;7(2):2 15

 1. How old are you?____________________

 2. What is your gender?
1. Male
2. Female

 3. Which of the following most closely describes your 
ethnic background?
1. White, non-Hispanic origin
2. Black, non-Hispanic origin
3. Hispanic/Latino/Latina
4. Asian/Pacific Islander
5. Native American
6. Other,  please specify____________________

 4. In which state do you spend the majority of your time 
practicing medicine? ____________________

 5. What type of medical degree do you have? 
1. D.O.
2. M.D. 

 6. What year did you graduate from medical 
school?____________________

 7. How would you best describe your primary specialty 
area?
1. Family Practice
2. Internal Medicine
3. Obstetrics/Gynecology
4. Pediatrics
5. Adolescent Medicine
6. Surgery
7. Geriatrics
8. Other, please specify____________________

 8. What percentage of your time is spent in direct patient 
care?
1. 0 to 25%
2. 26% to 50%
3. 51% to 75%
4. 76% to 100%

 9. Which of the following best describes your type of 
medical practice?
1. Solo practice
2. Single specialty group practice
3. Multispecialty group practice
4. Hospital-based practice
5. Academic medicine
6. Community health center or community clinics
7. Other, please specify¬____________________ 

10. Which of the following best describes the location of 
your primary practice? 
1. Urban 
2.  Suburban 
3.  Rural
4. Other, please specify____________________

11. In a typical month, approximately how many patients 
do you see?____________________

12. In a typical month, approximately how many of the 
patients you see present with suspicious skin lesions 
that might be cancerous?____________________

13. How confident are you in your ability to differentiate 
between cancerous and non-cancerous skin lesions? 
1. Not confident at all
2. A little confident
3. Neither confident nor unconfident
4. Confident
5. Very confident

14. When a patient presents with a suspicious skin lesion, 
which of the following most closely describes what you 
typically do? 
1. Conduct a naked eye examination of the lesion 
2. Examine lesion with the aid of a magnifying device
3. Refer patient to a dermatologist
4. Other, please specify____________________

15. Physicians use different strategies to get up to date 
medical information. Which of the following are your 
2 top sources for obtaining information on skin cancer 
screening and prevention? 
1. Medical journals
2. Internet sources other than medical journals
3. Conferences
4. Discussions with colleagues
5. Media coverage
6. Other, please specify____________________

16.  Have you ever heard of a dermascope, a device that 
helps physicians screen for skin cancers?
1. No (skip to Q17)
2. Yes

If yes, in what context did you hear about it?
1. A conversation with a colleague
2. At a conference 
3. At a ground rounds
4. At a class
5. Other, please specify____________________

17. Have you ever read about dermoscopy in the medical 
literature?
1. No (skip to Q18)
2. Yes

If yes, how much have you read?
1. 1 article
2. 2 to 4 articles
3. 5 or more articles

18.  Have you ever used a dermascope?
1. No 
2. Yes

If yes, do you currently use it in your clinical 
practice?
1. No
2. Yes 

Please read each question carefully and provide your answers by circling the number that reflects your answer or writing the 
response on the line provided. Please remember that this survey is completely anonymous and there are no right or wrong 
answers. Thank you once again for your participation in this study.



16 Research  |  Dermatol Pract Concept 2017;7(2):2

Intention to use
The following questions address different properties of skin cancer screening tools that make them more or less acceptable to 
physicians. Using a scale from 1 to 5, where 1 is not at all likely and 5 is very likely, please tell us how likely you are to use a 
dermascope in your clinical practice if it . . .

Not at 
all likely

Very 
Likely

1. Was easy to use 1 2 3 4 5

2. Costs less than $500 1 2 3 4 5

3. Could be attached to a smartphone 1 2 3 4 5

4. Was handheld 1 2 3 4 5

5. Training could be done in 1 day 1 2 3 4 5

6. Is more sensitive than a naked eye exam 1 2 3 4 5

7. Costs more than $1500 1 2 3 4 5

8. Requires little maintenance 1 2 3 4 5

9. Requires a lot of practice 1 2 3 4 5

10. Does not record digital images 1 2 3 4 5

11. Reduces the need for biopsies 1 2 3 4 5

12. Can help identify suspect skin lesions quickly 1 2 3 4 5

13. Decreases cost of care 1 2 3 4 5

14. Increases your confidence in screening for skin cancer 1 2 3 4 5

15. Could increase revenue 1 2 3 4 5

16. Adds a few minutes to the patient encounter 1 2 3 4 5

The prevalence of skin cancer is increasing and primary care providers are well poised to assist in its early detection. Derma-
scopes are relatively inexpensive, easy to use, and there is strong evidence indicating that they are more effective at screening 
for skin cancer than naked eye examinations.

19.  Using a scale from 1 to 5, where 1 is not at all likely and 5 is very likely, how likely are you to incorporate use of a der-
mascope as part of your clinical practice within the next 6 months?____________________

20.  Using a scale from 1 to 5, where 1 is not at all likely and 5 is very likely, how likely are you to incorporate use of a der-
mascope as part of your clinical practice within the next 12 months?____________________

Barriers to use
There are a number of issues that may keep physicians from incorporating dermoscopy into their clinical practice. On a scale 
from 1 to 5, where 1 is no barrier and 5 is a very big barrier, please tell us the degree to which each of the following items 
represents a barrier to incorporating dermoscopy into your clinical practice.

No 
Barrier

Very Big 
Barrier

1. Insufficient reimbursement 1 2 3 4 5

2. Added time to the patient encounter 1 2 3 4 5

3. Cost of the equipment 1 2 3 4 5

4. Time and training requirements to become proficient 

in its use

1 2 3 4 5

5. Skin cancer screening is a low priority for non-dermatologists 1 2 3 4 5

6. Increased patient anxiety 1 2 3 4 5

7. Increased risk of lawsuits 1 2 3 4 5

8. Patients may not accept it 1 2 3 4 5

9. Dermatologic concerns may be secondary to chief 

complaint if there are multiple comorbidities 

1 2 3 4 5

10. No available training 1 2 3 4 5

11. Dermatologic concerns may be secondary to chief 

complaint if there are multiple comorbidities 

1 2 3 4 5

12. No available training 1 2 3 4 5